VICP Registry Case Source Bundle
Canonical URL: https://vicp-registry.org/case/USCOURTS-cofc-1_17-vv-01362
Package ID: USCOURTS-cofc-1_17-vv-01362
Petitioner: A.J.K.
Filed: 2017-11-27
Decided: 2023-12-22
Vaccine: MMR
Vaccination date: 2014-09-29
Condition: posterior reversible leukoencephalopathy or stroke, seizure disorder and their sequelae
Outcome: denied
Award amount USD: 

AI-assisted case summary:
On September 28, 2017, Andrew Kaltenmark and Danielle Kaltenmark, parents of A.J.K., a minor, filed a petition alleging that A.J.K.'s Measles, Mumps, and Rubella (MMR), varicella, and Influenza (flu) vaccinations administered on September 29, 2014, caused posterior reversible leukoencephalopathy syndrome (PRES), seizure disorder, and their sequelae. An amended petition later included Hepatitis A (Hep A) vaccine and alleged aggravation of an underlying seizure condition. The case proceeded as an off-Table claim, requiring petitioners to prove causation-in-fact. Petitioners' experts, pediatric neurologist AHM Mahbubul Huq and immunologist M. Eric Gershwin, theorized that the vaccinations, in combination with a resolving hand, foot, and mouth disease (HFMD) infection, triggered an inflammatory cytokine response that disrupted the blood-brain barrier, leading to PRES. Respondent's experts, immunologist Thomas G. Forsthuber and pediatric neurologist Peter M. Bingham, argued that the medical literature does not support vaccines causing PRES, that the cytokine levels expected from vaccination are too low to disrupt the blood-brain barrier, and that A.J.K.'s condition was more likely a stroke caused by hypertension or her prior HFMD infection. The Special Master, Daniel T. Horner, found that while PRES is a recognized condition and can be theorized as cytokine-mediated, petitioners failed to present preponderant evidence that vaccines can cause PRES or that A.J.K.'s specific condition was vaccine-caused. The Special Master noted that the timing of A.J.K.'s symptoms (approximately two days post-vaccination) was consistent with an innate immune response, but the lack of clinical evidence of inflammation and the insufficient scientific support for the vaccine-cytokine-PRES pathway led to the denial of entitlement. The petition was dismissed. Petitioner counsel was Edward Kraus. Respondent counsel was Colleen Hartley.

Theory of causation field:
Petitioners alleged that A.J.K., a minor aged approximately 1 year and 3 days, received MMR, Hep A, varicella, and flu vaccinations on September 29, 2014, and subsequently developed posterior reversible leukoencephalopathy syndrome (PRES) and seizure disorder. Petitioners' experts, Dr. Huq and Dr. Gershwin, theorized that the vaccinations, acting synergistically with a resolving HFMD infection, caused an inflammatory cytokine response that disrupted the blood-brain barrier, leading to PRES. Respondent's experts, Dr. Forsthuber and Dr. Bingham, contended that vaccines do not cause PRES, that cytokine levels from vaccination are insufficient to disrupt the blood-brain barrier, and that A.J.K.'s condition was more likely a stroke due to hypertension or HFMD. Special Master Daniel T. Horner found that while PRES can be theorized as cytokine-mediated, petitioners failed to prove by preponderant evidence that vaccines can cause PRES or that the vaccines caused A.J.K.'s specific condition. The case was dismissed. Petitioner counsel: Edward Kraus. Respondent counsel: Colleen Hartley. Decision Date: December 22, 2023.

Public staged source text:

================================================================================
DOCUMENT 1: USCOURTS-cofc-1_17-vv-01362-0
Date issued/filed: 2023-12-22
Pages: 57
Docket text: PUBLIC DECISION (Originally filed: 11/27/2023) regarding 147 DECISION of Special Master. Signed by Special Master Daniel T. Horner. (ksb) Service on parties made.
--------------------------------------------------------------------------------
Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 1 of 57
In the United States Court of Federal Claims
OFFICE OF SPECIAL MASTERS
No. 17-1362V
Filed: November 27, 2023
Special Master Horner
ANDREW KALTENMARK and
DANIELLE KALTENMARK, parents of
A.J.K., a minor,
Petitioners,
v.
SECRETARY OF HEALTH AND
HUMAN SERVICES,
Respondent.
Edward Kraus, Kraus Law Group, LLC, Chicago, IL, for petitioner.
Colleen Hartley, U.S. Department of Justice, Washington, DC, for respondent.
DECISION1
On September 28, 2017, A.J.K., a minor, by her father, Andrew Kaltenmark, filed
a petition under the National Childhood Vaccine Injury Act, 42 U.S.C. § 300aa-10-34
(2012).2 (ECF No. 1.) On December 5, 2017, the case caption was amended to
“Andrew Kaltenmark and Danielle Kaltenmark, parents of A.J.K., a minor”
(“Petitioners”). (ECF No. 13.) Petitioners initially alleged that A.J.K. suffered a cerebral
stroke, hypertension, global developmental delay, and epilepsy caused in fact by
A.J.K.’s Measles, Mumps, and Rubella (“MMR”); varicella; and Influenza (“flu”) A and B
vaccinations administered on September 29, 2014. (ECF No. 1.) On April 1, 2019,
1 Because this document contains a reasoned explanation for the action taken in this case, it must be
made publicly accessible and will be posted on the United States Court of Federal Claims' website, and/or
at https://www.govinfo.gov/app/collection/uscourts/national/cofc, in accordance with the E-Government
Act of 2002. 44 U.S.C. § 3501 note (2018) (Federal Management and Promotion of Electronic
Government Services). This means the document will be available to anyone with access to the
internet. In accordance with Vaccine Rule 18(b), Petitioner has 14 days to identify and move to redact
medical or other information, the disclosure of which would constitute an unwarranted invasion of privacy.
If, upon review, I agree that the identified material fits within this definition, I will redact such material from
public access.
2 All references to “§ 300aa” below refer to the relevant section of the Vaccine Act at 42 U.S.C. § 300aa-
10-34.
1

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 2 of 57
petitioners filed an amended petition, now alleging that A.J.K. suffered “posterior
reversible leukoencephalopathy or stroke, seizure disorder and their sequelae,” caused-
in-fact by her MMR, Hepatitis A (“Hep A”), varicella, and flu vaccines administered on
September 29, 2014. (ECF No. 56.) Alternatively, petitioners allege “the significant
aggravation of an underlying seizure condition and its sequelae caused by” the alleged
vaccinations on September 29, 2014. (Id.) For the reasons set forth below, I conclude
that petitioners are not entitled to an award of compensation.
I. Applicable Statutory Scheme
Under the National Vaccine Injury Compensation Program,3 compensation
awards are made to individuals who have suffered injuries after receiving vaccines. In
general, to gain an award, a petitioner must make a number of factual demonstrations,
including showing that an individual received a vaccination covered by the statute;
received it in the United States; suffered a serious, long-standing injury; and has
received no previous award or settlement on account of the injury. Finally – and the key
question in most cases under the Program – the petitioner must also establish a causal
link between the vaccination and the injury. In some cases, the petitioner may simply
demonstrate the occurrence of what has been called a “Table Injury.” That is,
petitioners may show that they suffered an injury of the type enumerated in the “Vaccine
Injury Table,” corresponding to the vaccination in question, within an applicable time
period following the vaccination also specified in the Table. In such cases, the Table
Injury is presumed to have been caused by the vaccine. § 300aa-13(a)(1)(A); § 300 aa-
11(c)(1)(C)(i); § 300aa-14(a); § 300aa-13(a)(1)(B).
In many cases, however, the vaccine recipient may have suffered an injury not
covered by the Vaccine Injury Table. In these “off-Table” cases, an alternative means
exists to demonstrate entitlement to a Program award. The petitioner may demonstrate
entitlement by showing that the recipient’s injury was “caused-in-fact” by the vaccine
they received, a showing often referred to as “actual causation.” § 300aa-13(a)(1)(B); §
300aa-11(c)(1)(C)(ii). In off-table cases, the presumptions available under the Vaccine
Injury Table are inoperative, and the burden is on the petitioner to introduce evidence
demonstrating that the vaccination was responsible for the injury in question. Althen v.
Sec’y of Health & Human Servs., 418 F.3d 1274, 1278 (Fed. Cir. 2005); Hines v. Sec’y
of Health & Human Servs., 940 F.2d 1518, 1525 (Fed. Cir. 1991). Because the injuries
petitioners alleged are not listed as Table Injuries relative to any of the vaccinations at
issue, petitioner must meet the burden of proof for an off-Table, or “cause-in-fact” claim.
See 42 C.F.R. § 100.3(a).
To show actual causation, petitioner must satisfy the “preponderance of the
evidence” standard, the same standard ordinarily used in tort litigation. § 300aa-
13(a)(1)(A); see also Althen, 418 F.3d at 1279; Hines, 940 F.2d at 1525. Under that
standard, the petitioner must show that it is “more probable than not” that the
vaccination caused the alleged injury. Althen, 418 F.3d at 1279. The petitioner need
not show that the vaccination was the sole cause of the injury or condition but must
3 The National Vaccine Injury Compensation Program is hereinafter referred to as the “Program.”
2

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 3 of 57
demonstrate that the vaccination was a “substantial factor” and a “but for” cause.
Shyface v. Sec’y of Health & Human Servs., 165 F.3d 1344, 1352 (Fed. Cir. 1999).
This standard has been interpreted to require “proof of a logical sequence of cause and
effect showing that the vaccination was the reason for the injury;” the logical sequence
must be supported by “reputable medical or scientific explanation, i.e., evidence in the
form of scientific studies or expert medical testimony.” Althen, 418 F.3d at 1278; Grant
v. Sec’y of Health & Human Servs., 956 F.2d 1144, 1148 (Fed. Cir. 1992). A petitioner
may not receive a Vaccine Program award based solely on his or her assertions; rather,
the petition must be supported by either medical records or by the opinion of a
competent physician. § 300aa-13(a)(1).
In what has become the predominant framing of this burden of proof, the Althen
court described the “causation-in-fact” standard, as follows:
Concisely stated, Althen’s burden is to show by preponderant evidence
that the vaccination brought about her injury by providing: (1) a medical
theory causally connecting the vaccination and the injury; (2) a logical
sequence of cause and effect showing that the vaccination was the reason
for the injury; and (3) a showing of proximate temporal relationship
between vaccination and injury. If Althen satisfies this burden, she is
“entitled to recover unless the [government] shows, also by a
preponderance of the evidence, that the injury was in fact caused by
factors unrelated to the vaccine.”
Althen, 418 F.3d at 1278 (citations omitted). The Althen court noted that a petitioner
need not necessarily supply evidence from medical literature supporting petitioner’s
causation contention, so long as the petitioner supplies the medical opinion of an
expert. Id. at 1279-80. That expert’s opinion must be “sound and reliable.” Boatmon v.
Sec’y of Health & Human Servs., 941 F.3d 1351, 1359-60 (Fed. Cir. 2019). The Althen
court also indicated, however, that a Program fact finder may rely upon “circumstantial
evidence,” which the court found to be consistent with the “system created by Congress,
in which close calls regarding causation are resolved in favor of injured claimants.”
Althen, 418 F.3d at 1280.
Where a petitioner in an off-Table case is seeking to prove that a vaccination
aggravated a pre-existing injury, petitioners must also establish three additional factors.
See Loving v. Sec’y of Health & Human Servs., 86 Fed. Cl. 135, 144 (Fed. Cl. 2009)
(combining the first three Whitecotton factors for claims regarding aggravation of a
Table injury with the three Althen factors for off table injury claims to create a six-part
test for off-Table aggravation claims); see also W.C. v. Sec’y of Health & Human Servs.,
704 F.3d 1352, 1357 (Fed. Cir. 2013) (applying the six-part Loving test.). The additional
Loving factors require petitioners to demonstrate aggravation by showing: (1) the
vaccinee’s condition prior to the administration of the vaccine, (2) the vaccinee’s current
condition, and (3) whether the vaccinee’s current condition constitutes a “significant
aggravation” of the condition prior to the vaccination. Id.
3

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 4 of 57
II. Procedural History
This case was first assigned to another special master. (ECF No. 5.) As noted
above, petitioners initially alleged A.J.K. suffered a stroke. (ECF No. 1.) Between
January and March of 2018, petitioners filed medical records marked as Exhibits 1-21.
(ECF Nos. 15-16, 20-21.) Respondent then filed his Rule 4 Report on May 31, 2018,
arguing that the evidence presented did not meet petitioner’s burden and
recommending against compensation. (ECF No. 27.) Thereafter, petitioners continued
to compile evidence, including additional medical records marked as Exhibit 22, as well
as videos of A.J.K. filed as Exhibit 23. (ECF Nos. 28, 36.)
On December 10, 2018, petitioners filed an expert report drafted by pediatric
neurologist AHM Mahbubul Huq, MBBS, Ph.D. (ECF No. 38; Exs. 24-25; see also Exs.
26-41, 43-84, 86-111, 113-24, 126-29 (cited literature).) Dr. Huq opined that A.J.K.
suffered either a stroke or a condition known as “posterior reversible
leukoencephalopathy syndrome” (“PRES”) and couched his causation opinion largely as
relating to PRES. (Ex. 24.) On February 27, 2019, the special master held a status
conference, suggesting that petitioner file an amended petition, given that Dr. Huq’s
expert report expanded on A.J.K.’s alleged injuries. (ECF No. 51.) Petitioners filed
additional medical records marked as Exhibits 130-131 on March 18, 2019, and an
amended petition on April 1, 2019, adding an allegation that A.J.K.’s vaccinations
caused PRES. (ECF Nos. 55-56.) Meanwhile, respondent filed an expert report by
immunologist Thomas G. Forsthuber, M.D., Ph.D. (ECF No. 52, Ex. A-B; see also Ex. A
Tabs 1-22 (cited literature)) and, later, an expert report by pediatric neurologist Peter M.
Bingham, M.D. (ECF No. 59, Ex. C-D; see also Ex. C Tabs 1-5 (cited literature)).
Thereafter, this case was reassigned to my docket on August 27, 2019. (ECF
No. 64.) Petitioners then filed a supplemental report by Dr. Huq (ECF No. 65; Ex. 133),
updated medical records (ECF No. 67; Ex. 132), an expert report by immunologist M.
Eric Gershwin, M.D. (ECF No. 68, Ex. 147), and medical literature marked as Exhibits
134-146 and 148-164 (ECF Nos. 70-76.). Respondent responded with supplemental
reports by Dr. Forsthuber (ECF Nos. 77-78; Ex. E; see also Ex. E, Tabs 1-17 (cited
literature)) and Dr. Bingham (ECF No. 79; Ex. F; see also Ex. F, Tab 1 (cited literature)).
On March 17, 2020, I held a status conference, during which I urged petitioners’ experts
to further address the relationship, if any, between vaccination, inflammation,
hypertension, and PRES. (ECF No. 80.) Petitioners filed further reports from each of
their experts (ECF Nos. 82-83; Exs. 165-66), and then respondent filed a supplemental
report by Dr. Forsthuber (ECF No. 84; Ex. G; see also Ex. E, Tabs 1-10 (cited
literature)). At that point, an entitlement hearing was set. (ECF Nos. 89, 95.)
On February 15, 2021, petitioners filed a supplemental expert report from Dr.
Gershwin, medical literature, and medical records from Mount Washington Pediatric
Hospital. (ECF Nos. 90-94; Exs. 165-94.) The parties then filed another round of
supplemental immunology expert reports. (ECF No. 97; Ex. H (Dr. Forsthuber), ECF
No. 99; Ex. 195 (Dr. Gershwin).) I then issued a Non-PDF order indicating that the
“record of this case is now presumptively complete for purposes of proceeding to the
4

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 5 of 57
entitlement hearing…[and] if either party wishes to raise any issue in the interim, they
should file a status report or otherwise contact chambers.” (Non-PDF Scheduling
Order, filed July 9, 2021.)
Subsequently, petitioners refiled literature, highlighted for hearing, as Exhibits
196-224. (ECF No. 102-04.) Petitioners also filed additional medical records (ECF Nos.
104, 113; Exs. 225-26) and several additional pieces of medical literature (ECF Nos.
108, 111; Exs. 227-31). On July 11, 2022, respondent and petitioners filed their
prehearing briefs. (ECF Nos. 124, 126.) Mrs. Kaltenmark’s declaration was filed on
July 18, 2022. (ECF No. 134, Ex. 234.)
A two-day entitlement hearing was held remotely on July 20 and 21, 2022, via
Webex. (See ECF Nos. 139-40 (Transcript of Proceedings (“Tr”), filed August 4, 2022).)
Danielle Kaltenmark and all four of the parties’ experts testified. The parties agreed to
waive post-hearing briefs. (Tr. 408.) On August 22 and November 22, 2022, petitioner
filed updated medical records from A.J.K.’s pediatrician and current neurologist. (ECF
Nos. 142, 146.)
This case is now ripe for a decision on entitlement.
III. Issues to be Decided
As the factual history below demonstrates, A.J.K. has an extensive medical
history. However, much of that medical history is effectively undisputed. Respondent’s
neurology expert, Dr. Bingham, agrees that A.J.K. suffered an acute neurologic event of
some kind in early October of 2014, at just over one year of age and about two days
after administration of the vaccinations at issue. He further agrees that this acute
neurologic event explains A.J.K.’s current condition, including her epilepsy and
developmental delay. (Tr. 308-09.) Instead, it is the nature of the acute event—and
whether it was vaccine-caused—that must be addressed.
Petitioners contend that the acute neurologic event was PRES, which resulted
from a cytokine response to vaccination that acted synergistically with a preexisting
infection of hand foot and mouth disease (“HFMD” or “HFM infection”). PRES is a
clinical and radiological syndrome in which vasogenic edema is found predominantly in
the bilateral parieto-occipital regions of the brain resulting in acute neurologic deficits.
(Ex. 68, p. 1; Ex. C, Tab 4, p. 1.) Petitioners assert that, to the extent A.J.K. likely
suffered a stroke, the stroke occurred in the context of, and as a result of, the PRES.
(ECF No. 126, pp. 14-15.) Petitioners contend they have preponderantly demonstrated
each of the three Althen prongs. (Id. at 13-28.)
Respondent contends that A.J.K.’s acute neurologic event was a stroke that
resulted from documented hypertension and was unrelated to her vaccinations.
Respondent’s experts further contend that A.J.K.’s HFM infection would be a more likely
contributor to her stroke than her vaccinations (Tr. 288 (Dr. Bingham); Tr. 324 (Dr.
Forsthuber)); however, respondent does not argue that he could meet his own burden
5

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 6 of 57
of proof of demonstrating that the HFMD is a more likely cause of A.J.K.’s injury as a
factor unrelated to vaccination. (ECF No. 124, pp. 20-27.) Respondent disputes that
petitioners have preponderantly demonstrated any of the three Althen prongs. (Id.)
IV. Factual History
a. As reflected in the medical records
i. Pre-vaccination records
A.J.K. was delivered at full-term by vaginal delivery on September 26, 2013. (Ex.
3, p. 243.) She weighed nine pounds, four ounces, at birth. (Id.) A.J.K.’s Apgar scores
were nine and nine, respectively. (Id.) A.J.K. failed her initial hearing screen. (Id. at
483.) However, she passed an Auditory Brainstem Response test at the time of her first
newborn checkup. (Ex. 3, pp. 381-85, 483-84.) In December of 2013, she was
hospitalized for an RSV infection and bronchiolitis. (Ex. 3, pp. 45, 361, 365, 367-70.)
Throughout early 2014, A.J.K. sought treatment with her pediatrician for mild asthma,
wheezing exacerbations, bronchiolitis, viral rashes, and mild reflux. (Ex. 3, pp. 337,
347, 355-58; Ex. 16, p. 1.) On May 13, 2014, A.J.K. was assessed with reactive airway
disease. (Ex. 3, p. 335.) During A.J.K.’s nine-month well visit, on July 3, 2014, she was
noted to have “borderline gross motor skills” on evaluation. (Id. at 323-28.)
About two weeks prior to the vaccinations at issue, A.J.K. presented for care for
what was diagnosed as HFMD. Specifically, on September 17, 2014, A.J.K.’s mother
contacted the pediatrician’s office and reported that A.J.K. developed a rash “from head
to toe” and had been “super cranky” for approximately one day. (Ex. 3, p. 322.) A.J.K.
had “red dots” and a larger rash on her hands and face with an elevated temperature of
102.7° F. (Id.) On September 21, 2014, A.J.K. sought evaluation for her fever of 101.7°
F for two days, and a red rash that was becoming worse on the trunk and all her
extremities. (Ex. 3, pp. 318-20.) A.J.K. also had a runny nose. (Id.) A.J.K. was
diagnosed with HFMD and treated symptomatically. (Id.)
On September 29, 2014, A.J.K. presented to Katharyn Turner, M.D., for her 12-
month well-check visit. (Ex. 3, pp. 310-17.) A.J.K. was growing and developing
appropriately for her age, and although A.J.K.’s “ages and stages questionnaire”
reflected “borderline” gross and personal-social skills, there were “no concerns during
the exam.” (Id. at 315-16.) A.J.K.’s mother raised a concern regarding “twitching,”
which was assessed to be benign myoclonus of infancy or sleep myoclonus.4 (Id. at
4 Specifically, A.J.K.’s mother reported that “during sleep or just as [A.J.K.] is falling asleep she will at
times have twitching or movement of her arms, flexion at the elbow or wrist.” (Id. at 312.) Dr. Turner
further recorded that “[t]his does not persist and parents call these movement[s] intermittent.” (Id.) Dr.
Turner indicated that “the description sounds more like benign myoclonus of infancy or sleep myoclonus,”
though she discussed seizure precautions and red flags. (Id. at 316.) Although some subsequent
histories appear to accept the reports of these earlier episodes of twitching as the onset of seizures (e.g.
Ex. 7, p. 1), both parties’ neurology experts ultimately testified that they agree with Dr. Turner’s diagnosis
and indicate that myoclonus would be distinct from A.J.K.’s later seizure disorder attributable to her acute
6

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 7 of 57
312, 316.) A.J.K. was doing well following her prior HFM infection, with only “faint
remnants of the rash.” (Id. at 315.) In connection with this visit, A.J.K. received the
MMR, varicella, flu, and Hep A vaccinations at issue in this case. (Ex. 1, p. 1.)
ii. Acute event and hospitalization
Two days after the subject vaccinations, at around noon on October 1, 2014,
A.J.K.’s mother contacted the pediatrician and reported that A.J.K. had been “twitching
and lethargic” since the night before and vomited that day. (Ex. 3, p. 309.) A.J.K. was
reportedly “just laying around like she is sleeping and has not made a sound.” (Id.
(cleaned up).) The pediatrician’s office documented that A.J.K.’s twitching was the
same as had been previously reported. (Id.) A.J.K.’s mother planned to take her to the
emergency room.5 (Id.)
A.J.K. presented to South Georgia Medical Center emergency department at
around 1:00PM the same day. (Ex. 9, p. 17.) Her temperature was normal. (Id. at 56.)
While in the emergency department, A.J.K. was nonresponsive to verbal stimuli and the
parents reported she was “not acting appropriate.” She was observed to have an
episode of lip and right arm twitching and was administered Ativan6 and was also
oxygenated. (Id. at 57.) On physical exam she was noted to be unresponsive and in
severe distress. She was tachycardic, experiencing respiratory distress, and was
disoriented. (Id. at 58.) EKG, chest x-ray, head CT, toxicology screen, and lumbar
puncture were all unremarkable, except that the CT scan showed moderately severe
pansinusitis. (Ex. 9, pp. 48, 62, 67-68, 74-75.) The chest x-ray showed haziness in the
perihilar regions, interpreted as likely bronchiolitis. (Id. at 7.) She was negative for
influenza A and B and respiratory syncytial virus (“RSV”). (Id. at 26-27.) Dr. Joseph
Tresmonte (pediatric neurology) was consulted by telephone and A.J.K. was placed on
Keppra7 and Fosphenytoin8 at his request. (Id. at 57, 59.) A.J.K. was subsequently
neurologic event. (Tr. 75-76 (Dr. Huq); Tr. 278-80, 298-99 (Dr. Bingham).) Accordingly, the conflicting
histories will not be discussed in detail, though they have been reviewed.
5 Dr. Turner wrote a follow-up note at 2:54PM likewise recommending that petitioner take A.J.K. to the
emergency department; however, A.J.K. had already been admitted by the time this note was recorded.
(Compare Ex. 3, p. 309, with Ex. 9, p. 17).
6 Ativan is the brand name for lorazepam, which is a benzodiazepine that is administered intravenously to
control status epilepticus. Lorazepam, DORLAND’S MEDICAL DICTIONARY ONLINE,
https://www.dorlandsonline.com/dorland/definition?id=28747 (last visited Nov. 7, 2023). Benzodiazepines
act as depressants of the central nervous system; they have antianxiety, sedative, anticonvulsant, and
muscle relaxing effects. Benzodiazepine, DORLAND’S MEDICAL DICTIONARY ONLINE,
https://www.dorlandsonline.com/dorland/definition?id=5838 (last visited Nov. 7, 2023).
7 Keppra is the brand name for levetiracetam, which is an orally administered anticonvulsant treatment of
any seizure due to a lesion in a specific, known area of the cerebral cortex, as well as idiopathic
generalized epilepsy. Levetiracetam, DORLAND’S MEDICAL DICTIONARY ONLINE,
https://www.dorlandsonline.com/dorland/definition?id=28136 (last visited Nov. 7, 2023).
8 Fosphenytoin is the prodrug of phenytoin. Fosphenytoin sodium, DORLAND’S MEDICAL DICTIONARY
ONLINE, https://www.dorlandsonline.com/dorland/definition?id=19138 (last visited Nov. 7, 2023); see also
7

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 8 of 57
observed to have stable vitals and no specific complaints. She was discharged around
8:00PM. (Id. at 57.) Her diagnoses were sinus tachycardia, respiratory distress,
rhonchi, and generalized seizures. Petitioners were directed to follow up with A.J.K.’s
primary care provider for a specialist referral. (Id. at 59.)
However, shortly after discharge, A.J.K. was transported by ambulance back to
the emergency room when she began “gazing up and to the right,” developed lip
smacking, and mild twitching. (Ex. 10, pp. 2-3; Ex. 7, p. 10.) The paramedic observed
that A.J.K. had a fever. (Ex. 9, p. 34.) At the emergency department, A.J.K. had a
temperature of 100.8° F, and she was administered Rocephin9 and fluids at the hospital.
(Ex. 10, pp. 2-3.) As of 10:13PM, A.J.K.’s blood pressure was recorded at 123/63,
which is high for a 12-month-old. (Ex. 9, pp. 32-33; Tr. 285.) At about 11:30PM, she
was transferred by ambulance to the Medical Center of Central Georgia and into the
care of Dr. Trasmonte. (Ex. 9, p. 38; Ex. 7, p. 1.) Dr. Trasmonte instructed that A.J.K.
should be administered 20mg/kg of phenobarbital prior to transfer. (Ex. 10, p. 2.)
During the transfer, A.J.K.’s blood pressure was measured eight times over the course
of about two hours.10 (Id. at 38-39.) After transfer, she remained hospitalized from
October 2 to October 7, 2014. (Ex. 7, p. 1.)
Upon admission to the Medical Center of Central Georgia, aspirin was started as
a stroke prophylaxis. (Id.) An MRI of the brain showed abnormal bioccipital cortical
hyperintensity with restricted water diffusion on diffusion weighted imaging. The
radiologist’s impression included a differential diagnosis of post ictal state, PRES,
ischemia, or encephalitis. (Id. at 51.) Additionally, an EEG showed diffuse background
slowing consistent with an underlying non-specific disturbance of neuronal function. (Id.
at 48.) It was also noted the EEG result may be explained as a drug effect. (Id. at 54.)
A.J.K. had a neurology consultation with Dr. Trasmonte on the morning of
October 3, 2014.11 (Id. at 1-2.) Dr. Trasmonte concluded the MRI findings were
consistent with bilateral occipital acute ischemic stroke. (Id.) He explained:
Prodrug, STEDMAN’S MEDICAL DICTIONARY (28th ed. 2006) (defining a prodrug as a class of drugs requiring
conversion by metabolic processes within the body to produce pharmacologic action). Phenytoin is an
orally administered anticonvulsant that is used to treat status epilepticus. Phenytoin, DORLAND’S MEDICAL
DICTIONARY ONLINE, https://www.dorlandsonline.com/dorland/definition?id=38541 (last visited Nov. 7,
2023).
9 Rocephin is the brand name of ceftriaxone sodium, which is an intravenously or intramuscularly
administered antibiotic, specifically a “semisynthetic, β-lactamase-resistant, broad-spectrum, third-
generation cephalosporin,” that is effective against a wide range of bacteria. Ceftriaxone sodium,
DORLAND’S MEDICAL DICTIONARY ONLINE, https://www.dorlandsonline.com/dorland/definition?id=8471 (last
visited Nov. 7, 2023).
10 Specifically: 100/52 at 1:06AM, 102/45 at 1:18AM, 97/51 at 1:31AM, 95/43 at 1:47AM, 97/45 at
2:06AM, 101/45 at 2:28AM, 99/47 at 2:47AM, and 96/42 at 3:10AM. (Ex. 9, pp. 38-39.)
11 Among his notes, Dr. Trasmonte documented a “strong family history of stroke in the young.” (Ex. 7,
p.1.) However, Mrs. Kaltenmark testified that the entry is not correct. (Tr. 61.) There are also
inconsistent notations in the medical records regarding whether there is a family history of seizures.
(Compare Ex. 7, p. 1, with Ex. 3, p. 303.)
8

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 9 of 57
We [will] look for an underlying etiology by performing a comprehensive
workup. However we do note that a vast majority of patients do not have a
clear underlying cause (idiopathic). I am very concerned about the
possibility of a vessel abnormality such as dissection because of the
posterior distribution of the ischemia. We [will also] begin stroke prophylaxis
using ASA. The other part of the differential of bioccipital hyperintensity on
T2/FLAIR is PRES (posterior reversible encephalopathy syndrome).
Typically however in PRES the diffusion weighted images would show
either equivocal findings or if it is bright usually the ADC mapping images
would not be dark as seen in this patient.
(Id. at 2.) Dr. Trasmonte noted that he had an extended discussion with A.J.K.’s mother
during which he characterized the diagnosis of stroke as a “working impression” based
on the preponderance of the clinical and radiologic evidence. (Id.) A follow-up MRA of
the head and neck was normal. (Id. at 49.) Ultimately, her discharge diagnosis was
“bilateral posterior ischemic stroke” without indication of an underlying cause. (Id. at 14.)
A summary from A.J.K.’s sixth day of hospitalization indicated that “BPs continue
to have some elevations into range of 99th percentile. (91/46 . . . 117/63 . . . 103/63 . . .
100/54 today).” After noting that workup has been within normal limits (“nl”), it further
explains that “[s]everal of the higher BPs were taken when child is fussing. Plan was to
monitor closely overnight with BPs every 4 hrs and document if child agitated or not.”
(Id. at 18.) Dr. Blackwood of pediatric cardiology was to review the results and provide
further consultation. (Id.) Around that same time, A.J.K.’s father reported to Dr. Turner,
the primary care provider, that A.J.K. would remain hospitalized until October 9 and that
hypertension was suspected as the cause of A.J.K.’s stroke. (Ex. 3, p. 307.)
Subsequently, however, A.J.K. was discharged on October 7. On the day of discharge,
Dr. Trasmonte conducted a follow-up consultation during which he noted that “[t]here
was concern over the weekend that her blood pressures are high . . . . Cardiology was
consulted and they agreed that she is not hypertensive.” (Ex. 7, p. 6.) Although she
was later placed on lisinopril12 for hypertension, she was not treated for hypertension
prior to discharge. (See, e.g., Ex. 12, p. 5.)
iii. Follow-up care
After discharge, A.J.K. returned for several visits with her primary care provider,
beginning on October 8, 2014. (Ex. 3, pp. 302-06.) Dr. Turner noted that since
discharge, A.J.K. was “almost to baseline,” though she had been more agitated lately,
which her parents attributed to the Keppra. (Id. at 303.) The next day, on October 9,
2014, A.J.K. again presented to Dr. Turner with a one-day history of rash covering her
entire body, except the lower legs, with no fever or scratching. (Id. at 296.) It was
12 Lisinopril is an orally administered “angiotensin-converting enzyme inhibitor” that is used to treat
hypertension, as well as congestive heart failure and acute myocardial infarction. Lisinopril, DORLAND’S
MEDICAL DICTIONARY ONLINE, https://www.dorlandsonline.com/dorland/definition?id=28515 (last visited
Nov. 7, 2023).
9

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 10 of 57
noted that she had rhinorrhea and the rash was attributed to viral exanthem. No further
action was needed apart from monitoring. (Id.at 298.) On October 15, 2014, A.J.K.
presented for another post-hospitalization evaluation with Dr. Turner. (Id. at 304-306.)
At that time, A.J.K.’s family reported that she was “back to her normal self,” with the
exception of continued right-sided weakness and diminished physical activity but was
improving. (Id. at 306.)
On October 20, 2014, A.J.K. presented for an initial physical therapy evaluation.
(Ex. 13, pp. 7-9.) She exhibited developmental delays in locomotion skills, and one
year of twice weekly physical therapy was recommended. (Id. at 8-9.) The physical
therapist noted that A.J.K.’s older brother was a late walker and her older sister
received speech therapy. (Id. at 7.) On October 27, 2014, A.J.K. presented for an initial
evaluation for occupational therapy. (Id. at 1-2.) A.J.K.’s assessment noted no
significant motor or adaptive delays, and skilled services were not needed at that time.
(Id.) That same day, A.J.K. also began speech therapy. (Id. at 4-5.) A.J.K. responded
to her name but did not use any words. (Id. at 5.) Based on formal test scores and
clinical opinion, she exhibited a moderate language impairment. (Id.) Speech therapy
was recommended. (Id.)
On November 4, 2014, A.J.K. presented for evaluation at Sibley Heart Center
Cardiology. At her initial encounter, she saw Wesley Blackwood, M.D. (Ex. 12, p. 5-7.)
The chief complaint was “elevated blood pressure.” (Id. at 5.) The history indicated
A.J.K. suffered multiple seizures and embolic strokes. She was noted to have had
“borderline elevated blood pressure in the hospital but blood work, UA, echocardiogram
and renal ultrasound were all normal. She was not started on anti-hypertensive therapy
prior to discharge.” Dr. Blackwood noted there is no family history of hypertension. (Id.)
At this encounter, A.J.K.’s systolic blood pressure was 140 mmHg when measured at
the right upper extremity and 110 mmHg when measured at the left lower extremity. In
both instances, however, it was noted that there was “lots of moving.” (Id.) An ECG
was performed due to concern for hypertensive changes. (Id. at 7.) The ECG showed
sinus rhythm; normal axes, intervals and voltages for her age; and no evidence of left
ventricular hypertrophy. (Id.) Dr. Blackwood concluded that A.J.K.’s blood pressure
was significantly elevated and diagnosed Stage II systolic hypertension. (Id.) However,
he indicated that there does not appear to be any organic cause for her hypertension.
He further indicated that the blood pressure elevation “could certainly be a result of her
recent neurologic issues and cardiovascular dysregulation.” (Id.) A.J.K. was started on
lisinopril, and she was to return in 3 weeks. (Id.)
On December 1, 2014, A.J.K. returned to the Sibley Heart Center and saw Dr.
Benjamin Toole. (Id. at 1.) Systolic blood pressure was 132 mmHg, but she was noted
to be “crying and kicking.” (Id.) Dr. Toole noted that “it is difficult to tell if [A.J.K.’s] BP
remains elevated at baseline (she was agitated today).” (Id. at 2.) However, he advised
that, given her history, it would be “reasonable” to increase her dose of lisinopril. (Id.)
Dr. Toole reiterated that no organic cause for A.J.K.’s hypertension had been identified
and that it “could certainly be” a result of her neurologic issues and cardiovascular
dysregulation. (Id.)
10

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 11 of 57
On December 21, 2014, A.J.K returned to Dr. Turner for a refill of Keppra and
repeat MRI (brain) and MRA (head and neck imaging). (Ex. 3, pp. 283-87.) A.J.K. was
also taking vitamin B6 because she was exhibiting aggression while on Keppra. (Id. at
283.) She was now walking, with nearly full use of her right leg, slight high stepping
with no foot drop. (Id.) A.J.K was starting to babble more, she was continuing physical
therapy, and “[s]he has had no seizures.” (Id.)
On January 27, 2015, A.J.K. underwent an MRA of the head and neck without
contrast and MRI of the brain without contrast. (Ex. 15, pp. 3-6.) Her brain MRI showed
(1) resolved bilateral occipital diffusion restriction, with sequelae on T2 and FLAIR
throughout the same distribution, in keeping with developing gliotic changes and
encephalomalacia in the region of previous ischemia and cortical infarction; (2) no acute
process; and (3) inflammatory signal changes in the sinuses. (Id. at 4.) A.J.K’s head
and neck MRA were normal. (Id. at 3, 6.)
The next day, January 28, 2015, A.J.K. presented to Dr. Turner for her 15-month
well-check. (Ex. 3, pp. 271-77.) It was noted that A.J.K. was discharged from physical
therapy after having met her goals. (Id. at 273.) Her mother declined A.J.K.’s 15-month
vaccinations because “they still don’t have a reason for the stroke and [she] is waiting
for more information before going ahead with vaccines.” (Id.) A.J.K.’s ages and stages
scores were as follows: communication 20/60, gross motor 40/60, fine motor 20/60,
problem solving 40/60, and personal/social skills 25/60. (Id. at 276.) Dr. Turner felt that
A.J.K. was improving with regard to development but was still behind. (Id. at 277.)
iv. Medical care after relocation to Texas
On February 13, 2015, A.J.K. presented for treatment with a new pediatrician
following her family’s move from Georgia to Texas. (Id. at 262-64.) John Poulin, M.D.,
noted that A.J.K. had not been seen by genetics, and he documented that A.J.K. still
had tonic clonic seizures approximately once a month, which were “usually associated
with [upper respiratory infection] or illness.” (Id. at 262.) Regarding the seizure and
stroke, Dr. Poulin remarked, “Association vs causation unknown but potential post imm
encephalopathy in [differential diagnosis].” (Id. at 264.) He recorded no family history
of epilepsy or early stroke. (Id. at 262.)
On March 4, 2015, A.J.K. presented for an evaluation with the developmental
pediatrics service. (Id. at 257-60.) In the Reason for Visit section, nurse practitioner
Lorraine Howard, APRN, MSN, indicated that A.J.K was referred by Dr. Poulin to
assess developmental status for A.J.K. “who experienced seizure, stroke,
[hypertension] and developmental delay 2 days after 12-month immunizations.” (Id. at
258.) A.J.K. was assessed with delayed milestones and instructions to return within two
weeks. (Id. at 259.) NP Howard provided information about the National Vaccine Injury
Compensation Program. (Id.)
11

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 12 of 57
On March 24, 2015, A.J.K. presented for an evaluation with a new cardiologist,
Scott Bentley, M.D. (Id. at 251-53.) Dr. Bentley noted that A.J.K. presented with a past
medical history notable for a cerebrovascular accident (“CVA”) and subsequent seizures
“which occurred 2 days after receiving her 1[2] month immunizations.” (Id. at 251.) On
examination, all other systems were negative. (Id.) Dr. Bentley observed that A.J.K
was normotensive. (Id. at 252-53.) Reviewing A.J.K.’s notes from her previous
cardiologists, Dr. Bentley observed that her highest pressures were in the earliest time
after her CVA. (Id. at 253.) Dr. Bentley “wonder[ed] if this was precipitated by her event
and now that we are further away from that event, she might not need to continue
medication indefinitely.” (Id.) Dr. Bentley planned to continue A.J.K. on lisinopril at her
current dose, but instructed her to return in October, a year after her last
echocardiogram. (Id.)
That same day, A.J.K. presented for a neurology evaluation with David Hsieh,
M.D. (Id. at 254-56.) On examination, Dr. Hsieh noted that A.J.K.’s movements were
symmetric, and that “watching her spontaneously play, she seems to be moving both
sides well now.” (Id. at 255.) A.J.K. had had no seizures in over a month since
increasing her Keppra dosage. (Id.) Dr. Hsieh remarked that A.J.K. had been having
seizures monthly—three in October, two in November, and one in December. (Id.) He
requested all of A.J.K.’s records and noted that A.J.K. needed to be evaluated for
continued use of lisinopril. (Id. at 256.) Dr. Hsieh instructed A.J.K.’s mother to continue
her current dose of Keppra. (Id.)
On March 25, 2015, A.J.K.’s mother called for an evaluation with the Vaccine
Health Center at Fort Belvoir Community Hospital for a possible vaccine adverse event.
(Id. at 250.) A.J.K.’s mother reported that A.J.K regained all her manual skills but could
not speak and “cries a lot because she cannot speak to voice needs.” (Id.) A.J.K.’s
mother suggested the possibility that A.J.K.’s vision “may be somewhat impaired.” (Id.)
Before her 12-month vaccines, A.J.K.’s mother reported that she “twitched” sometimes
just before falling asleep, although her “[p]ediatrician said this was normal” and noted
that A.J.K.’s “only other illness had been RSV.” (Id.) Her mother was given information
about the Vaccine Injury Compensation Program. (Id.)
On April 13, 2015, A.J.K. was evaluated by Stephen Greefkens, M.D., a
developmental pediatrician. (Id. at 242-45.) Dr. Greefkens observed that A.J.K.’s
seizures and hypertension appeared to be well controlled. (Id. at 242.) At that time,
A.J.K.’s mother’s main concern was speech delay. (Id. at 243.) Petitioners reported no
seizures since January 2015. (Id.) Dr. Greefkens noted no family history of neurologic
disorders, seizures, or birth defects, but noted A.J.K.’s maternal grandmother was
diagnosed with Asperger’s syndrome. (Id.) Dr. Greefkens recommended that A.J.K.
continue her early childhood intervention services. (Id. at 245.)
On April 15, 2015, Dr. Hsieh conducted a telephone consultation with petitioners
after reviewing A.J.K.’s brain MRI and MRAs. (Id. at 241.) In the brain MRI from
October 2014, Dr. Hsieh noted restricted diffusion cortically bilateral occipital lobes, left
more than right, “but seems mostly restricted to the cortex, and not in the distribution of
12

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 13 of 57
the PCA territory and no lesion in the brainstem.” (Id.) He noted, “[t]o me this appears
more consistent with metabolic etiology such as mitochondrial disease or PRES.” (Id.)
He agreed that A.J.K.’s MRA looked normal. (Id.) Dr. Hsieh indicated that A.J.K.’s
blood pressure on presentation was unclear, though there were some documented
blood pressure readings between 109-141/60-79. (Id.) A.J.K.’s MRI from January 27,
2015, showed some residual scarring in the occipital lobes, but without new lesions.
(Id.) Dr. Hsieh recommended weaning the aspirin dosage, as he did not think there was
evidence of a PCA distribution ischemic stroke on A.J.K.’s prior imaging. (Ex. 5, p.
229.) He ordered repeat images, including MR spectroscopy, “mainly looking for lactate
peak to support mitochondrial disease.” (Id.)
On April 27, 2015, A.J.K. presented to Luis Rohena, a genetics specialist. (Ex. 3,
pp. 236-39.) In the discussion portion, Dr. Rohena noted “[A.J.K.] is a 19-month-old
with prior history of seizure activity/stroke 2 days post administration of the MMR
vaccine. Encephalopathy post MMR has been described and this may be related to a
side effect of the vaccination.” (Id. at 239.) A.J.K.’s physical exam was concerning for
epicanthal folds bilaterally, which Dr. Rohena did not observe in either parent. (Id.) Dr.
Rohena ordered an SNP DNA microarray to rule out segmental aneuploidy, “especially
in the setting of 4 maternal miscarriages.” (Id.) Results from the chromosomal
microarray analysis were normal. (Ex. 5, p. 258.)
On April 30, 2015, A.J.K. underwent a repeat hearing evaluation and the test
results were suggestive of normal or near normal hearing. (Ex. 3, pp. 230-31.) A
sedated auditory brainstem response (“ABR”) was recommended for further evaluation.
(Id.) On May 4, 2015, A.J.K. underwent a repeat brain MRI, which displayed no
significant new findings. (Id. at 57-58.) On May 12, 2015, A.J.K. presented for another
speech therapy evaluation. (Id. at 223-26.) On evaluation, her receptive language was
rated at age 12 months and her expressive language was rated at 10 months (at 19
months old). (Id. at 224.) A.J.K.’s overall rating was poor. (Id.) She was instructed to
continue speech therapy and return to the clinic in six months. (Id.)
On May 21, 2015, A.J.K.’s mother contacted Dr. Hsieh’s office reporting
concerns that A.J.K. was spacing out, smacking her lips, and having possible seizures.
(Id. at 222.) A.J.K.’s speech therapist observed this behavior and was concerned that
“they may be absence sz.” (Id.) Mother reported that A.J.K. does this daily, and more
than once a day, but was not keeping count and did not know how long this activity had
been going on. (Id.) An EEG was ordered, which showed normal results. (Id. at 220-
21.)
On June 10, 2015, A.J.K. presented for ABR testing, which reflected that her
hearing was within normal limits. (Id. at 214-19.) There was no evidence of neuropathy
or dyssynchrony. (Id. at 219.)
On August 13, 2015, A.J.K. returned to genetic specialist Dr. Rohena. (Id. at
205-08.) A.J.K.’s mother reported that A.J.K. had had a seizure “2 days after receiving
the MMR vaccine at 12 months” and has had 3 total seizures since then. (Id. at 206.)
13

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 14 of 57
Dr. Rohena observed that A.J.K. “seems to stare off often, raising concerns for Absence
Seizures.” (Id. at 207-08.) He noted that A.J.K.’s recent EEG was normal, though she
was not experiencing these staring spells at the time. (Id. at 208.) Given these
concerns, Dr. Rohena ordered a 70 gene seizure panel. (Id.)
On August 19, 2015, A.J.K. presented for a well visit (noted to be an 18-month
assessment) with Dr. Hsieh. (Id. at 199-203.) A.J.K.’s family declined vaccinations.
(Id.) The next day, A.J.K.’s father called her pediatrician to report that A.J.K. was
jerking her arms and legs when falling asleep. (Id. at 198.) He described “1 second
jerks, a few random. No further jerking while asleep. Last 3 days. No symptoms during
the daytime.” (Id.) Her father agreed to wait and see if A.J.K.’s condition improved, and
if not, then a repeat EEG could be ordered. (Id.) The parents were also directed to
capture a video of the activity. (Id.)
On August 30, 2015, A.J.K. presented to the emergency room for one episode of
a witnessed generalized seizure that lasted about four to five minutes in the car. (Ex. 5,
pp. 175-76.) A.J.K.’s post ictal state lasted another ten to fifteen minutes. (Id. at 175.)
A.J.K.’s mother reported drooling and bilateral upper extremity myoclonus. (Id.) The
record indicates “[d]o not believe meningitis, infectious or traumatic causes.” (Id.) The
hospital physician increased A.J.K.’s Keppra dosage and discharged her home. (Id. at
176.)
On October 27, 2015, A.J.K. received an influenza vaccination. (Ex. 1, p. 1.) On
November 2, 2015, she presented for a two-year well child visit with Dr. Poulin. (Ex. 3,
p. 187-90.) Dr. Poulin noted that A.J.K. had improved in speech and occupational
therapies, and was otherwise in good health. (Id. at 187-88.) Per A.J.K.’s mother, her
speech was improving but not yet up to an age appropriate level. (Id. at 188.) Her
mother elected to complete one vaccination at a time.13 (Id.)
On November 16, 2015, A.J.K. was admitted to the hospital for possible seizure-
like activity, left-sided weakness, and concern for stroke. (Ex. 5, p. 316-22.) A.J.K.’s
differential diagnoses included transient ischemic attack, small stroke, viral meningitis
and Todd’s paralysis post seizure.14 (Id. at 319.) Todd’s paralysis post-seizure was
considered most likely. (Id.) MRI with spectroscopy, MRA and MRV were ordered to
rule out a thrombotic event. (Id.) Imaging revealed no evidence of acute ischemia or
infarction, unchanged bilateral occipital encephalomalacia from prior infarctions, no
13 A.J.K.’s vaccination record reflects that the flu vaccine was administered on October 27, 2015. (Ex. 1,
p. 1; Ex. 5, p. 316.) However, A.J.K.’s encounter record states that the flu vaccine was administered in
connection with the visit of November 2, 2015. (Ex. 3, p. 189.)
14 Todd’s paralysis manifests as a temporary paralysis, lasting no longer than a few days, in the limb or
limbs that were involved in “jacksonian epilepsy” after a seizure. Todd paralysis, STEDMAN’S MEDICAL
DICTIONARY (28th ed. 2006). Jacksonian epilepsy is characterized by focal motor seizures, which are due
to a discharging focus in the contralateral motor cortex, with unilateral clonic movements that start in one
muscle group before systematically spreading to adjacent muscle groups, “reflecting the march of the
epileptic activity through the motor cortex.” Jacksonian epilepsy, DORLAND’S MEDICAL DICTIONARY ONLINE,
https://www.dorlandsonline.com/dorland/definition?id=73459 (last visited Nov. 7, 2023).
14

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 15 of 57
evidence for dural venous sinus thrombosis, hypoplastic or stenotic left transverse sinus
appeared unchanged, and no evidence of significant vascular narrowing or occlusion on
the MRA head and neck. (Ex. 3, p. 176.)
On November 18, 2015, A.J.K. presented for another follow-up genetic
evaluation with Dr. Rohena. (Id. at 178-80.) Given the prior negative studies, Dr.
Rohena recommended whole exome sequencing with mitochondrial genome analysis of
the family. (Id. at 180.)
On December 7, 2015, A.J.K. presented for a follow-up with Dr. Hsieh. (Id. at
174-77.) Dr. Hsieh indicated that A.J.K. seemed to come out of her “staring episodes”
easily with stimulation, suggesting the episodes are probably non-epileptic. (Id. at 177.)
He recommended continued observation and physical, speech, and occupational
therapy. (Id.) On December 14, 2015, A.J.K. returned to her cardiologist Dr. Bentley.
(Ex. 5, p. 93.) A.J.K. had been off blood pressure medication for about a month and her
blood pressure was normal. At this encounter, Dr. Bentley formally discontinued
treatment for elevated blood pressure. (Id. at 95.) A.J.K. was discharged from routine
cardiology care and instructed to follow-up only as needed. (Id.)
v. Medical care in 2016 and later
On January 13, 2016, A.J.K. presented for a follow-up evaluation with Dr.
Greefkens at the developmental clinic. (Ex. 3, pp. 166-69.) A.J.K.’s mother reported no
specific concerns. (Id. at 167) A.J.K. exhibited delayed play skills and articulation
problems. (Id. at 168.) Dr. Greefkens recommended a sleep study and continued
speech therapy. (Id. at 169.) A.J.K.’s subsequent sleep study on January 31, 2016,
was normal for sleep abnormalities. (Id. at 160.)
On April 5, 2016, A.J.K. returned to Dr. Rohena. (Id. at 146-51.) Dr. Rohena
noted that the full exome sequencing, bioinformatics, variant filtering, and gene and
variant medical review did not reveal any alterations with likely clinical relevance. (Id. at
146.) Specifically, no large deletions or known pathogenic mutations were detected in
the mitochondrial genome. (Id.) Dr. Rohena indicated that “novel gene alterations”
could not be ruled out. (Id.) No further genetic testing was recommended. (Id.)
On April 11, 2016, A.J.K. returned for her neurology follow-up evaluation. (Id. at
143-45.) A.J.K.’s right-sided paresis was improved, and her language delays were
improving. (Id. at 144-45.) Mother indicated that A.J.K. was now using 2 to 3-word
phrases and knew approximately 50 words. (Id. at 144.) On physical examination,
A.J.K. appeared symmetrical and was moving both sides well. (Id.)
On June 8, 2016, A.J.K. had an allergy evaluation with Daniel Steigelman, M.D.
(Id. at 135-37.) A.J.K.’s mother indicated that a VAERS report was completed five
months after her CVA. (Id.) Dr. Steigelman’s assessment included local reactions to
insect stings without evidence of anaphylaxis and noted that her CVA two days after
vaccines is “rightly concerning for an adverse vaccine reaction but there is no course to
15

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 16 of 57
prove or disprove immunizations were causative.” (Id.) Later that day, A.J.K. presented
to the emergency room with an inability to walk and change in speech. (Ex. 5, pp. 60-
63.) On physical examination, A.J.K. showed no acute distress and good eye contact.
(Id. at 61.) A.J.K. was admitted for concern of subacute seizures. (Id. at 63.)
On October 5, 2016, A.J.K. presented for her three-year-old well visit. (Ex. 3, pp.
114-17.) A.J.K.’s pediatrician noted that she walks and runs well, but still receives
speech therapy and demonstrates delayed fine motor skills. (Id. at 115.) A.J.K.’s family
indicated that they would resume A.J.K.’s vaccines at age four. (Id. at 117.)
On February 27, 2017, A.J.K. returned for a follow-up neurology evaluation with
Richard Hussey, M.D. (Ex. 3, pp. 98-100.) At this time, A.J.K.’s staring spells were
rare, and she had “no further suspicious overt or subtle seizures.” (Id. at 99.) A.J.K.’s
speech was coming along, though petitioners indicated that she was very shy. (Id.) In
the prenatal history, Dr. Hussey indicated that A.J.K. was “noted to have twitching prior
to her stroke at her 12-month visit, when she received her vaccinations (which have
been implicated in her stroke).” (Id.) In his assessment, Dr. Hussey indicated that
A.J.K. was currently stable, though her history included:
[R]eported seizure in the setting of stroke with left sided paresis at 12
months old, 2 days after immunizations. [U]nknown etiology, course
suspicious for other etiology than vaccination related due to preceding
symptoms suggestive of seizures, and lesions may have been outcome of
status epilepticus due to the prolonged nature of her symptoms.
(Id. at 100.) A.J.K.’s examination was symmetric that day, and Dr. Hussey instructed
her to continue Keppra for seizures, Vitamin B6 for behavior, and to continue her
therapies. (Id.)
Further medical records have been filed documenting A.J.K.’s clinical course
through 2022. However, the details of that remaining clinical course are not informative
of the issues discussed in this decision. None of the remaining records revisit the cause
or nature of A.J.K.’s acute event from October of 2014, and none of the details of the
remaining medical records are necessary to understanding the expert opinions offered
in this case. Of note, however, some further objective testing was performed during
these later years.
On March 29, 2017, A.J.K. had a repeat EEG, with normal results. (Id. at 91.)
However, the report indicates that “a normal interictal EEG does not necessarily exclude
epilepsy.” (Id.) A.J.K. was assessed with localization-related (focal) (partial)
symptomatic and epileptic syndromes with complex partial seizures, not intractable,
without status epilepticus. (Id.)
On October 22, 2017, A.J.K. had a repeat sleep study for concerns of obstructive
sleep apnea. (Id. at 64-65.) There was no evidence of sleep apnea, but there was
evidence of sleep deprivation. (Id.) On November 14, 2017, A.J.K. returned for further
16

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 17 of 57
evaluation at the allergy clinic. (Id. at 60.) Skin testing was performed and was
negative with no evidence of an IgE reaction to her vaccines. (Id.) A.J.K.’s MMR and
Hep A titers were positive, but her varicella titers was negative, meaning that A.J.K. was
not protected in the event of exposure to varicella. (Id.) A.J.K.’s allergist recommended
a varicella vaccination, but A.J.K.’s mother declined. (Id.)
On January 22, 2022, A.J.K. underwent a brain MRI with and without contrast,
given her recurring seizures. (Ex. 226, p. 1.) The MRI revealed no acute intracranial
abnormality or abnormal enhancement. (Id.) The radiologist recommended a
comparison with prior imaging, but no further records were filed. (Id.) On January 25,
2022, A.J.K. underwent an EEG, which was abnormal for 1) bilateral independent focal
epileptiform discharges seen in the occipital region and 2) right posterior quadrant
slowing more prominently during hyperventilation. (Ex. 236, pp. 45-46.)
b. Danielle Kaltenmark’s Testimony
On July 18, 2022, petitioners filed a declaration of Danielle Kaltenmark, A.J.K.’s
mother. (Ex. 234.) She also testified during the hearing. (Tr. 6-63.) Mrs. Kaltenmark’s
testimony was largely consistent with her declaration. (Id.) During the hearing Mrs.
Kaltenmark swore under oath and under the penalty of perjury that the contents of her
declaration are true and correct to the best of her knowledge. (Tr. 62-63.)
Mrs. Kaltenmark describes A.J.K. as a “really happy baby” and “[s]he did not fuss
much.” (Ex. 234, p. 2.) Mrs. Kaltenmark explained that, during September of 2014,
A.J.K. developed red spots on her skin and a fever “and she wanted to be held more.”
(Id.) Mrs. Kaltenmark suspected that A.J.K. had HFMD because it was making its way
through her daycare group.15 (Id.) Dr. Turner confirmed A.J.K. had HFMD, though Mrs.
Kaltenmark declares that “she did not seem much bothered by the rash and she did
well.” (Id. at 3.)
On September 29, 2014, Mrs. Kaltenmark returned to Dr. Turner with A.J.K. for
her 12-month well-visit. (Id.) A.J.K. “still had a bit of a rash from her [HFMD] but was
otherwise doing well.” (Id.) Mrs. Kaltenmark asked Dr. Turner if it was okay to proceed
with A.J.K.’s vaccines since she had been sick recently, “but Dr. Turner assured [her]
that A.J.K. would be fine.” (Id.) A few months before this appointment, Mrs. Kaltenmark
noticed that when A.J.K. was beginning to fall asleep, and sometimes in her sleep, “an
arm or a leg would twitch.” (Id.) These movements never happened when A.J.K. was
wide awake, only when she was asleep or falling asleep. (Id.) Mrs. Kaltenmark
describes “[w]hen it happened, her hand or foot wouldn’t get stiff or anything, it was just
a quick twitching movement, and it never seemed to wake her up or stop her from being
able to fall asleep.” (Id.) Mrs. Kaltenmark denies any conversation about seizure
warnings or signs of seizures from this visit with Dr. Turner. (Id. at 4; see also Tr. 17-
18.)
15 Mrs. Kaltenmark was a medic in the Air Force at the time but was transitioning out of active service.
(Ex. 234, p. 2.) She also worked at the same clinic as A.J.K.’s pediatricians Dr. Turner and Dr. Walker.
(Id. at 2-3; Tr. 13.)
17

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 18 of 57
The next morning, Mrs. Kaltenmark describes waking up A.J.K., “which was
unusual as she usually got up on her own, and she seemed out of it.” (Ex. 234, p. 4.)
She declares that A.J.K. was “twitching a lot even though she was awake, which was
not normal, and [she] was just unfocused.” (Id.) Mrs. Kaltenmark explains that A.J.K.
threw up her milk when she fed her that morning. (Id.) When she took A.J.K. to see her
father, they noticed that she was “beginning to jerk against her car seat restraint.” (Id.
at 4-5.) A.J.K. was awake at the time, and Mrs. Kaltenmark describes these
movements as “totally different from the twitching we had seen as she was falling
asleep.” (Id. at 5.) Mrs. Kaltenmark decided to take A.J.K. to the emergency room.
(Id.)
In the emergency room, A.J.K. began smacking her lips and her arm began
shaking, and Mrs. Kaltenmark explained, “I had never seen her do anything like this
before and I remember the nurse told me it looked like a seizure[.]” (Ex. 234, p. 5.)
Thereafter A.J.K. underwent a lumbar puncture to rule out meningitis. (Id.) Petitioners
were eventually sent home with a prescription for Keppra. (Id.) After returning home,
Mrs. Kaltenmark declares that A.J.K. could not hold her bottle and, when Mrs.
Kaltenmark lifted her arm, “it was just limp and dropped back down.” (Id.) Mrs.
Kaltenmark also describes how A.J.K. “tried to cry but it sounded more like a moan.”
(Id.) Petitioners returned to the emergency room, and later arranged to go to the
Children’s Hospital via ambulance. (Id. at 5-6.)
At the Children’s Hospital, A.J.K. underwent testing, including brain imaging that
revealed A.J.K. had had a stroke. (Id. at 6.) Mrs. Kaltenmark declares that “[t]hey did a
lot of tests, but they could not find an obvious reason why she had the stroke.” (Id.)
Petitioners were directed to see a cardiologist and neurologist after A.J.K. was
discharged. (Id.) A.J.K. ended up seeing a cardiologist “for a while and was on a
medicine for hypertension for a short time.” (Id.) However, A.J.K.’s physicians “ended
up telling us that they did not think A.J.K. had high blood pressure at baseline and she
was taken off the blood pressure medication without issue.” (Id.)
After moving to Texas in 2015, petitioners brought A.J.K. to a neurologist who
“told [petitioners] that he believes [A.J.K.’s] vaccinations triggered her condition.” (Id.)
Petitioners were informed about the Program and Mrs. Kaltenmark filed a VAERS report
in 2015. (Id.) After A.J.K.’s vaccinations, she suffered physical effects from her stroke
that required “intensive interventions, which lasted for years.” (Id.) Mrs. Kaltenmark
declares that A.J.K. participated in years of in-home physical, speech, and occupational
therapy before starting outpatient visits. (Id.) Mrs. Kaltenmark notices some lingering
effects and explains that A.J.K. will start additional speech therapy. (Id. at 6-7.) A.J.K.’s
neurological injury also caused development delay, and Mrs. Kaltenmark explains that
A.J.K. requires constant supervision. (Id. at 7.) Since her initial seizures and stroke in
2014, A.J.K remained on anti-seizure medication. (Id.) After almost two years without
any seizure activity, A.J.K.’s seizures have returned in the last few years. (Id.)
18

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 19 of 57
Mrs. Kaltenmark also testified that there was no family history of stroke, despite
Dr. Trasmonte’s note indicating a “strong family history of stroke to the young.” (Id. at
29, 47-48, 61-62 (citing Ex. 7, p. 25).)
V. Expert Opinions
a. Petitioner’s experts
i. AHM Mahbubul Huq, M.B.B.S., Ph.D.16
1. Diagnosis
Dr. Huq opines that the most likely explanation for A.J.K.’s October 2014
presentation is PRES. (Ex. 24, p. 7; Tr. 84-86.) PRES is a clinical-radiological
syndrome characterized by a variable combination of headaches, seizures, altered
mental status, visual impairment, focal neurological signs and symmetric vasogenic
edema in bilateral posterior cerebral circulation territory. (Zheng Chen et al., Immune
System Activation in the Pathogenesis of Posterior Reversible Encephalopathy
Syndrome, 131 BRAIN RSCH. BULL. 93, 93 (2017) (Ex. 47).) However, the symptoms and
signs of PRES are not specific and can be seen in many other neurological disorders.
(Jennifer E. Fugate & Alejandro A. Rabinstein, Posterior Reversible Encephalopathy
Syndrome: Clinical and Radiological Manifestations, Pathophysiology, and Outstanding
Questions, 14 LANCET NEUROLOGY 914, 918 (2015) (Ex. 68).) Brain imaging is therefore
useful to exclude alternative diagnoses and usually confirms a diagnosis of PRES. (Id.)
Brain imaging in cases of PRES generally reveals vasogenic edema in the parieto-
occipital regions of both cerebral hemispheres. (Id.) The edema is typically
asymmetric, but almost always bilateral. (Id.)
PRES is a relatively new diagnostic entity, though it is one that is increasingly
recognized in clinical practice. (Tr. 70; Chen et al., supra Ex. 47, p. 93; Esther V.
Hobson et al., Posterior Reversible Encephalopathy Syndrome: A Truly Treatable
Neurologic Illness, 32 PERITONEAL DIALYSIS INT’L 590, 590 (2012) (Ex. 84)). However,
PRES remains poorly understood. (See Hobson et al., supra Ex. 84, p. 590.) Hobson
et al. explain that PRES commonly evolves over a matter of hours, with the most
common presenting symptoms being seizures, disturbed vision, headache, and altered
mental state. (Id.) The severity of clinical symptoms varies, however. (Id.) Visual
disturbances may manifest as blurred vision, homonymous hemianopsia, or even
16 Dr. Huq was presented at hearing without objection as an expert in pediatric neurology and clinical
genetics. (Tr. 71.) He received his medical degree from Dhaka Medical College in 1984. He is currently
a professor of pediatrics and neurology at Wayne State University. (Ex. 25.) He was also the director of
Children’s Hospital of Michigan Gene Bank Research Facility from 2005-2013. (Id.) Dr. Huq has treated
thousands of patients with epilepsy and developmental delay; and treats 20 to 25 patients each week with
developmental delay. (Ex. 24.) He routinely manages cases of stroke and PRES while working in
inpatient services at Children’s Hospital of Michigan. (Id.) Dr. Huq has published peer reviewed articles
on the genetics of epilepsy and various neurodevelopmental disorders, as well as a review article on
pediatric stroke. (Id.; Ex. 25.)
19

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 20 of 57
cortical blindness. (Id.) Less common symptoms include nausea, vomiting, and
brainstem deficits. (Id.) Hobson et al. indicate that seizures and status epilepticus are
common, and nonconvulsive status epilepticus may be more frequent than generalized
status epilepticus. (Id.) Signs of nonconvulsive seizures include stereotypic
movements, such as staring, eye blinking, or head turning. (Id.)
PRES, Dr. Huq explains, is fundamentally a vascular disorder, “and, in this
sense, very similar to stroke.” (Ex. 24, p. 8.) Dr. Huq stresses that seizures occur in
most patients with PRES, and status epilepticus occurs in approximately 13% of
patients. (Id. (citing Fugate & Rabinstein, supra, at Ex. 68; Judy Hinchey et al., A
Reversible Posterior Leukoencephalopathy Syndrome, 334(8) N. ENG. J. MED. 494
(1996) (Ex. 82)).) The disorder is typically associated with a number of complex clinical
conditions, including preeclampsia / eclampsia, allogeneic bone marrow transplantation,
solid organ transplantation, autoimmune diseases and high dose cancer chemotherapy.
(Id. at 9 (citing W.S. Bartynski, Posterior Reversible Encephalopathy Syndrome, Part 2:
Controversies Surrounding Pathophysiology of Vasogenic Edema, 29 AM. J.
NEURORADIOLOGY 1043 (2008) (Ex. 37); Hobson et al., supra Ex. 84).) Although the
incidence rate of PRES is unknown, Dr. Huq adds that nearly half of the patients with
PRES have history of autoimmune disorder, “such as SLE, Rheumatoid arthritis,
Sjogren’s syndrome and Crohn’s disease.” (Id. (citing Fugate & Rabinstein, supra Ex.
68).)
Dr. Huq testified that A.J.K.’s brain MRI showed T2/FLAIR changes, which could
be evidence of inflammation or vasogenic edema—meaning excessive water or
edematous in the brain tissue. (Tr. 84.) In addition, A.J.K.’s MRI showed diffusion or
restriction, indicating restricted water movement, which “can happen in ischemia or
stroke but can also happen in other conditions such as PRES.” (Id.) Dr. Huq opined
that the MRI was consistent with PRES, rather than stroke, because bilateral occipital
stroke “would be extremely uncommon, especially at this age.” (Id.) According to Dr.
Huq, bilateral occipital stroke usually occurs in older individuals. (Id.) Because the
occipital lobe is supplied by the posterior cerebral artery, there would have to be a
blocked clot in both the posterior cerebral artery on both sides, or a blocked clot or
abnormality involving the basilar artery, which he opined is “really, really uncommon in a
child.” (Id. at 84-85.)
A.J.K.’s first treating neurologist, Dr. Trasmonte, had opined that, in PRES, the
diffusion weighted images would show either equivocal findings or “if it is bright usually
ADC mapping images would not be dark as seen in this patient.” (Ex. 7, p. 2.)
However, Dr. Huq disagrees. Dr. Huq testified that, in his clinical experience, the MRI
images in PRES can be very variable, “and th[ese] particular findings are totally
consistent with PRES.” (Tr. 85-86.) Dr. Huq acknowledged that it can be difficult
differentiating between cytotoxic edema and vasogenic edema. (Id. at 193-94.)
However, he opined that, by looking at the apparent diffusion coefficient (“ADC”) map,
“you can confirm by the blackness of the ADC map. If the ADC map also show[s] blood,
then you know it is actually the diffusion. It is not secondary signals that [are] coming
from the T2 FLAIR signals.” (Id. at 194.) Dr. Huq opined that the blackness on the ADC
20

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 21 of 57
does not differentiate between stroke and PRES, it simply rules out “T2 or FLAIR shine
through.” (Id.) He explained that it is a matter of degrees, and A.J.K.’s treating
physician made a judgment call by “saying that it is too much diffusion restriction.” (Id.
at 195.)
Moreover, Dr. Huq explains that PRES is a misnomer, because while it’s called
“reversible” and “posterior,” not all cases are reversible and not all cases are located in
the posterior portion of the brain. (Id. at 86.) He estimates that 10 to 20 percent of
cases turn out to be irreversible, where brain tissue is lost, similar to stroke; and PRES
can also involve the frontal lobe, basal ganglia, and cerebellum. (Id.) Therefore, he
maintains that petitioner’s correct diagnosis is PRES, even though it proved not to be
reversible, which was also later confirmed by A.J.K.’s treating neurologist Dr. Hsieh.17
(Ex. 3, p. 241.) Furthermore, Dr. Huq stresses that nothing was found in terms of either
a vascular abnormality, cardiac abnormality, or any blood clotting abnormality. (Tr. 90.)
During her inpatient stay, there was initial concern that A.J.K.’s blood pressures
were high, prompting a consult from cardiology; however, Dr. Huq explains that her
blood pressure levels were normal or borderline hypertensive. (Id. at 90-91 (citing Ex.
7, p. 64).) A.J.K.’s mean blood pressure was 77, and with this mean blood pressure,
Dr. Huq opines that “the brain should have no problem having adequate blood supply,
or . . . there would not be any fluctuation. [The b]rain would be able to autoregulate this
kind of variation.” (Id.) A.J.K.’s renal USG and cardiac echo were normal. (Id. at 91.)
Dr. Huq explains that children who are hospitalized may become agitated and, as a
result, the blood pressure measurement can be difficult. (Id.) He further notes that
A.J.K.’s treating cardiologist opined that her blood pressure could have been secondary
to the neurological involvement. (Id. at 92; Ex. 12, p. 7.)
Lastly, Dr. Huq testified that A.J.K.’s ongoing seizures could be caused by PRES,
though he cannot be sure. (Tr. 99.) Simply put, “[n]othing is ever from one cause.”
(Id.) PRES, however, “would be enough to explain her clinical condition.” (Id.)
2. Theory of causation
Dr. Huq opines that “vaccination and infection have worked synergistically to
produce A.J.K.’s neurological illness.” (Ex. 166, p. 1; see also Tr. 123-24.)18 One
17 Dr. Huq acknowledged that Dr. Hsieh’s initial impression was that A.J.K. suffered from either a
metabolic disease, such as mitochondrial disease, or PRES. (Ex. 3, p. 241.) However, whole exome and
mitochondrial sequencing ruled out a metabolic or mitochondrial disorder. (Tr. 95.)
18 During the hearing, Dr. Huq acknowledged that he misworded his earlier expert report wherein he
stated that A.J.K. suffered a significant aggravation of her underlying condition. (Tr. 155 (citing Ex. 24, p.
6).) He acknowledged that A.J.K. suffered a “significant aggravation” from her previous condition—where
she was a healthy child with some borderline concern on gross motor function and some muscle twitches.
(Id.) Dr. Huq testified that he was “just comparing her pre-vaccination and post-vaccination condition, so
it’s probably not the appropriate choice of . . . word on [his] part.” (Id. at 156.) There was no aggravation
of an underlying condition because Dr. Huq “didn’t think that [A.J.K.’s] muscle twitches [were] epilepsy.”
(Id.)
21

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 22 of 57
potential mechanism of “synergistic impact” occurs where there is a still unresolved
infection, meaning there are activated immune cells or a low-level elevation of
cytokines, in addition to vaccine-induced immune response. (Tr. 123-24.) Alternatively,
the vaccination and the cytokine changes may disrupt the blood-brain barrier, resulting
in increased entry of the virus into the brain tissue (an atypical presentation). (Id. at
124.)19 The whole sequence of events, he testified, is triggered by endothelial wall
injury. (Id. at 98.) There are various hypotheses for what causes the endothelial wall
injury, but most agree that the blood vessels in the posterior part of the brain are more
susceptible because there are less autoregulatory mechanisms available in the
posterior circulation rather than in the anterior circulation. (Id.) Dr. Huq deferred to Dr.
Gershwin regarding the role of cytokines in petitioners’ theory. (Id. at 125.)
Dr. Huq explained that vasogenic edema results from increased permeability of
capillary endothelial cells. (Id. at 99-100.) Endothelium and other cells surround the
capillaries and the small arteries in the brain, creating a barrier between the blood and
the brain tissue. (Id.) If the blood-brain barrier is impaired in any way, material from the
blood, such as serum or the fluid from the blood (or even other molecules from the
blood), extravasates into the brain tissue. (Id. at 100.) On objective testing, vasogenic
edema presents as abnormality to FLAIR changes. (Id.) However, according to Dr.
Huq, PRES may also present clinically with cytotoxic edema. (Id.) He explains that
cytotoxic edema can “happen in metabolic causes . . . such as mitochondrial disorder or
stroke, but it can also happen from PRES in 15 to 30 percent of cases.” (Id.) In other
words, one-fourth of cases of PRES will demonstrate diffusion restriction, like in
petitioner’s case.
Dr. Huq acknowledges that the exact mechanism of PRES is controversial, but
endothelial dysfunction is suspected. (Ex. 24, p. 9 (citing Hobson et al., supra Ex. 84).)
One commonly postulated theory is that severe hypertension causes interruption to
brain autoregulation. (Id. (citing Bartynski, supra Ex. 37).) Bartynski explains that
cerebral blood flow is usually regulated by dilatation and constriction of vessels to
maintain adequate tissue perfusion, while simultaneously avoiding excessive
intracerebral hypertension. (Id.) Uncontrolled hypertension leads to hyperperfusion and
cerebral vessel damage, resulting in interstitial extravasation of proteins and fluids,
causing vasogenic edema. (Id.) Dr. Huq emphasizes that conditions that commonly co-
exist in PRES, such as chronic hypertension and atherosclerosis, are known to reduce
the effectiveness of autoregulation. (Id.) However, the autoregulation theory does not
explain (a) why blood pressure in PRES does not usually reach the upper limit of
autoregulation, (b) why PRES often occurs in the absence of hypertension, or (c) why
the extent of the edema is not directly related to the severity of the blood pressure. (Id.
(citing Bartynski, supra Ex. 37; Alexander McKinney, Posterior Reversible
Encephalopathy Syndrome: Incidence of Atypical Regions of Involvement and Imaging
Findings, 189 AJR 904 (2007) (Ex. 96)).) Moreover, Dr. Huq testified that the
hyperperfusion theory has never been documented, for example, on PET scan. (Tr.
103.)
19 Dr. Huq clarified that a virus entering the brain was not required for his causal opinion. (Tr. 189.)
22

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 23 of 57
Dr. Huq suggested that evidence from some positron-emission tomography
studies actually demonstrates cerebral hypoperfusion. (Ex. 24, p. 9 (citing Bartynski,
supra Ex. 37).) He testified that hypoperfusion also causes restricted diffusion. (Tr.
104.) Without adequate metabolite, such as glucose or fatty acids or oxygen, not
enough ATP is produced, which in turn restricts water molecule movement. (Id.) As it
relates to this case, Dr. Huq testified that A.J.K. only demonstrated borderline
hypertension and “it would be very hard to explain how that level of blood pressure
would cause endothelial injury.” (Id. at 107.)
Dr. Huq favors the cytokine theory because a vast majority of cases have some
sort of autoimmune condition or immune-mediated condition. (Id. at 104.) In
petitioner’s case, Dr. Huq explained that, judging by the remnant of rash from her
HFMD, there was some preceding “immune abnormality” occurring due to A.J.K.’s
ongoing infection. (Id. at 113.) The cytokine or immune response from A.J.K.’s
vaccination “could have been synergistic or additive in her case.” (Id. at 113-14.)
According to Dr. Huq, this is the mechanism that more likely than not caused the
endothelial injury in A.J.K.’s case. (Id. at 114.)
On cross examination, Dr. Huq agreed that the Fugate paper he relied upon
regarding cytokine-mediated PRES did not conclude that vaccines cause PRES. (Id. at
179.) Fugate et al. did observe that “[c]ytokine activation might also underlie the
pathophysiological changes associated with both PRES and other systemic disorders,
such as sepsis.” Fugate & Robinson, supra Ex. 68, p. 4. However, Dr. Huq agreed that
A.J.K. did not suffer from any systemic disorders. (Tr. 179-80.) Dr. Huq testified if
A.J.K. had been suffering from SLE, for example, then he would assume that SLE were
the cause of her PRES. (Id. at 180.) The reason Dr. Huq considered the vaccines and
the “synergism between her infection” is because A.J.K. did not have any kind of
underlying cause that would otherwise explain her PRES. (Id.)
3. Logical Sequence of Cause and Effect
Prior to the alleged vaccinations, Dr. Huq testified that A.J.K. was a healthy child,
and she was developing normally. (Id. at 128.) There was some concern about
borderline scores on her ASQ, but Dr. Huq stressed that on physician's direct exam,
those concerns were not validated. (Id.) Based on his clinical experience, Dr. Huq
testified that “these sort of borderline concerns often resolve unless you identify a
significant genetic problem.” (Id.) Upon receiving the four alleged vaccinations, Dr. Huq
opines that there were “increased proinflammatory cytokine[s]” and “probably
recruitment of the immune cells at that time.” (Id.) He opines that A.J.K. possibly had
somewhat elevated inflammation because of her still-recovering HFMD. (Id.) This led
to an endothelial injury—and the endothelial dysfunction and blood-brain barrier
disruption caused vasogenic edema, hypoperfusion, and energy failure, all leading to
restricted diffusion and irreversible PRES. (Id. at 128-29.) Dr. Huq opines that this led
to ongoing seizures during a critical period of development and, therefore, ultimately to
23

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 24 of 57
her current cognitive and developmental impairments as well as her uncontrolled
epilepsy. (Id. at 129.)
At the hearing, I asked Dr. Huq whether A.J.K.’s ER records, which indicated that
the CT scan showed pansinusitis and the x-ray showed a haziness in the lungs, had
any bearing on A.J.K.’s resolving HFMD or whether it indicated another underlying
infection was present. (Id. at 187.) Dr. Huq testified that these findings supported his
theory that A.J.K.’s case was a “perfect storm.” (Id.) Sinusitis is a localized infection,
however, Dr. Huq explained that if there is inflammation going on in the sinus and
immune cells, then there is probably an increase in inflammatory cytokines as well. (Id.)
Sinusitis is a very common condition, and sinusitis alone would not be sufficient. (Id.)
However, Dr. Huq suggested that A.J.K.’s pansinusitis could have been some viral
pneumonia, which could have been another susceptibility factor. (Id. at 187-88.)
Dr. Huq opines that but-for the vaccinations, A.J.K. would not have developed
PRES. (Id. at 197-98.) A.J.K. had ongoing sinusitis, and was recovering from HFMD,
but he opines that the more acute, or direct, cause of immune activation and cytokine
response were the alleged vaccinations. (Id. at 198.) Dr. Huq acknowledged that there
is no “direct evidence” of excessive circulating cytokines because cytokine levels were
not measured. (Id. at 177.) However, despite not having any “direct evidence” of
elevated levels of cytokines, Dr. Huq testified that “we know the way that vaccine[s]
work[] . . . . [b]oth the antigenic component and the adjuvant are recognized by the innate
immune system, by the pattern recognition receptors, which include immune cells very
early, almost immediately after giving the vaccines. And then they produce cytokines
which are both local and distant . . . .” (Id. at 178.)
4. Proximate temporal relationship
Dr. Huq notes that A.J.K. developed a low-grade fever, clusters of seizures with
status epilepticus, and a stroke-like episode vs PRES, within two days of administration
of her MMR, Influenza, Hep A, and Varicella vaccines at 12 months of age. (Ex. 24, p.
16.) He opines that this timing is consistent with the proposed mechanism of
inflammation, blood-brain barrier disruption, and release of cytokines by these vaccines.
(Id.) As opposed to antibody production by B cells and memory cells, Dr. Huq opines
that “inflammation after vaccination is an early event.” (Id.) Given the role of
inflammation and endothelial injury from proinflammatory cytokines, he suggests that a
PRES or stroke-like event within days of vaccination is consistent with petitioners’
proposed mechanism. (Id.)
According to Dr. Huq, epidemiological studies indicate that there are significantly
elevated risks of febrile seizures 8 to 14 days after the receipt of MMR vaccine,20 and an
20 To support this assertion, Dr. Huq cites: Simon J. Hambidge et al., Timely Versus Delayed Early
Childhood Vaccination and Seizures, 133 PEDIATRICS 1 (2014) (Ex. 75); Nicola P. Klein et al., Measles-
Mumps-Rubella-Varicella Combination Vaccine and the Risk of Febrile Seizures, 126 Pediatrics 1 (2010)
(Ex. 87); Nicola P. Klein et al., Measles-Containing Vaccines and Febrile Seizures in Children Age 4 to 6
Years, 129 PEDIATRICS 1 (2012) (Ex. 88); Nicola P. Klein et al., Safety of Measles-Containing Vaccines in
1-Year-Old Children, 135 PEDIATRICS 1 (2015) (Ex. 89); Kristine K. Macartney et al., Febrile Seizures
24

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 25 of 57
increased risk for febrile seizures during the 24 hours after a child receives the
inactivated influenza vaccine at the same time as the pneumococcal 13-valent
conjugate vaccine or the diphtheria, tetanus, acellular pertussis vaccine.21 (Id.) As
A.J.K. received both influenza and MMR vaccines, along with other vaccines, and
developed a PRES or stroke-like episode, Dr. Huq opines that the timing of her seizures
is consistent with proposed inflammatory mechanism, as well as epidemiological data.
(Id. at 16-17.)
ii. M. Eric Gershwin, M.D., M.A.C.P., M.A.C.R.22
1. Theory of Causation
Dr. Gershwin first explained that the endothelial cells are part of the blood-brain
barrier, which is, effectively, the barrier between the body and the brain. (Tr. 210.) The
endothelial cells, are “not a cement wall,” instead, they are “living tissue, and like any
living tissue, fluid . . . and molecules can, in theory, go in both directions, go in and go
out.” (Id.) The release of cytokines, both proinflammatory and anti-inflammatory, is an
expected event following vaccination. (Id. at 211.) Dr. Gershwin compared it to an
infection, testifying that it is “not necessarily a pharmacologic burst with super-normal
levels of cytokines [being] produced, but there are cytokines produced, and they do get
in the blood, and [it is not] just the influence of the cytokines.” (Id.) He explained that it
is a “balance.” (Id.)
Following Measles and Varicella Vaccines in Young Children in Australia, 33 VACCINE 1412 (2015) (Ex.
93); Shannon E. MacDonald et al., Risk of Febrile Seizures After First Dose of Measles-Mumps-Rubella-
Varicella Vaccine: A Population-Based Cohort Study, 186 CMAJ 824 (2014) (Ex. 94); Margaret A.
Maglione et al., Safety of Vaccines Used for Routine Immunization of US Children: A Systematic Review,
134 PEDIATRICS 325 (2014) (Ex. 95); Tania Schink et al., Risk of Febrile Convulsions After MMRV
Vaccination in Comparison to MMR or MMR+V Vaccination, 32 Vaccine 645 (2014) (Ex. 106); Kumanan
Wilson et al., Adverse Events Following 12 and 18 Month Vaccinations: A Population-Based, Self-
Controlled Case Series Analysis, 6 PLOS ONE 1 (2011) (Ex. 126).
21 Jonathan Duffy et al., Febrile Seizure Risk After Vaccination in Children 6 to 23 Months, 138
PEDIATRICS 1 (2016) (Ex. 63).
22 Dr. Gershwin was presented at hearing without objection as an expert in immunology. (Tr. 207.) He
received his bachelor's degree from Syracuse University in 1966, followed by his medical degree at
Stanford University in 1971. (Ex. 232.) He then completed his internship and residency at Tufts-New
England Medical Center in Boston, Massachusetts. (Id. at 2.) After completing a fellowship in
immunology with the National Institutes of Health in Bethesda, Maryland, Dr. Gershwin became an
Assistant Professor of Medicine (Rheumatology and Allergy) at the University of California School of
Medicine in Davis, California (“UC Davis School of Medicine”). (Id.) Dr. Gershwin’s medical licenses,
with the exception of his California licensure, are currently inactive. (Id.) Dr. Gershwin has held a
position at UC Davis School of Medicine for roughly 50 years. (Tr. 201.) He currently serves as a
Distinguished Professor of Medicine in the Division of Rheumatology, Allergy and Clinical Immunology
and the Director of the Allergy-Clinical Immunology program at UC Davis School of Medicine. (Ex. 232, p.
1.) Dr. Gershwin also currently serves as the Editor-in-Chief of the Journal of Autoimmunity, as well as
several additional editorial positions for other publications focusing on autoimmunity. (Id. at 5.)
25

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 26 of 57
Upon vaccination, antigens will deposit in a local regional lymph node. (Tr. 212.)
Dr. Gershwin testified that the antigens “activate the immune system” by first activating
the innate immune system, alongside antibody or cytotoxic T cell production, and “in
that process, cytokines are produced.” (Id. at 212-13.) Cytokines travel in the blood,
and “peak, in most cases within hours to a couple days at most.” (Id. at 213.) This
timeline varies by individual, specifically based on the genetics of the host, and depends
upon the number of vaccines received. (Id.) The production of cytokines will ultimately
lead to an adaptive response, the “protective response.” (Id.) Dr. Gershwin explained
that the levels of cytokines produced does not need to rise to the level of shaking, chills,
or fever. (Id. at 214.) There must be a physiological alteration, as evidenced by
endothelial cells affecting the tight junction of the blood-brain barrier. (Id.)
Dr. Gershwin stressed that this is “not an all-or-nothing process” or even a
necessarily “pathologic injury.” (Id. at 217.) In fact, there is “no necrosis[23] or death”
taking place, which “is why measuring cytokines at any given moment is basically a law
of diminishing returns.” (Id.) He further explained, “We know they’re there. The
question is, when do you measure; do you measure in an hour; do you measure at four
hours; where do you sample . . . . In a clinical setting, it’s just very difficult to do within a
patient.” (Id.) He acknowledged that, “in all cases, if there’s an effective immune
response, there will be cytokine production.” (Id. at 222.) However, quantifying what is
an elevated response can be difficult. This is in part because “there is an enormous
variation in the human response and genetic variation is expected.” (Ex. 147, p. 2; see
also Tr. 223.) And relatedly, there are “differences in cytokines that are produced by
different individuals to different antigens.” (Tr. 224.)
Responding to criticism from Dr. Forsthuber, Dr. Gershwin agreed that increased
production of cytokines is an innate immune response that occurs post-vaccination and
is arguably short-lived. (Id. at 233.) However, Dr. Gershwin stressed that “even if
cytokines last in the blood a very short time, it’s not how long they last in the blood,” but
“how long their biologic effect will last.” (Id. at 232.) He explained that the role of
cytokines in signaling and activating the immune process is what “becomes important,”
and even when cytokines levels are low, “the biologic response is significant.” (Id. at
232-34.)
In A.J.K.’s case, Dr. Gershwin agreed that her HFMD virus was still a factor,
even 13 days after her HFMD symptoms began and when A.J.K. was reportedly feeling
a lot better. (Id. at 235.) He explained that her body was likely still in the process of
“making a protective response, adaptive response,” as such a process could take up to
six weeks or longer. (Id.) He further testified that the vaccines alone could not have
caused A.J.K.’s injury. (Id.) Instead, Dr. Gershwin supported Dr. Huq’s synergistic
theory, testifying that A.J.K had an ongoing viral infection, followed by an adaptive
response, resulting in the release of cytokines where “the synergistic effect of the
23 Necrosis is “the sum of the morphologic changes indicative of cell death and caused by the progressive
degradative action of enzymes.” Necrosis, DORLAND’S MEDICAL DICTIONARY ONLINE,
https://www.dorlandsonline.com/dorland/definition?id=33333&searchterm=necrosis (last visited Oct. 25,
2023).
26

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 27 of 57
cytokine biology . . . is enough to open up the blood-brain barrier.” (Id. at 237.) He
went on to explain that this process “will activate either receptors on those endothelial
cells” or “activate microglia themselves,” and “[t]hey will themselves then produce
additional cytokines which will further the inflammation.” (Id.)
Dr. Gershwin acknowledged that “clinical evidence” from A.J.K.’s medical records
does not exist to support his theory involving cytokines. (Id. at 262-63.) He candidly
testified that, “if you’re looking for a smoking gun within the clinical record, of course,
you’re not going to find it.” (Id. at 263.) As explained by Dr. Huq, cytokines are difficult
to measure. (Id. at 262.) According to Dr. Gershwin, cytokines are not very stable when
they are removed from the blood. (Id.) This is why, as Dr. Huq indicated, cytokines are
often measured by removing peripheral blood cells, stimulating them, and then
measuring them—a process which is still fraught with difficulty. (Id. at 262-63.)
Additionally, measuring ultrastructure on a microscope, or what the blood-brain barrier
looked like in A.J.K., is not an available option. (Id. at 263.) Instead, Dr. Gershwin
maintains his reliance on the clinical science, published in peer-reviewed literature,
involving studies on the blood-brain barrier and cytokines. (Id.)
When I asked Dr. Gershwin whether the degree of effect on the endothelial cells,
in terms of “opening or tightening the junction,” correlates to the degree of the edema,
Dr. Gershwin testified affirmatively. (Id. at 267.) He explained that there has to be a
“significant disruption of the endothelial cells, because I don’t think a minor disruption
would make any difference.” (Id.) Likewise, I asked Dr. Gershwin whether a similar
correlation could be drawn between the degree of cytokine response and the degree to
which endothelial junctions show dysfunction. (Id. at 267-68.) He testified that the
magnitude of endothelial dysfunction may be a matter of the magnitude of the cytokine
response; however, it may also be a matter of the relative levels of different cytokines
because there is “a homeostasis involved with cytokines.” (See id. at 268.) “[C]ytokines
and their effect are modulated by each other,” meaning that it is not as simple as
identifying, for example, the “absolute level” of gamma interferon (“IFN”) plus a level of
interleukin-17.24 (Id.) Cytokines involve regulation, so regulation or homeostasis may
be disrupted. (Id.)
2. Logical sequence of cause and effect
Dr. Gershwin opined that A.J.K. had “an ongoing viral infection with an RNA
virus,”25 as evidenced by rash as well as “some evidence of an interstitial process . . . in
the lung.” (Id. at 239.) Therefore, in addition to a “multiplicity of innate cytokines being
produced” as a result of A.J.K.’s vaccinations, cytokines were also being produced as
part of the adaptive response to the virus. (Id. at 212, 239.) Cytokines likely altered the
blood-brain barrier by interacting with the microglia to produce inflammation, resulting in
edema in the brain. (Id. at 226, 240-41.) He opines that these were the inflammatory
24 “Interleukin” is hereinafter abbreviated to “IL.”
25 In his expert report, Dr. Gershwin explains that HFMD is an RNA virus. (Ex. 147, p. 3.)
27

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 28 of 57
mediators that produced the swelling in A.J.K.’s brain, which led to what Dr. Huq defined
as PRES. (Id. at 240-41; Ex. 147, p. 3.)
3. Proximate temporal relationship
Dr. Gershwin testified that the timing in A.J.K.’s case is “perfect for a first
responder innate immune response, meaning this happened 48 hours later.” (Tr. 240-
41.) In response to Dr. Forsthuber’s criticisms that the timing in this case is too short for
petitioners’ theory of causation, Dr. Gershwin agreed that it takes approximately three
days for a T cell immune response to become detectable in regional lymph nodes. (Tr.
241.) However, Dr. Gershwin stresses that the adaptive response to HFMD includes
“both T cells and antibody” and that T cells are not involved in this case. (Id. at 241-42.)
Cytokines are produced as part of the innate immune response upon vaccination, and
they have short half-lives of hours to a couple days. (Id. at 241.)
b. Respondent’s experts
i. Thomas Gunter Forsthuber, M.D.26
Dr. Forsthuber stated that, in his initial understanding of the medical records, his
impression was that A.J.K.’s clinicians thought that she more likely suffered a stroke.
(Tr. 377.) However, during the hearing, he testified that “[f]rom the discussion that . . .
we [have] had here over the last two days, I think now -- I believe more likely than not
this to be PRES, which then evolved . . . into stroke. That would be my interpretation.”
(Id.)
Dr. Forsthuber opines that A.J.K.’s 12-month vaccinations did not cause PRES
via immune activation and inflammation. (Ex. A, p. 8.) First, Dr. Forsthuber explains
that the etiology of PRES is poorly understood, but two leading theories have emerged:
1) The “hyperperfusion theory,” where a rapid increase in arterial blood pressure leads
to cerebral hyperperfusion, vascular leakage, and vasogenic edema; and 2) the “toxic”
theory, where endothelial dysfunction is caused by circulating endogenous or
26 Dr. Forsthuber was presented at hearing without objection as an expert in immunology. (Tr. 321.) In
1987, he received his medical degree from University of Tübingen in Germany. (Ex. B.) He obtained his
medical license in the United States in 1996. (Id. at 2.) Dr. Forsthuber maintained his medical license in
Ohio until 2016 when it became voluntarily inactive. (Id.) He currently serves as a professor of
immunology and the endowed chair of biotechnology at the University of Texas at San Antonio as well as
an adjunct professor of pathology and of microbiology and immunology at the University of Texas Health
Sciences Center in San Antonio, Texas. (Id.) He is board certified in anatomical and clinical pathology.
(Id.) However, Dr. Forsthuber is not involved in active patient care, and he has not treated patients with
A.J.K.’s clinical condition. (Ex. A, p. 1.) He defers to Dr. Bingham regarding the discussion of A.J.K.’s
medical facts and clinical diagnosis. (Id. at 1, 3.) He has published “over 90 publications, reviews, and
book chapters in the fields of T cell immunology and autoimmune diseases including multiple sclerosis
and autoimmune diabetes (Type 1 diabetes) and their respective animal models.” (Id. at 1.) Dr.
Forsthuber is an editor / editorial board member of a number of journals, including Expert Reviews
Clinical Immunology, Neurology: Neurology & Neuroinflammation, Journal of Immunology, and Frontiers
in Multiple Sclerosis and Neuroimmunology. (Id.)
28

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 29 of 57
exogenous “toxins.” (Id. (citing Marlene Fischer & Erich Schmutzhard, Posterior
Reversible Encephalopathy Syndrome, 264 J. NEUROLOGY 1608 (2017) (Ex. 66; Ex. A,
Tab 7).) The “toxic” theory proposes that endothelial cell dysfunction of arterial blood
vessels in the brain is triggered by excessive release of proinflammatory cytokines or
other inflammatory mediators, resulting in endothelial activation, release of vasoactive
mediators, increased vascular permeability, and edema formation. (Id.) Regarding this
theory, Dr. Forsthuber notes that nearly half of PRES patients have a history of
conditions presenting with immune activation, such as autoimmune diseases and SLE,
in particular. (Id. (citing Fischer & Schmutzhard, supra Ex. A, Tab 7).) Dr. Forsthuber
stresses that vaccination has neither been established as a cause of PRES nor been
discussed as relevant by researchers in this field. (Id.)
Dr. Forsthuber indicates that there are only two case reports of PRES temporally
associated with vaccination, both after MMR vaccination. (Id. (citing Kursad Aydin et
al., Reversible Posterior Leukoencephalopathy and Adie’s Pupil After Measles
Vaccination, 21 J. CHILD NEUROLOGY 525 (2005) (Ex. 34; Ex. A, Tab 8); Tadanori
Hamano et al., Posterior Reversible Encephalopathy Syndrome Following Measles
Vaccination, 298 J. NEUROLOGICAL SCIENCES 124 (2010) (Ex. 74; Ex. A, Tab 9)).)
Importantly, Dr. Forsthuber indicates that onset of PRES in these reports was
approximately 4-7 days after vaccination, which is significantly later than onset in the
present case. (Id.) Aydin et al. reported a young male patient who was diagnosed with
PRES ten days after receipt of a measles vaccination. (Tr. 329-30 (citing Aydin et al.,
supra Ex. A, Tab 8).) However, Dr. Forsthuber stressed that this case report is “really
only a temporal association.” (Id.) Dr. Forsthuber observes that this paper included
neither an infectious inflammatory disease work-up nor a description of blood pressure
changes. (Id.) He further notes that the child normalized one year later. (Id.) The
second case report involved a 19-year-old student who was subsequently diagnosed
with myeloradiculopathy with PRES following receipt of a measles vaccination. (Id. at
330 (citing Hamano et al., supra Ex. A, Tab 9).) In that case, Dr. Forsthuber stressed
that the patient developed itching and pain hours after vaccination, which seemed to be
progressive, but the PRES diagnosis was made approximately seven to ten days post-
vaccination. (Id. at 331.) Although Dr. Forsthuber acknowledged that this patient did
have elevated blood pressure, he again noted that this case report lacked both an
infectious disease work-up and a causal theory, relying instead on a temporal
association. (Id.)
Despite a surge of interest in PRES, he emphasizes that no additional case
reports associating this condition with vaccination have emerged. (Ex. A, p. 8.)
Instead, Dr. Forsthuber suggests that inflammatory conditions typically observed in the
context of PRES are associated with striking systemic immune activation and/or
immune dysregulation, such as SLE, eclampsia, transplantation, chemotherapy, or
sepsis. (Id. (citing Fischer & Schmutzhard, supra Ex. A, Tab 7).) Infections associated
with PRES are usually acute, systemic, and often chronic, such as
immunocompromised patients with HIV or patients on immunosuppressive treatments
after solid organ or bone marrow transplantation. (Id.) Dr. Forsthuber maintains that
there is no evidence that A.J.K.’s vaccinations “resulted in the same level of immune
29

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 30 of 57
activation as the conditions typically associated with PRES.” (Id.) Indeed, A.J.K. was
afebrile (97.3° F body temperature) when she was first seen for seizures in the
emergency department at South Georgia Medical Center. (Id. (citing Ex. 9, p. 56).)
Moreover, no other adverse reactions were reported after her vaccinations on
September 29, 2014. (Id.) According to Dr. Forsthuber, the lack of fever, or any other
local or systemic signs, after vaccination undermines the theory of systemic elevation of
proinflammatory cytokines, such as tumor necrosis factor (“TNF”) or IL-6, as “fever
typically rises in parallel with an increase in these cytokines.” (Id. (citing A. Engel et al.,
Kinetics and Correlation with Body Temperature of Circulating Interleukin-6, Interleukin-
8, Tumor Necrosis Factor Alpha and Interleukin-1 Beta in Patients with Fever and
Neutropenia, 22 INFECTION 160 (1994) (Ex. A, Tab 10)).) Moreover, he testified that
there were no laboratory abnormalities in A.J.K.’s CSF; that her blood labs, including
her C-reactive protein (“CRP”), were normal; and that there was no report
demonstrating any other abnormal results. (Tr. 323.) CRP, he explained, is a sensitive
protein for inflammatory processes. (Id.) He opines that it is “highly unlikely” that
A.J.K.’s vaccinations caused systemic immune activation and inflammation sufficient to
trigger her neurological condition. (Ex. A, p. 8.)
Moreover, Dr. Forsthuber opines that there is no evidence of elevated levels of
cytokines in HFMD patients. (Tr. 332-33.) He discussed a study that examined children
in China with mild and severe HFMD, which concluded that there was no difference in
cytokines (IL-1β, IL-6, or TNF) between children with mild HFMD and healthy controls.
(Id. at 333 (citing Kang Cai et al., Clinical Characteristics and Managements of Severe
Hand, Foot and Mouth Disease Caused by Enterovirus A71 and Coxsackievirus A16 in
Shanghai, China, 19 BMC INFECTIOUS DISEASES 1 (2019) (Ex. J)).) He stressed that this
study showed no elevation in CRP among the mild HFMD patients. (Id.) Dr. Forsthuber
testified that CRP is tightly linked to IL-6 as CRP is induced by IL-6 in the liver. (Id. at
334.) He explained that IL-6 levels rise first, and then approximately 19 to 20 hours
later, CRP levels go up. (Id.)
Dr. Forsthuber opines that there is a “huge distinction” between cytokine levels in
the blood and “levels of cytokines produced by peripheral blood mononuclear cells
isolated from the blood.” (Id. at 336.) He explained that, while vaccines clearly induce
an immune response by way of T cell and antibody responses, there is no literature to
support the theory that vaccines induce levels of cytokines that have a meaningful effect
in the blood. (Id. at 336-37.) He pointed to several articles concluding that “the levels of
cytokines in the blood, in serum or plasma, induced after vaccination are slight and
short-lived.” (Id. at 337 (citing Caroline Herve et al., The How’s and What’s of Vaccine
Reactogenicity, NPJ VACCINE, Sept. 24, 2019 (Ex. 182)).) Dr. Forsthuber opines that
these slight levels of cytokines induced by vaccination cannot play a role. (Id.)
According to Dr. Forsthuber, Kleiner et al. “clearly shows that you can detect most
cytokines in the serum of healthy patients.” (Id. at 338 (citing Giulio Kleiner et al.,
Cytokine Levels in the Serum of Healthy Subjects, MEDIATORS OF INFLAMMATION, Mar. 2,
2013 (Ex. E, Tab 17)).) He explained that the healthy individuals in this study all had a
certain level of IL-6 and TNF in their blood. (Id.) He noted that Kleiner et al. is not the
only study finding baseline levels of proinflammatory cytokines in the blood of
30

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 31 of 57
individuals. (Id. at 338.) Regarding the level of cytokines, Dr. Forsthuber testified that
Kleiner et al. reported levels of cytokines in picograms—a picogram amounts to one
trillionth of a gram. (Id. at 338-39.)
Dr. Gershwin cites several sources to support his assertion that vaccines induce
cytokines that have a clinically dramatic impact on the body. (Ex. 147, p. 2 (citing Joan
E. Nichols et al., Human Macrophage Responses to Vaccine Strains of Influenza Virus:
Synthesis of Viral Proteins, Interleukin-1β, Interleukin-1, Tumour Necrosis Factor-α and
Interleukin-1 Inhibitor, 11 VACCINE 36 (1993) (Ex. 148); Juliana Gil Melgaço et al., A
Single Dose of Inactivated Hepatitis A Vaccine Promotes HAV-Specific Memory Cellular
Response Similar to that Induced by a Natural Infection, 33 VACCINE 3813 (2015) (Ex.
149); Stephen C. De Rosa et al., Vaccination in Humans Generates Broad T Cell
Cytokine Responses, 173 J. IMMUNOLOGY 5372 (2004) (Ex. 150); Jennifer P. Wang et
al., Varicella-Zoster Virus Activates Inflammatory Cytokines in Human Monocytes and
Macrophages Via Toll-Life Receptor 2, 79 J. VIROLOGY 12658 (2005) (Ex. 151); Herve et
al., supra Ex. 182).) Dr. Forsthuber, however, testified that all of these papers
examined cytokine production in tissue culture. (Tr. 343.) According to Dr. Forsthuber,
these studies are isolating monocytes from the blood, putting them in culture, and then
exposing them to a virus. (Id.) While these studies recorded high levels of cytokines,
Dr. Forsthuber explained that, in these studies, the cells are stimulated in culture and
“[i]f they don’t stimulate the cells, they don’t get any response.” (Id. at 343-44.)
Moreover, Dr. Forsthuber noted that there is a lot of information missing from these
studies, such as how many cells are put in culture. (Id.) He opines that none of these
studies have “anything to do with what’s happening in the blood after vaccination.” (Tr.
343-46.)
Dr. Forsthuber cites Christian et al., a study in which investigators looked at
subjective side effects and proinflammatory cytokine responses in young women after
influenza vaccination. (Id. at 347 (citing Lia M. Christian et al., Proinflammatory
Cytokine Responses Correspond with Subjective Side Effects After Influenza Virus
Vaccination, 33 VACCINE 3360 (2015) (Ex. E, Tab 15)).) Dr. Forsthuber highlighted
Figure 1, which shows the amount of cytokines in picograms per milliliter. (Id. at 347-
48.) Upon his review of the illustration in Figure 1, Dr. Forsthuber testified that he could
not see any increase, much less a meaningful increase, in cytokines. (Id.) Moreover,
Dr. Forsthuber relies on the study by Kashiwagi et al. (Id. at 349-50 (citing Yasuyo
Kashiwagi et al., Production of Inflammatory Cytokines in Response to Diphtheria-
Pertussis-Tetanus (DPT), Haemophilus Influenzae Type B (Hib), and 7-valent
Pneumococcal (PCV7) Vaccines, 10 HUMANS VACCINES & IMMUNOTHERAPEUTICS 677
(2014) (Ex. E, Tab 16)).) Although Kashiwagi et al. observed “no association” between
different vaccines and “stroke or fever,” Dr. Forsthuber acknowledges that the study did
not look at the vaccines in A.J.K.’s case, “so we can’t really draw conclusions from this”
regarding “the vaccines that are allegedly playing a role in our case.” (Id. at 350.)
Looking at the figures in the Kashiwagi et al. study, Dr. Forsthuber testified that the
results showed increased cytokines among the stimulated PMBCs. (Id. at 351-53.) He
noted that the cytokine levels were not notably higher 24 hours post-vaccination. (Id.)
Dr. Forsthuber suggested, in line with Herve et al. cited by Dr. Gershwin, that Kashiwagi
31

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 32 of 57
et al. supports a finding that vaccines induced “very slight changes in cytokines, and
they’re very short-lived.” (Id. at 353.)
Dr. Forsthuber acknowledged that the concept of cytokines acting in the blood-
brain barrier is “a valid concept.” (Id. at 354.) However, the level of cytokines required
to make the blood-brain barrier permeable is an open question. (Id. at 354-55.) Dr.
Forsthuber points to a study by de Vries et al., which investigated the effect of TNF, IL-
1β, and IL-6 on the transendothelial electric resistance (“TEER”) of endothelial cells,
which was used as a model for the blood-brain barrier permeability. (Id. at 355 (citing
Helga E. de Vries, The Influence of Cytokines on the Integrity of the Blood-Brain Barrier
In Vitro, 64 J. NEUROIMMUNOLOGY 37 (1996) (Ex. 168)).) The authors sought to examine
whether cytokines can induce changes in the blood-brain barrier in vitro. (See de Vries
et al., supra Ex. 168, p. 38.) The results of the study demonstrated that cytokines
induce a disruption of the blood-brain barrier at the level of the cerebral endothelial
cells, which is evidenced by a decline in TEER. (Id. at 41.) However, Dr. Forsthuber
testified that, in order to see these results, investigators had to “throw thousands to
50,000-fold higher concentrations on these cells in order to see a change in the
permeability of the blood-brain barrier.” (Tr. 356-57.) Dr. Forsthuber cautions that, from
this study, we “[p]robably” cannot draw conclusions regarding “exactly what happens in
people.” (Id. at 357.) He suggests, instead, that we can conclude that slight increases
in cytokines, induced after vaccination, will not change the blood-brain barrier. (Id. at
358.)
Dr. Forsthuber explained that cytokines in general have a “very short life span.”
(Id. at 360-61.) The half-life of most cytokines “ranges in the amount of minutes,”
although IL-6 has a somewhat longer half-life of about 16 hours. (Id. at 361.) Dr.
Forsthuber stressed that when a cytokine is produced somewhere, it does not go into
the bloodstream and remain there permanently—instead, cytokines quickly disappear.
(Id.)
On cross-examination, Dr. Forsthuber provided two examples of contexts in
which he agrees that cytokines act on the blood-brain barrier, causing injury. (Id. at
388.) First, he testified that injection of high levels of cytokines, or a substance that
induces high cytokine levels, into an experimental animal or human, would presumably
be injurious. (Id.) For example, he suggested that injury is “absolutely possible” after
injection of high doses of lipopolysaccharide injected in an animal model. (Id.) Second,
he testified that individuals with particular infections, such as sepsis or pneumonia,
already have elevated cytokines in their blood. (Id. at 388-89.) In sepsis specifically,
Dr. Forsthuber explained that there is often disseminated intravascular coagulation,
“which is essentially a stroke formation all over the place, where cytokines can
contribute.” (Id. at 389.) These circumstances can likely lead to increased permeability
in the blood-brain barrier by way of injurious cytokine levels, but the “level of cytokines
is fairly high.” (Id.) Dr. Forsthuber testified that we have “infections all the time,” and
yet, it is unclear “why, for example, an infection, upper respiratory or GI tract type
infection . . . in the week preceding a stroke . . . increase the risk.” (Id. at 389-90.)
32

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 33 of 57
Dr. Forsthuber opines that there is no logical sequence of cause and effect
between A.J.K.’s vaccination and her injury on October 1st. (Id. at 369.) He stresses
that there is no evidence that A.J.K. developed a systemic inflammatory response
following the subject vaccinations. (Id.) On the contrary, Dr. Forsthuber testified that
there is “clear evidence” against it, noting that A.J.K.’s CRP was normal. (Id.)
Dr. Forsthuber opines that the temporal relationship between A.J.K.’s vaccines
and her injury that is drawn by petitioners is not medically appropriate. (Id. at 369-70.)
He testified that adverse reactions, if they occur, are typically observed approximately 7
to 10 days after MMR and varicella vaccinations. (Id. at 370.) He further asserted that,
in the two case reports of PRES following measles vaccination, onset was 10 days after
vaccination in one case, and 4 to 10 days after vaccination in the other case. (Id.)
Regarding the flu vaccine, Dr. Forsthuber observed that the majority of adverse
reactions, including mild fever or body aches, occur within 24 hours post-vaccination.
(Id. at 370-71 (citing Christian et al., supra Ex. E, Tab 15.).) Lastly, he testified that he
was “not 100 percent sure about what the peak is for the hepatitis A vaccine,” but he
suggested that adverse reactions to adjuvanted vaccines generally occur during the first
24 hours. (Id. at 371.)
Lastly, Dr. Forsthuber is not convinced that A.J.K. had active HFMD at the time
of her vaccinations. (Id. at 366.) He testified that “the rash is only infectious . . . while
it’s blistering, while there are live blisters.” (Id.) He explained that a rash, in and of
itself, does not evidence an active immune process. (Id. at 387.) Unlike in vasculitis,
where a rash can indicate an immune reaction, HFMD involves viral rashes. (Id.) Dr.
Forsthuber testified that “obviously [A.J.K.] had an infection, so her immune response is
still ongoing. She will have . . . antibody production at that time. She will have
lymphocytes that are primed and reactive against the measles vaccine and virus, and
they will circulate in her body.” (Id.) Without reencountering the virus, however, Dr.
Forsthuber testified that they will not be reactivated. (Id.)
ii. Peter Bingham, M.D.27
Dr. Bingham opines that there is no evidence of brain inflammation in A.J.K.’s
records. (Ex. C, p. 6.) Therefore, the relevance of the inflammatory mediators
described in Dr. Huq’s report is unclear since there was never any objective evidence of
brain inflammation in this case. (Id. (citing Ex. 24, p. 14).) Dr. Bingham observes that
27 Dr. Bingham was presented at hearing without objection as an expert in pediatric neurology. (Tr. 276.)
He received his medical degree from Columbia College of Physicians & Surgeons in 1987. (Ex. D, p. 1.)
He is a board-certified pediatric neurologist. (Ex. C, p.1.) He completed his residency in pediatric
neurology and his fellowship training in neuromuscular diseases at The Children’s Hospital of
Philadelphia. (Id.) He has twenty-five years post-graduate experience as a clinician in general child
neurology. (Id.) Dr. Bingham has published over thirty peer-reviewed medical articles. (Ex. D, pp. 3-6.)
He has also written or co-authored all or parts of more than ten textbooks concerning neurology or
pediatrics. (Id. at 6-7.) Presently, he serves as a professor of neurology and pediatrics at the University
of Vermont. (Id. at 1.) He also serves as the staff physician (pediatric neurology) at Fletched Allen
Health Care / University of Vermont in Burlington, Vermont. (Id. at 2.)
33

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 34 of 57
A.J.K. “had normal spinal fluid, and no suggestive signs of brain inflammation in terms
of pattern of signal change on brain imaging (MRI) studies.” (Id. at 6-7.) Moreover, he
hypothesizes that, if there was brain inflammation, Dr. Huq should not have disregarded
the possibility that a recent infection that A.J.K. experienced two weeks before her acute
neurological illness, rather than vaccination, may have triggered either a brain vasculitis
or vasculopathy, or a systemic hypercoagulable state mediated by inflammation. (Id. at
7.) Dr. Bingham suggests that an antecedent viral infection, such as A.J.K.’s HFM
infection two weeks before she presented for stroke, may be an important etiological
factor in pediatric stroke. (Id. (citing Heather J. Fullerton et al., Infection, Vaccination,
and Childhood Arterial Ischemic Stroke, 85 NEUROLOGY 1459 (2015) (Ex. A, Tab 4; also
filed as Ex. E, Tab 2)).) He further notes one particular virus—enteroviral infection,
such as coxsackie viral infection—that may underlie HFMD has been associated with
cerebral stroke. (Id. at 7, 10.)
Dr. Bingham also observes that A.J.K. did not present with a fever on the first trip
to the emergency room on October 1, 2014. (Tr. 280-81.) Additionally, he testified that
A.J.K. was hypertensive during her hospitalization in Georgia. (Id. at 285.) He
observed A.J.K.’s systolic blood pressure at 141, which may not appear to be very high
for an adult but “is a significant elevation for a 12-month-old.” (Id.) Dr. Bingham opined
that this was “severe hypertension.” (Id.) He testified that anything above a 101 would
put her, approximately, in the 99th percentile for systolic blood pressure for 12-month-
old infants. (Id.) Based on the medical records and Mrs. Kaltenmark’s testimony, Dr.
Bingham suggested that A.J.K. had a relatively high body mass index, which can be
associated with higher blood pressure in infants. (Id. at 285-86.) Moreover, he noted
that A.J.K. was prescribed lisinopril to treat her high blood pressure. (Id. at 286.)
Dr. Bingham agrees that “the bilateral nature and absence of thrombus suggests
the possibility of PRES.” (Ex. C, p. 7.) He agreed on cross-examination that A.J.K.’s
MRI from October 2, 2014, could also be consistent with PRES. (Tr. 299.) Specifically,
he testified that the MRI are consistent with a “hint of a[n] atypical pattern of signal
change.” However, he indicated that the “test of time” is the distinguishing factor. (Id.)
Dr. Bingham opines that “[t]he notion of reversibility reflects the problematic nature of
this acronymic syndrome” because it may arise in diverse settings, e.g., medication-
induced and hypertension, that may prove not to be reversible. (Ex. C, p. 7.) In
contrast to petitioners’ experts, Dr. Bingham described PRES as an “evanescent
diagnosis.” (Tr. 290.) Dr. Bingham testified that his cited literature suggests that “if it
doesn’t reverse, then in the end, that would [be] a criterion that should be fulfilled if we
are to call it PRES in the final analysis, if it proves not to be reversible.” (Id. at 291.)
“Particularly in the setting of hypertension, the occurrence of lasting encephalomalacic
lesions—such as bioccipital stroke as identified in this case on follow-up MRIs of the
brain—belies the assertion of reversibility in PRES.” (Id.) In this case, he indicates that
the bilateral lesions are most likely due to hypertension, which is perhaps the most
commonly identified etiology of PRES. (Id.) This is presumably why A.J.K.’s treating
physicians speculated that the neurological diagnosis could relate to severe
hypertension. (Id.) Dr. Bingham emphasizes that PRES, as a neuroradiological
syndrome, may have multiple possible underlying causes and that its pathogenesis is
34

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 35 of 57
not entirely clear. (Id.) However, he agrees with Dr. Huq that genetic or metabolic
disorders seem unlikely considering all the findings taken together. (Id.)
Instead, Dr. Bingham testified that petitioner most likely suffered a stroke due to
high blood pressure, in the context of a recent infection (HFMD). (Tr. 288; Ex. C, p. 8.)
He opines, “[e]ven if the initial neuroradiological diagnosis was PRES, A.J.K.’s course
reveals the problematic nature of this diagnosis in general, because of the irreversibility
of her (occipital) brain injury.” (Ex. C, p. 8.) With his clinical experience, Dr. Bingham
recognizes the ambiguity regarding reversibility in the literature on PRES. (Id.) He
explains that he would tend to put aside the “PRES” rubric and would describe the brain
injury as a stroke. (Id.) Regardless of terminology, he opines that the brain injury
evidently occurred no later than 2 days after she received her vaccinations on
September 29, 2014, and “possibly before vaccination, as her clinicians speculated.”
(Id.) Dr. Bingham insists that “[t]here is no evidence from brain imaging or spinal fluid
analysis that this brain pathology was inflammatory in nature.” (Id.) He concludes that
brain lesions seen on A.J.K.’s MRI were most likely due to the hypertension that was
“presumably fluctuating in its course” because hypertension was not identified in notes
reviewed at her initial presentation on October 1, 2014. (Id.) Dr. Bingham explains that
hypertension is recognized as “one of the most common underlying causes” of PRES.
(Id. at 10 (citing Thomas G. Liman et al., Posterior Reversible Encephalopathy
Syndrome, 32 CURRENT OP. NEUROLOGY 25 (2019) (Ex. C, Tab 4)).) Relying on the fact
that severe hypertension is a prominently identified cause of the neuroradiological
abnormalities seen on A.J.K.’s MRI and that severe hypertension was documented
within days of her presentation, Dr. Bingham opines that it is more “likely that
hypertension contributed significantly to, and may have been the primary underlying
cause of, her condition.” (Id.) He explained that, despite both diagnostic terms being
appropriate in this case, “the ultimate irreversibility of the occipital lesions on MRI belie
the semantic implication of the acronym PRES.” (Id.) Thus, Dr. Bingham indicates that
stroke is a “more relevant and accurate description” of A.J.K.’s brain disease. (Id.)
However, Dr. Bingham agreed that a neurological injury similar to what A.J.K.
experienced can itself cause hypertension or variable blood pressure. (Tr. 301.) He
explained that higher “intracranial pressure and/or ischemic changes of the brain” can
result in “a reactive elevation of blood pressure.” (Id.) Though Dr. Bingham agreed that
external factors, such as agitation, can influence blood pressure, he opined that treating
A.J.K. for hypertension if her elevated blood pressure was an “artifact of agitation”
would have been a mistake. (Id. at 301-02.) He subsequently agreed that A.J.K. was
never treated for hypertension during her initial hospitalization and that A.J.K.’s treating
cardiologists dismissed hypertension in her diagnoses. (Id. at 302-04 (citing Ex. 7, p. 25
(“Cardiology was consulted and they agreed that she is not hypertensive.”)).)
Dr. Bingham testified that petitioners’ theory of causation is unreliable because
there is no “detailed pathophysiological data in this or any other published case report.”
(Id. at 293.) He further observed the lack of epidemiological evidence establishing
vaccine-causation of PRES or pediatric stroke. (Id.) Contrary to Dr. Huq’s assertion,
Dr. Bingham stresses that Bartynski et al. does not present evidence that “PRES is
35

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 36 of 57
usually associated with a systemic inflammatory process.” (Ex. C, p. 9 (quoting Ex. 24,
p. 10.).) He stresses that “[t]his reference is problematic because it nowhere presents a
concise or rigorous neuroradiological definition of PRES.” (Id.) Dr. Huq refers to
reports of patients with “febrile seizures and antibody mediated autoimmune
encephalitis” in order to underline the importance of immune activation and seizures.
(Ex. 24, p. 12.) However, Dr. Bingham stresses that the term “febrile seizures” should
not be used in the setting of encephalitis. (Ex. C, p. 9.) “Furthermore, a response to
ACTH or corticosteroids does not prove that the epilepsy is necessarily mediated by
inflammation, since both of these compounds have effects on the nervous system that
don’t relate to neuronal inflammation per se.” (Id.) Dr. Bingham could not say whether
cytokines play a role in the pathogenesis of PRES. (Tr. 301.) He explained that it
would be difficult to opine on the role of cytokines because they are not measured in
clinical cases. (Id.) He further explained that it would be especially difficult to opine on
the role of cytokines in cases where there is no hypertension. (Id.)
Related to timing, Dr. Bingham insists that Dr. Trasmonte’s note (Ex. 7, p. 25)
would have put the timing of these first seizures to the day of vaccination (September
29, 2014) or the day after (September 30, 2014). (Ex. C, p. 9.) “Using the standard for
timing of dys-immune or inflammation-mediated adverse effects of vaccinations” from
the Institute of Medicine, he opines that “even 2 days,” i.e., from when A.J.K. received
the vaccination on September 29th to October 1st, seems to be “too short to accept as
a likely timing interval.” (Id.) Dr. Huq cites reports purportedly linking vaccination to
seizures “8 to 14 days” after MMR vaccination. (Ex. 24, p. 16.) Dr. Bingham
acknowledges that one reference suggests increase in seizures within 24 hours after
influenza vaccination. (Ex. C, p. 9 (citing Duffy et al., supra Ex. 63.).) However, he
stresses that A.J.K. “likely suffered neurodevelopmental consequences of her acute
illness” with the MRI changes on or about October 1, 2014. (Id.)
Based on the timing and absence of evidence of brain inflammation in this case,
as well as the absence of epidemiological evidence linking vaccination to pediatric
stroke or PRES, Dr. Bingham opines that there is no logical sequence of cause and
effect linking A.J.K.’s vaccination to her stroke or PRES. (Id. at 10.) Moreover, he
stresses that none of A.J.K.’s treating physicians endorsed the idea that her brain
pathology, as seen on MRI, was caused by her vaccinations. (Id.)
Dr. Bingham identifies two non-vaccine potential causes of A.J.K.’s stroke. (Id.)
First, he opines that her hypertension could have caused her stroke. (Id.) Because
A.J.K. had a normal blood pressure (100/52) during her transport on October 1, 2014,
Dr. Bingham suggests that she had a “volatile hypertension” during this time. (Id. (citing
Ex. 9, p. 42.)) He acknowledges, however, that the “ultimate cause” of A.J.K.’s
hypertension “remains unknown.” (Id.) Second, Dr. Bingham opines that A.J.K.’s
antecedent systemic infection could have caused her stroke. (Id.) A.J.K. was
diagnosed with HFMD, which is most commonly understood to be caused by enteroviral
infection (e.g., coxsackie infection). (Id.) Considering the evidence of enteroviral
nucleic acid in the spinal fluid, Dr. Bingham cites a case report by Piccolo et al., but he
cautions that it is not proven that A.J.K. had enteroviral infection. (Id. (citing Benedetta
36

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 37 of 57
Piccolo et al., Transient Posterior Cerebral Arteriopathy: An Unusual Case Enterovirus-
Related, 21 BRAIN & DEV. 214 (2019) (Ex. C, Tab 1)).) Moreover, he stresses that
“experts have noted that antecedent viral infection may be an important etiological
factor in pediatric stroke.” (Id. (citing Fullerton et al., supra Ex. C, Tab 2.)) When I
asked Dr. Bingham about the likely mechanism by which infection could contribute to
stroke, he testified that the “mechanism in any individual case is often without any kind
of clear data,” except that there is evidence of an effect on the clotting cascade in the
case of a thrombotic stroke. (Id. at 309.) In A.J.K.’s case, however, Dr. Bingham noted
that there is no evidence of clotting. (Id.)
VI. Discussion
Under the three-part Althen test, petitioners must demonstrate both that the
vaccine(s) at issue “can” and “did” cause the alleged injury. E.g., Pafford v. Sec’y of
Health & Human Servs., 451 F.3d 1352, 1355-56 (Fed. Cir. 2006) (approving the
special master’s querying under Althen regarding, first, whether the vaccine “can cause”
the alleged injury and, second, whether it “actually caused” the injury in the particular
case). Whether a vaccine can cause the injury is addressed by petitioners’ medical
theory presented under Althen prong one. Even if the vaccines can cause the injury as
a general matter, they must also demonstrate that the vaccines did cause the injury in
this specific case. This is addressed under Althen prongs two and three, with prong
three examining the timing of onset relative to vaccination and prong two examining
whether a logical sequence of cause and effect implicates the vaccine(s) as causal.
In this case, I have determined that petitioners have not met their burden of proof
under Althen prong one. Accordingly, because there is not preponderant evidence that
vaccines can cause PRES, petitioners necessarily cannot demonstrate that they did so
in this case. Therefore, Althen prongs two and three are addressed only in the interest
of completeness. There is preponderant evidence under Althen prong three that the
timing of onset could be appropriate for what petitioners theorize; however, timing alone
does not support causation-in-fact. Even after resolving some of the factual disputes
regarding A.J.K.’s medical history in petitioners’ favor under Althen prong two, the
limitations of the available clinical evidence still indicate that her condition is best viewed
as idiopathic, regardless of whether it is viewed as stroke or PRES.
a. Althen prong one
Under Althen prong one, petitioner must provide a “reputable medical theory,”
demonstrating that the vaccine received can cause the type of injury alleged. Pafford,
451 F.3d at 1355-56 (quoting Pafford v. Sec’y of Health & Human Servs., No. 01-
0165V, 2004 WL 1717359, at *4 (Fed. Cl. Spec. Mstr. July 16, 2004)). Such a theory
must only be “legally probable, not medically or scientifically certain.” Knudsen v. Sec’y
of Health & Human Servs., 35 F.3d 543, 548-49 (Fed. Cir. 1994). Petitioner may satisfy
the first Althen prong without resort to medical literature, epidemiological studies,
demonstration of a specific mechanism, or a generally accepted medical theory. See
Andreu ex rel. Andreu v. Sec’y of Health & Human Servs., 569 F.3d 1367, 1378-79
37

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 38 of 57
(Fed. Cir. 2009) (citing Capizzano v. Sec’y of Health & Human Servs., 440 F.3d 1317,
1325-26 (Fed. Cir. 2006)). However, “[a] petitioner must provide a ‘reputable medical or
scientific explanation’ for [her] theory. While it does not require medical or scientific
certainty, it must still be ‘sound and reliable.’” Boatmon v. Sec’y of Health & Human
Servs., 941 F.3d 1351, 1359 (Fed. Cir. 2019) (quoting Knudsen, 35 F.3d at 548-49).
The parties’ differences regarding diagnosis are addressed separately under
Althen prong two. For purposes of the discussion of Althen prong one, this section will
focus on posterior reversible encephalopathy syndrome (“PRES”), which is the
diagnosis preferred by petitioners’ neurology expert, Dr. Huq. Even though Dr. Huq
leaves open the possibility that A.J.K. ultimately suffered a stroke, he opines that the
stroke, if it occurred, would have occurred in the context of PRES. (Ex. 133, p. 1.)
Despite extensive discussion of stroke in this case, petitioners have not ultimately relied
on any theory of vaccine causation that does not involve the vaccinations at issue
having been a substantial contributing factor to PRES.28
Two considerations are addressed in turn – (1) whether PRES is recognized as a
cytokine-mediated condition such that petitioners’ theory would even have the potential
to be possible, and (2) if so, whether vaccinations in particular can be implicated as a
cause of PRES. For the reasons discussed below, I conclude that petitioners have
preponderantly established the first point, but not the second. This conclusion should
not necessarily be surprising. There is very little by way of prior analysis by other
special masters regarding PRES specifically. However, many cases in the Program
have sought to prove, in a variety of contexts, that a post-vaccination cytokine response
can disrupt the blood-brain barrier and lead to injury to the central nervous system.
These cases have often, though not uniformly, failed with respect to Althen prong one.
See, e.g., Castaneda ex rel. N.A.C. v. Sec’y of Health & Human Servs., No. 15-1066V,
2020 WL 3833076, at *23-27 (Fed. Cl. Spec. Mstr. May 18, 2020) (rejecting a theory
that vaccination can cause pediatric acute onset neuropsychiatric syndrome (PANS)
because, though inflammation is hypothesized as a cause of PANS and vaccines
produce cytokines, “petitioner has not presented evidence through her expert or through
literature as to the level of that production, or what level is required to be pathologic”),
review denied, 152 Fed. Cl. 576 (2020); Martin v. Sec’y of Health & Human Servs., No.
15-789, 2020 WL 4197748, at *30 (Fed. Cl. Spec. Mstr. May 8, 2020) (explaining in a
case of SIDS that “[p]etitioners’ experts did not persuasively establish that cytokines
generated in response to Flumist would (a) likely travel to the CNS, or (b) from outside
28 To be clear, although Dr. Huq has consistently preferred a diagnosis of PRES, his first report cited
literature which he contends supports a direct relationship between post-vaccination inflammation and
stroke. (Ex. 24, pp. 7-8.) However, after respondent’s experts disputed that contention (Ex. A, pp. 6-7),
Dr. Huq’s second report reiterated that “it is more likely AJK had PRES rather than stroke” and further
added that “[i]f we call it stroke, the stroke probably occurred via PRES.” (Ex. 133, p. 1.) Subsequently,
petitioners’ prehearing brief explained that, although there is no dispute that A.J.K. suffered an occipital
stroke two days after vaccination, “[p]etitioners’ theory of causation, which is explained and supported by
an expert neurologist and an expert immunologist, is that A.J.K.’s vaccinations caused an innate immune
reaction involving a release of proinflammatory cytokines that acted synergistically with A.J.K.’s resolving
virus (HFMD) leading to a disruption of the blood brain barrier, endothelial injury and, ultimately, PRES.”
(ECF No. 126, p. 14.)
38

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 39 of 57
the blood-brain barrier stimulate a response within, or (c) upregulate in sufficient
amounts (and type) to impact a child with a hippocampal abnormality and thereby
further lower his seizure threshold” (footnote omitted)). Even where there is some
reason to suspect a condition may be cytokine mediated, this does not automatically
lead to the conclusion that vaccines can cause the injury merely because vaccines
produce some cytokine elevations. See, e.g., Dean ex rel. I.D. v. Sec’y of Health &
Human Servs., No. 13-808V, 2017 WL 2926605, at *17-18 (Fed. Cl. Spec. Mstr. June 9,
2017) (explaining in the context of alleged encephalopathy that, even though “[m]any of
the general principles (as evidence by Petitioner’s expert reports plus the filled medical
or scientific literature) that underlies this theory are not disputed,” “[t]he most
immediately apparent weakness in this case’s causation theory is the heavy lifting it
assigns to the post-vaccination cytokine production process as the cause of almost all
of the pathologic effects of the vaccines at issue”); Bohn ex rel. G.B. v. Sec’y of Health
& Human Servs., No. 16-0265V, 2021 WL 4302367, at *16-21 (Fed. Cl. Spec. Mstr.
Aug. 23, 2021) (explaining that petitioner’s experts sought “to marry via ipse dixit
literature showing elevated proinflammatory post-vaccination cytokines on the one hand
with literature showing SCLS and cytokine storm as being injurious cytokine-mediated
conditions on the other,” but that “the literature filed in this case demonstrates only that
cytokine levels observed post-vaccination are dramatically lower than the levels of
cytokines measured in those experiencing injurious systemic cytokine reactions”);
Chavez ex rel. T.C. v. Sec’y of Health & Human Servs., No. 16-1479V, 2022 WL
3368502, at *24 (Fed. Cl. Spec. Mstr. July 19, 2022) (explaining that “[m]edical literature
filed by petitioner supports the proposition that proinflammatory cytokines may play a
role in the development of fever, which may lead to seizures and epilepsy” but that “[t]he
literature does not support the notion that afebrile seizures are triggered by
vaccination”).
i. Petitioners have presented preponderant evidence that PRES can
be cytokine-mediated
PRES is a clinical-radiological syndrome characterized by a variable combination
of headaches, seizures, altered mental status, visual impairment, focal neurological
signs and symmetric vasogenic edema in bilateral posterior cerebral circulation territory.
(See Chen et al., supra Ex. 47, p. 93.) However, the symptoms and signs of PRES are
not specific and can be seen in many other neurological disorders. (Fugate &
Robinson, supra Ex. 68, p. 918.) As the experts in this case explained (See, e.g., Tr.
70), PRES is a relatively new diagnostic entity, though it is one that is increasingly
recognized in clinical practice. (See Chen et al., supra Ex 47, p. 93; Hobson et al.,
supra Ex. 84, p. 590.) However, PRES remains poorly understood. (Hobson et al.,
supra Ex. 84, p. 590.) There is no definitive explanation for how PRES happens.
As Dr. Huq and Dr. Forsthuber have both described, there are two leading
theories regarding the pathophysiology of PRES: 1) the “hyperperfusion theory,” where
a rapid increase in arterial blood pressure leads to cerebral hyperperfusion, vascular
leakage, and vasogenic edema; and 2) the “toxic” theory, where endothelial dysfunction
is caused by circulating endogenous or exogenous “toxins.” (Fischer & Schmutzhard,
39

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 40 of 57
supra Ex. 66, p. 1609 (also filed as Ex. A, Tab 7).) A variation of the “toxic” theory
proposes that endothelial cell dysfunction of arterial blood vessels in the brain is
triggered by excessive release of proinflammatory cytokines or other inflammatory
mediators, resulting in endothelial activation, release of vasoactive mediators, increased
vascular permeability, and edema formation. (Id.) “This mechanism is regarded as the
key feature causing PRES in patients with autoimmune disorders or sepsis.” (Id. at
1609-10.) Petitioners in this case rely on the “toxic theory,” contending that A.J.K.’s
vaccinations resulted in a release of proinflammatory cytokines and inflammation that
acted synergistically with A.J.K.’s resolving viral infection (HFMD) leading to a disruption
of the blood-brain barrier, endothelial injury and, ultimately, PRES. (ECF No. 126, p.
17; Tr. 123-24, 237.) The likely mechanism involves proinflammatory cytokines
generated by the vaccinations altering the blood-brain barrier and either facilitating the
entry of virus into the brain or directly causing cytokine-mediated endothelial injury.29
(ECF No. 126, p. 17 (citing Ex. 165 (Dr. Gershwin’s first supplemental report)).)
This theory is supported in the broadest sense by the observation that PRES is
usually associated with a systemic inflammatory process, such as sepsis, eclampsia,
transplantation, and autoimmune disease. (Bartynski, supra Ex. 37, p.1046-47.) Chen
et al. postulated a theory of immune system activation in the pathogenesis of PRES.
(Zheng Chen et al., Immune System Activation in the Pathogenesis of Posterior
Reversible Encephalopathy Syndrome, 131 BRAIN RSCH. BULL. 93, 94 (2017) (Ex. 47).).
During inflammation, Dr. Huq theorizes that IL-1 “induces expression of ICAM-1 and
VCAM-1 on endothelium which in turn facilitates the interaction of leukocytes with
endothelium leading to endothelial damage.” (Ex. 24, p. 10; see also Chen et al., supra
Ex. 47, p. 96.) Immune system activation in PRES also causes the release of
cytokines, such as TNF-ɑ, that upregulate the expression of vascular endothelial growth
factor (“VEGF”), which plays an important role in increasing vascular permeability. (Ex.
24, p. 10; see also Bartynski et al., supra Ex. 37, p. 1047; Chen et al., supra Ex. 47, p.
96-97.) Additionally, many PRES-related conditions induce T cell activation, cytokine
release, and subsequent leukocyte adhesion and activation, resulting in endothelial
damage and fluid leakage. (Chen et al., supra Ex. 47, p. 93.) Thus, even as
uncertainty remains, the medical literature on PRES supports the thinking that immune
system activation and endothelial dysfunction can play a critical role in the pathogenesis
of PRES. (See id. at 96-98.)
On respondent’s behalf, Dr. Bingham agrees from a neurology perspective that
there is a “reasonable” model for PRES involving endothelial dysfunction, though he
suggests an immune theory remains to be proven. (Tr. 299-300.) Dr. Bingham agreed
that hypertension only accounts for about 80% of PRES cases, but he disclaimed any
ability to determine whether cytokines are involved in the pathogenesis of the remaining
cases, explaining that “we don’t measure cytokines in clinical cases, so it’s hard to
29 The suggestion that PRES may have resulted from entry of the virus into the brain has not been the
focus of this case. Although Dr. Huq posited this in the alternative, he explained that he is not aware of
any literature showing PRES to be a neurologic complication of HFMD and, when it is associated with
infection, PRES usually results from bacterial infection. (Tr. 122, 124.) Dr. Gershwin agreed that direct
entry of the virus into the brain is possible but indicated that direct entry of the virus into the brain is not
necessary to his opinion. (Tr. 258.)
40

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 41 of 57
make an opinion about . . . what their role may be, especially in cases where there is no
hypertension.” (Tr. 301.) From an immunology perspective, however, respondent’s
other expert, Dr. Forsthuber, agrees that cytokines affecting the blood-brain barrier is
“for sure a valid concept.” (Tr. 354.) Moreover, he agrees that sepsis (discussed above
as one of the conditions associated with PRES) can produce sufficient cytokines to
disrupt the blood-brain barrier. (Tr. 387-90.) Further, Dr. Forsthuber agrees that a
number of the conditions associated with PRES are characterized by systemic immune
activation or dysregulation, though he stresses that immune mechanisms more likely
account for a minority of cases (about 20%). (Tr. 378-79.)
In light of all of the above, and considering the record as a whole, there is
preponderant evidence that PRES, though somewhat novel and not fully understood, is
a recognized condition and that current thinking includes disruption of the blood-brain
barrier via cytokine activity as among the viable theories thought to potentially explain at
least a subset of PRES cases. However, this is not the entirety of what petitioner must
show under Althen prong one. The key remaining question is whether petitioner can
show that the cytokine response to vaccination is capable of causing or contributing to
this process.
ii. Petitioners have not presented preponderant evidence that
vaccines, even in combination with infection, can cause PRES.
Although some PRES cases may be theorized as cytokine-mediated as
petitioners urge, none of the above-discussed literature regarding PRES posits
vaccination as a cause or trigger of PRES. Thus, respondent’s experts urge that
vaccines are not generally accepted as causes of PRES. (Tr. 292 (Dr. Bingham); Tr.
325 (Dr. Forsthuber).) During the hearing, petitioners’ experts likewise confirmed that
there is no literature directly on point. (Tr. 140 (Dr. Huq); Tr. 253-54 (Dr. Gershwin).)
The two available case reports provide some evidence supporting petitioner’s
theory, but they are insufficient without more. (See Aydin et al., supra Ex. A, Tab 8
(also filed as Ex. 34); Hamano et al., supra Ex. A, Tab 9 (also filed as Ex. 74).) Case
reports are, in general, weak evidence given that they are, by nature, anecdotal.30
Moreover, any reliance on these specific case reports is undercut by Dr. Gershwin’s
testimony specifically disclaiming that A.J.K.’s vaccines alone could have caused her
condition, which is the scenario posited by the case report authors. (Tr. 235 (Dr.
30 Petitioners in this program often highlight the usefulness of case reports in cases of rare diseases or
unusual occurrences. See, e.g., Patton v. Sec’y of Health & Human Servs., 157 Fed. Cl. 159, 166-67
(2021). However, case reports “‘do not purport to establish causation definitively, and this deficiency
does indeed reduce their evidentiary value,’” even though they are not entirely devoid of evidentiary
value. Paluck ex rel. Paluck v. Sec’y of Health & Human Servs., 104 Fed. Cl. 457, 475 (2012) (quoting
Campbell v. Sec’y of Health & Human Servs., 97 Fed. Cl. 650, 668 (2011), aff’d, 786 F.3d 1373 (Fed. Cir.
2015)); see also Crutchfield v. Sec’y of Health & Human Servs., No. 09-0039V, 2014 WL 1665227, at *19
(Fed. Cl. Spec. Mstr. Apr. 7, 2014) (“[S]ingle case reports of Disease X occurring after Factor Y . . . do not
offer strong evidence that the temporal relationship is a causal one—the temporal relationship could be
pure random chance.”), aff’d, 125 Fed. Cl. 251 (2014).
41

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 42 of 57
Gershwin stating, “I don’t think the vaccinations alone would have done it.”).) Instead,
petitioners’ experts opine that A.J.K.’s ongoing adaptive immune response, due to her
resolving HFMD and secondary infections, coupled with the additional effects of her
multiple vaccinations, combined to synergistically cause sufficient endothelial disruption
of the blood-brain barrier to ultimately cause PRES.
Given the novelty of this assertion, Dr. Gershwin’s explanation of the underlying
immunology is critical to petitioner’s Althen prong one showing. “Of course, petitioners
are never required to establish [a] mechanism—but they often attempt to do so, and
therefore it is reasonable to evaluate their success in in their effort.” Howard v. Sec’y of
Health & Human Servs., No. 16-1592V, 2022 WL 4869354, at *24 (Fed Cl. Spec. Mstr.
Aug. 31, 2022), review denied sub nom. Howard v. United States, No. 16-1592V, 2023
WL 4117370 (Fed. Cl. May 18, 2023), appeal filed sub nom. Howard v. HHS, No. 23-
1816 (Fed. Cir. Apr. 28, 2023). The Court of Federal Claims has previously explained
that while the Althen Court rejected the need for scientific certainty, “in ‘a field bereft of
complete and direct proof of how vaccines affect the human body,’ . . . [t]he standard of
proof does not operate as a sliding scale that varies depending upon the quantity and
quality of the scientific evidence that is available.” Caves v. Sec’y of Health & Human
Servs., 100 Fed. Cl. 119, 143 (2011) (quoting Althen, 418 F.3d at 1280), aff’d, 463 F.
App’x 932 (Fed. Cir. 2012).
In advancing his theory, Dr. Gershwin disclaims any need or ability to distinguish
between different cytokines as a practical reality and further suggests that his theory
does not require a “burst” or “slug” of post-vaccination cytokines. (Tr. 211, 214, 222-
23.) During the hearing, Dr. Gershwin cited a paper by Herve et al. for the proposition
that cytokines can have systemic effect without creating constitutional symptoms, such
as fever or malaise. (Tr. 216-17 (citing Herve et al., supra Ex. 182, p. 39).) Further to
that, he cited experimental studies, such as those by Skibinksi et al., Nichols et al,
Melgaco et al, De Rosa et al., and Wang et al., as evidence that vaccinations increase
circulating cytokines. (Tr. 219-20; Ex. 147, p. 2 (citing P.J. Dias & S. Gopal, Refractory
Thrombotic Thrombocytopenic Purpura Following Influenza Vaccination, 64
ANAESTHESIA 444, 445 (2019) (Ex. 137); Nichols et al., supra Ex. 148; Melgaço et al.,
supra Ex. 149; De Rosa et al., supra Ex. 150; Skibinksi et al., supra Ex. 183). Further
still, Dr. Gershwin cited studies by Bonney et al. and de Vries et al. to demonstrate that
cytokines can, in combination with viral infection, increase the permeability of the blood-
brain barrier.31 (Tr. 251-52; de Vries et al., supra Ex. 168; Stephanie Bonney et al.,
Gamma Interferon Alters Junctional Integrity via Rho Kinase Resulting in Blood-Brain
Barrier Leakage in Experimental Viral Encephalitis, MBIO, July/August 2019 (Ex. 176);
see also Ex. 165.) The de Vries and Bonney studies implicate specific cytokines (TNF-
α, IL-1β, INF-γ, and IL-6) as potential mediators of the endothelial junctions that
determine the permeability of the blood-brain barrier. (de Vries et al., supra Ex. 168;
Bonney et al., supra Ex. 176.)
31 Alternatively, Dr. Huq also suggested that the vaccines could have contributed to viral mutagenesis.
However, he agreed that he was not presenting that possibility to a more likely than not standard and
acknowledged, “I think I don’t have any evidence to show for that.” (Tr. 123.)
42

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 43 of 57
On respondent’s behalf, Dr. Forsthuber persuasively challenges all of this. As
noted above, Dr. Forsthuber does not dispute that cytokines affect the blood-brain
barrier. (Tr. 354-58.) Nor does he dispute that vaccinations produce some cytokines.
(Id. at 336-37.) However, he stresses a mismatch between the magnitude of the
cytokine response that can be expected following vaccination and the magnitude of
cytokine activity necessary to disrupt the blood-brain barrier.
Importantly, notwithstanding the overall contours of his opinion, Dr. Gershwin did
likewise effectively acknowledge that the question of magnitude matters. Asked if there
would be correlation between the degree of blood-brain barrier opening and the degree
of edema, he responded, “Absolutely.” (Id. at 267.) He explained that “this had to be a
significant disruption of the endothelial cells, because I don’t think a minor disruption
would make any difference.” (Id.) When he was asked, in turn, whether there is a
correlation between the magnitude of a cytokine response and the degree of endothelial
dysfunction, he responded that “it’s either related to the magnitude or the balance.” (Id.
at 267-68.) By “balance,” Dr. Gershwin explained that the question of magnitude may
relate to the “relative,” rather than “absolute,” levels among different cytokines. (Id. at
268.) However, even as Dr. Gershwin sought to avoid the specific question of
quantifying cytokines, he relied throughout his testimony on more indirect assertions
that some form of meaningfully robust cytokine response is present. For example, he
testified during rebuttal: “So on the other point [Dr. Forsthuber] made regarding that
issue of doses, you know, his view of vaccination is much more benign than mine. I
don’t mean to imply that my impression of vaccination is malignant. It certainly isn’t.
But it is an active, aggressive process.” (Id. at 401.) In that regard, examination of the
de Vries and Bonney papers cited by Dr. Gershwin confirms that he actually relies on
studies that identify specific cytokines (TNF-α, IL-1β, INF-γ, and IL-6) at specific levels
(in the nanogram per milliliter range) as affecting the blood-brain barrier. On this record,
he has only established these particular parameters. Without the framework support
from these papers, Dr. Gershwin’s suggestion that any imbalance in cytokines could
support his theory would tip into pure speculation.32 In fact, when Dr. Gershwin was
32 While Dr. Gershwin may be correct to caution that understanding of cytokines in any real world context
is nuanced and incomplete, there were indications during the hearing that Dr. Gershwin took this caveat
too far. For example, Dr. Gershwin was asked on direct examination, “For purposes of understanding
your theory of causation, how concerned do we have to be about the different kinds of cytokines that can
be produced following vaccination?” He responded, “You can’t. You can’t for lots of reasons, one of
which is that . . . . we can’t be too concerned in terms of saying, which cytokine was it or which vaccine
was it. It’s a bit like the Casablanca at the end where it says, Round up all the usual suspects.” (Tr. 222-
23.) However, it is very difficult to square this with the evidence of record that includes specific studies
cited by Dr. Gershwin demonstrating experimentally that specific cytokines can affect the blood-brain
barrier. Nor is it the case that science is completely in the dark regarding the functions of different
cytokines. (See , e.g., Atmaram Yarlagadda et al., The Blood Brain Barrier and the Role of Cytokines in
Neuropsychiatry, 6 PSYCHIATRY (EDGEMONT) 18, 18 (2009) (Ex. 169) (categorizing cytokines as either pro-
inflammatory, anti-inflammatory, or hematopoetic).) Regarding a different point, Dr. Gershwin asserted in
a discussion of changes in the field of immunology that “people don’t use textbooks anymore, by the
way.” (Tr. 254.) However, Dr. Forsthuber pushed back strongly on that comment, stating “maybe at
University of Texas we’re teaching differently, but excuse me. We are using textbooks still to teach our
students immunology. And, yes, the field moves rapidly, and I know of this, but the basics are taught
[and] the textbooks are used to teach our students immunology. And even I go back to textbooks, and I
look up fundamental things . . . .” (Tr. 358.) Dr. Forsthuber’s point is well taken, in that while Dr.
43

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 44 of 57
prompted on cross-examination to identify what level of cytokines are necessary to
affect the blood-brain barrier, he did specifically cite the study by de Vries et al. (Id. at
251-52.)
The de Vries et al. study explained that TNF-α, IL-1β, and IL-6 are three
cytokines that have been implicated in the pathology of central nervous system
diseases. (See de Vries et al., supra Ex. 168, p. 38.) The authors set out to examine in
vitro whether these specific cytokines could induce changes in the integrity of the blood-
brain barrier. (Id. at 38-39.) The study used “trans endothelial electrical resistance”
(“TEER”) as a proxy for the integrity of the endothelial tissue, meaning that a decrease
in TEER signified an increase in blood-brain barrier permeability. (See id.) In their
discussion, the study authors suggested significance in their finding that 50 ng/mL—that
is 50 nanograms per milliliter—of TNF-α and 100 ng/mL of IL-1β produced a temporary
(210 minute) 50% decrease in TEER. (Id. at 41.) IL-6 produced a more gradual, but
non-reversible decline in TEER. (Id. at 42.) The effects of administering these
cytokines within the model was dose dependent with, for example, administrations at 50
ng/mL producing a stronger effect than 1 ng/mL for both TNF-α and IL-1β. (Id. at 39-
40.) For IL-6 in particular, Dr. Forsthuber stressed that the study showed that, while a
100 ng/mL dose had a gradual effect, a 1 ng/mL dose produced no response. (Tr. 356-
58; de Vries et al., supra Ex. 168, p. 40.)
Thus, Dr. Forsthuber explains that de Vries et al. show that it likely takes a dose
of nanograms per milliliter, or more specifically at least 10 ng/mL of IL-6, to affect the
permeability of the blood-brain barrier at all. (Tr. 357.) However, discussing how the de
Vries study demonstrated the cytokine levels necessary to affect the blood-brain barrier,
Dr. Gershwin testified that the in vitro study used cytokines “in the picogram to
nanogram range,” which “is well within the parameters of what you would expect to
happen in somebody who is having a change in their blood-brain barrier as seen here.”
(Id. at 251-52.) But, as Dr. Forsthuber explained, “[A] picogram is actually one trillionth
of a gram. So, . . . a thousand picograms would be one nanogram, and a thousand
nanograms would be one microgram.” (Id. at 339.) Thus, a nanogram is three orders of
magnitude larger than a picogram. To suggest that anything in the “picogram to
nanogram range” would be germane is to effectively sidestep the question.33
The reason this is significant is because the studies of record measuring post-
vaccination cytokine production tend to show much lower quantities, measured in
Gershwin may certainly propose a theory on the cutting edge of immunology, his theory, if it is to be
considered sound and reliable, must be grounded in something that has been established in the field.
33 As previously explained, Dr. Gershwin alternatively suggested that it is equally plausible that an
imbalance in cytokines could be causal, rather than the absolute magnitude of cytokines. (Tr. 268.) He
stressed that “cytokines and their effect may be modulated by each other . . . . [i]t may be a relative
balance amongst all of them . . . .” (Id.) On this record, however, that still sidesteps the key question.
Imbalances still have magnitudes, and on this record, the dose at which cytokines can be viewed as
causal has been evidenced experimentally by the de Vries et al. and Bonney et al. studies but would
otherwise remain unproven.
44

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 45 of 57
picograms per milliliter, rather than nanograms per milliliter.34 Respondent also filed a
study by Kashiwagi et al. that examined the effects of the administration of multiple
vaccines. (See Kashiwagi et al., supra Ex. A, Tab 16.) The in vitro portion of the study
stimulated samples with different combinations of vaccines. Mean values of IL-β, IL-6,
and TNF-α levels—the same three cytokines examined by de Vries et al.—were
generally higher with concurrent stimulation with multiple vaccines, but not uniformly so
and without any correlation between the number of vaccines and higher cytokine levels.
(See id. at 682, tbl.2.) Therefore, while administration of multiple vaccinations may
produce some added increase in cytokine levels compared to a single vaccine, there is
evidence refuting any assumption that there is any simple additive or multiplying effect.
(Tr. 351-53.) Even with administration of multiple vaccines, Kashiwagi et al. showed
cytokine levels remaining below the levels at which blood-brain barrier disruption could
be theorized.35
Dr. Forsthuber persuasively suggests that de Vries et al. confirm that the
relatively slight increases in cytokines experienced post-vaccination, generally in the
picogram range, are unlikely to change the blood-brain barrier, which the evidence on
this record suggests occurs at cytokine levels in the nanogram range. (Tr. 357-58.)
Indeed, the importance of the distinction between studies involving picograms versus
nanograms of cytokines has also been observed in prior cases. See, e.g., Brunson ex
34 For example, Skibinski et al. found within human samples that post-flu vaccination IFN-γ peaked at
257.89 picograms per milliliter (“pg/mL”) for an adjuvanted formula, TNF-α peaked at 212.66 pg/mL, and
IL-6 peaked at 15,465.00 pg/mL. (Skibinski, supra Ex. 183, p. 6, tbl.1.) Melgaço et al. found that an
acute hepatitis A infection resulted in cytokine production (IL-6, IL-10, TNF, and IFN-γ) ranging from 31.2
to 159.1 pg/mL whereas a first dose of hepatitis A vaccine produced cytokines ranging from 55.73 to
237.89 pg/mL, expect for IL-6 which was 10,043.1 pg/mL. (Melgaço, supra Ex. 149, p. 4, tbl.1.) Dhiman
et al. found that vaccination against Rubella produced median IL-6 of 3,681.0 pg/mL (interquartile range
of 3,160.0 to 4,052.0), TNF-α of 29.7 pg/mL (interquartile range of -7.0 to 89.2), and IFN-γ of 8.5 pg/mL
(interquartile range of 3.0 to 23.4). (Neelam Dhiman et al., Predominant Inflammatory Cytokine Secretion
Pattern in Response of Two Doses of Live Rubella Vaccine in Healthy Vaccinees, 50 CYTOKINE (2010)
(manuscript at 12, tbl.2) (Ex. 54).) Eriksson et al. observed statistically significant increases in INF-γ, IL-
6, TNF-α, and IL-1β, one week post- flu vaccination; however, none of those elevations reached 1,000
pg/mL, i.e., a nanogram. (Jens-Christian Eriksson et al., Local and Systemic Cytokine and Chemokine
Responses After Parental Influenza Vaccination, 1 INFLUENZA & OTHER RESPIRATORY VIRUSES 139, 143,
fig.3 (2007) (Ex. 154).) It should also be noted that both parties’ immunology experts stress the
limitations of these measurements. Measuring cytokines in vivo is not necessarily realistic. Most studies
use a process by which blood or serum samples are drawn from subjects to create cultures of immune
cells that are then stimulated to produce cytokines in vitro. (Tr. 341-42, 346.) Dr. Forsthuber seems to
imply that these in vitro results may very well exaggerate what occurs in the body. (Tr. 336, 343-44.) Dr.
Gershwin, by contrast, implies the in vitro results fail to capture all that may occur in the body. For
example, he asserts that dendritic cells amplify the immune response post-vaccination. (Tr. 220-21 (citing
Penelope A. Morel & Michael S. Turner, Designing the Optimal Vaccine: The Importance of Cytokines
and Dendritic Cells, 3 OPEN VACCINE J. 7 (2010) (Ex. 184)).)
35 IL-1β levels remained below one nanogram per milliliter in all combinations. TNF-α exceeded one
nanogram per milliliter (reaching 1,833 pg/mL and 1,484 pg/mL) with only certain combinations of
vaccine. (Kashiwagi et al., supra Ex. A, Tab 16, p. 679.) As with the other studies, IL-6 was generally
higher than TNF-α and IL-1β, ranging from 1,872 to 4,137 pg/mL. (See id.) In all instances, the observed
mean value did not exceed 5,000 pg/mL for any cytokine under any combination of vaccinations. (See id.
at 678, fig.1.)
45

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 46 of 57
rel. T.A. v. Sec’y of Health & Human Servs., No. 17-530V, 2020 WL 5755502, at *13
n.12 (Fed. Cl. Spec. Mstr. Sept. 3, 2020); Nunez v. Sec’y of Health & Human Servs.,
No. 14-863V, 2019 WL 2462667, at *31 (Fed. Cl. Spec. Mstr. Mar. 29, 2019), review
denied, 144 Fed. Cl. 540 (2019), aff’d, 825 F. App’x 816 (Fed. Cir. 2020); Copenhaver
v. Sec’y of Health & Human Servs., No. 13-1002V, 2016 WL 3456436, at *13 n.22 (Fed.
Cl. Spec. Mstr. May 31, 2016).
The collection of studies discussed above do include some mixed results wherein
there are some instances of vaccination producing IL-6 up to the borderline of the
magnitude that de Vries et al. found could begin to affect the blood-brain barrier. (See
supra notes 34-35.) However, not all of the above studies included such findings.
Moreover, as noted above, Dr. Gershwin agreed that his theory requires “a significant
disruption of the endothelial cells, because I don’t think a minor disruption would make
any difference.” (Tr. 267.) In any event, Dr. Gershwin does not rely on IL-6 in
particular. 36 Instead, he indicated that specific cytokines could not be isolated as
causally significant. (Tr. 222-23.) In that regard, Dr. Huq’s discussion of PRES,
discussed above, primarily implicates IL-1 and TNF-α, rather than IL-6, as meaningful to
the toxic theory of PRES. However, none of the studies demonstrated either TNF-α or
IL-1β reaching the nanogram scale examined by de Vries et al.
The remaining question is whether the cytokine response to vaccination, when
combined with the response to infection, rises to a magnitude that could be expected to
disrupt the blood-brain barrier. On that point, respondent has filed evidence indicating
that a common HFM infection does not produce an outsized cytokine response, and
instead produces cytokine responses in the picogram range.37 These results are not
necessarily surprising given that Kashiwagi et al. also demonstrated that an outpatient
viral infection produces cytokines comparable to a vaccination. (Kashiwagi et al., supra
Ex. A, Tab 16, p. 7 (explaining that “[c]ompared with acute phase of an influenza
infection, cytokine profiles after vaccination were similar to those in mild-moderate
outpatients infected with the 2009 pandemic strain”).) In that regard, Dr. Forsthuber
distinguishes common viral infections, such as HFMD, from much more serious
36 By way of example, Dr. Forsthuber filed a study confirming that IL-6 strongly correlates to fever (See
Engel et al., supra Ex. A, Tab 10, p. 10), but Dr. Gershwin indicates fever would not necessarily be
present under his theory (Tr. 216-17).
37 Specifically, respondent filed a study by Cai et al., which examined children admitted for hospitalization
for HFMD. (See Cai et al., supra Ex. J, p. 2.) Among their findings, cases of mild HFMD had cytokine
levels, including TNF-α, IL-1β, and IL-6, comparable to controls, mild HFMD produced 3.30 pg/mL of IL-
1β, 4.20 of IL-6, and 4.7 pg/mL of TNF-α. (Id. at 4, tbl. 2.) Those with severe HFMD, defined as cases
involving neurologic or cardiopulmonary complications, had higher cytokine levels. Among those cases,
IL-1β was measured between 15.3 and 16 pg/mL, IL-6 was measured between 12.65 and 16 pg/mL, and
TNF-α was measured between 19.85 and 25.4 pg/mL. (Id.) Another study, by Yu et al., of adults with
HFMD found that those with the infection had approximately 10-times the IL-6 and about 14-times the
TNF-α as compared to controls. (Linghua Yu et al., Inflammatory Profiles Revealed the Dysregulation of
Cytokines in Adult Patients of HFMD, 79 INT’L J. INFECTIOUS DISEASES 12, 16 & tbl. 3 (2019) (Ex. G, Tab
8).) IL-1β was about the same, only slightly elevated. (Id.) However, the infected subjects still only had
IL-6 levels of 174.15 pg/mL, TNF-α levels of 691.31 pg/mL, and IL-1β levels of 20.22 pg/mL. (Id.)
46

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 47 of 57
conditions, such as sepsis or gram negative bacterial infection, that have otherwise
been known to disrupt the blood-brain barrier. (Tr. 387-90, 392-93.) Petitioner’s own
expert, Dr. Huq, stressed essentially the same point when testifying that it would be
unlikely that HFMD would directly result in PRES. (Tr. 122.)
Dr. Gershwin suggests a synergism, and not merely an additive effect. This
relies in substantial part on the Bonney paper, which Dr. Gershwin contends is evidence
that IFN-γ makes viral infection more potent. (Tr. 251-52.) The authors explain that
experiments show IFN-γ, though generally important as an antiviral signal, has the
effect of contributing to blood-brain barrier leakage. (Bonney et al., supra Ex. 176, p. 1.)
They further showed that blocking IFN-γ during an infection improved blood-brain
barrier integrity.38 (Id.) Dr. Forsthuber, however, stresses that, like the de Vries study,
the Bonney study utilized 100 ng/mL of IFN-γ. (Tr. 362.) This is about 500 to 1,000
times the level of IFN-γ in a healthy individual and 50 to 100 times what is expected
from a stimulated culture. (Id. at 362-63 (citing Kleiner et al., supra Ex. E, Tab 17).)
Thus, Dr. Forsthuber explains that the study applies “super physiologic doses,”
rendering it purely theoretical with no practical application to what does, or does not,
cause PRES. (Id. at 363.)
Without doubting that simultaneous infection and vaccination both contribute to
an overall immune response, the Bonney study is inadequate to support Dr. Gershwin’s
and Dr. Huq’s specific premise that vaccines and infections operate synergistically to
create some greater effect on the blood-brain barrier.39 The study simply provides
some additional experimental evidence showing that cytokines—IFN-γ in particular—
may affect the blood-brain barrier and, further, that it may help to explain how viral
infections can sometimes result in encephalitis. It is not readily apparent that it would
evidence either increased potency of the infection itself or that vaccines contribute to
any greater synergistic immune response.
Finally, it is important to note that Dr. Gershwin asserts that experimental studies,
such as Bonney and de Vries, do have clinical efficacy regardless of dose. (Tr. 400-01.)
Yet, he also made a point of stressing that his theory is not proposing “a pharmacologic
burst with super-normal levels of cytokines being produced.” (Id. at 211.) This
produces an inherent tension within Dr. Gershwin’s opinion. Even accepting that a
given study might provide some proof of a concept without reflecting a realistic dose
response, it is still difficult to accept that Dr. Gershwin can affirmatively rely on studies
examining the effects of “super physiologic” or “super-normal” levels of cytokines as the
primary evidence his theory is even possible while simultaneously disclaiming the need
for such cytokine levels in application. This is especially so given the lack of any other
38 It should be noted the study authors discuss the results in the context of viral encephalitis, not PRES.
(See Bonney et al., supra Ex. 176, pp. 14-16.)
39 To be clear, the issue discussed herein is petitioners’ inability to substantiate this theory. If proven, the
concept of vaccination operating in connection with infection to cause injury can present a legally tenable
theory under Althen prong one. See Shyface v. Sec’y of Health & Human Servs., 165 F.3d 1344, 1352
(Fed. Cir. 1999) (concluding that, under the Act, “an action is the ‘legal cause’ of harm if the action is a
‘substantial factor’ in bringing about the harm”).
47

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 48 of 57
robust evidence suggesting vaccines can cause or contribute to PRES. Nothing
requires the acceptance of an expert’s conclusion “connected to existing data only by
the ipse dixit of the expert,” especially if “there is simply too great an analytical gap
between the data and the opinion proffered.” Snyder ex rel. Snyder v. Sec’y of Health &
Human Servs., 88 Fed. Cl. 706, 743 (2009) (quoting Gen. Elec. Co. v. Joiner, 522 U.S.
136, 146 (1997)); see also Isaac v. Sec’y of Health & Human Servs., No. 08-601V, 2012
WL 3609993, at *17 (Fed. Cl. Spec. Mstr. July 30, 2012) (“The weight to be given to an
expert’s opinion is based in part on the size of the gap between the science and the
opinion proffered.”), aff’d, 108 Fed. Cl. 743, aff’d, 540 F. App’x 999 (Fed. Cir. 2013).
For all the reasons discussion above, I find that petitioners have not satisfied
their burden under Althen prong one. Although petitioners are persuasive in asserting
both that cytokines can disrupt the blood-brain barrier, and that PRES specifically can
be theorized in at least some instances to be a cytokine-mediated condition, only two
case reports out of all the PRES literature filed in this case purport to associate any
vaccine with PRES. This constitutes only minimal evidence of a potential causal
relationship. In that context, Dr. Gershwin was not ultimately persuasive in setting forth
a further explanation as to how synergism between a vaccine and infection could
produce a sufficient cytokine response to open or disrupt the blood-brain barrier such
that it could be implicated as a potential cause of PRES. Rather, the evidence of record
suggests this is unlikely for the reasons discussed by Dr. Forsthuber.
a. Althen prong 3
The third Althen prong requires establishing a “proximate temporal relationship”
between the vaccination and the injury alleged. Althen, 418 F.3d at 1278. That term
has been equated to the phrase “medically-acceptable temporal relationship.” Id. at
1281. A petitioner must offer “preponderant proof that the onset of symptoms occurred
within a timeframe which, given the medical understanding of the disorder’s etiology, it
is medically acceptable to infer causation-in-fact.” de Bazan v. Sec’y of Health &
Human Servs., 539 F.3d 1347, 1352 (Fed. Cir. 2008). The explanation for what is a
medically acceptable timeframe must also coincide with the theory of how the relevant
vaccine can cause an injury (Althen prong one’s requirement). See id.; Shapiro v. Sec’y
of Health & Human Servs., 101 Fed. Cl. 532, 542 (2011), reconsideration denied after
remand, 105 Fed. Cl. 353 (2012), aff’d per curiam, 503 F. App’x 952 (Fed. Cir. 2013);
Koehn v. Sec’y of Health & Human Servs., No. 11-355V, 2013 WL 3214877, at *26
(Fed. Cl. Spec. Mstr. May 30, 2013), aff’d, 773 F.3d 1239 (Fed. Cir. 2014).
A.J.K. received the vaccinations at issue during a wellness encounter that
occurred around 10:00AM on September 29, 2014. (Ex. 3, p. 310; Ex. 1.) Given that
A.J.K. was documented as previously experiencing twitching attributed to myoclonus, it
would be difficult to place onset based on twitching alone. However, when A.J.K.’s
mother first contacted the pediatrician at around noon on October 1, 2014, she reported
that A.J.K. was “twitching and lethargic” since the night before and vomited that day.
(Ex. 3, p. 309.) More specifically, she reported putting A.J.K. to bed at 7:30PM on the
evening of September 30, 2014, and found her to be difficult to wake at 7:45AM the next
48

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 49 of 57
morning and inactive the entire morning. (Id.) Accordingly, the record reflects that
symptoms consistent with PRES were first observed on the morning of October 1, 2014,
just a few hours shy of 48 hours post-vaccination.
Dr. Gershwin opines that this is “perfect” timing for an innate immune response.40
(Tr. 240-41.) Dr. Forsthuber likewise agreed on respondent’s behalf that the innate
immune response occurs within hours to days in general. (Id. at 381.) Although Dr.
Forsthuber raised concerns regarding the time needed to generate an adaptive immune
response, Dr. Gershwin explained that, while the HFM infection would have amplified
the response insofar as it was still producing cytokines, the presence of the adaptive
immune response to the HFMD is irrelevant vis-à-vis timing of onset. (Id. at 241-42.)
Further to this, the literature filed in this case explains that PRES generally manifests
over hours to days. (Hobson et al., supra Ex. 84 (PRES “presents with rapid onset of
symptoms”); Liman et al., supra Ex. C, Tab 4 (“PRES is typically characterized by acute
onset of neurological symptoms”); Fischer & Schmutzhard, supra Ex. A, Tab 7 (“onset
may be acute or subacute, with symptoms developing within a few hours up to several
days or even weeks”).) Accordingly, without accepting that vaccines in particular can
cause PRES, it is nonetheless reasonable to conclude that onset of PRES could occur
within two days of an innate immune trigger.
Dr. Forsthuber expressed skepticism regarding the timing for an adverse event
following vaccination, but this is less persuasive in light of the above. Specifically, he
noted that adverse reactions to live vaccines, such as the MMR and varicella vaccines
at issue, typically occur approximately 7 to 10 days post-vaccination. (Tr. 370.) Mild
reactions to the flu vaccine, not including anything similar to what is at issue in this
case, typically occur within 24 hours of vaccination. (Id. at 370-71.) Ultimately, he
acknowledged that the appropriateness of the timing “cannot be 100 percent ruled out”
but is “less appropriate.” (Id. at 371.) He stressed that the two case reports included in
this record that examined PRES following MMR vaccination had onsets between 4 and
10 days post-vaccination. (Id. at 370; Aydin et al., supra Ex. A, Tab 8, p. 525; Hamano
et al., supra Ex. A, Tab 9, pp. 124-25.) Importantly, however, while the Hamano case
report subject did have a worsening of symptoms at 4 days post-vaccination, the
authors actually placed onset of her PRES at 8 hours post vaccination. (Hamano et al.,
supra Ex. A, Tab 9, p. 125.) They specifically note that this hours-long onset helped
distinguish the case diagnostically from acute disseminated encephalomyelitis
(“ADEM”), which they note typically occurs at least two days post-vaccination. (Id.)
b. Althen prong 2
The second Althen prong requires proof of a logical sequence of cause and
effect, usually supported by facts derived from a petitioner’s medical records. Althen,
418 F.3d at 1278; Andreu, 569 F.3d at 1375-77; Capizzano, 440 F.3d at 1326; Grant v.
Sec’y of Health & Human Servs., 956 F.2d 1144, 1148 (Fed. Cir. 1992). In establishing
that a vaccine “did cause” injury, the opinions and views of the injured party’s treating
40 Dr. Huq likewise agreed the timing is appropriate for an inflammatory process, but he deferred to Dr.
Gershwin with respect to the timing of a cytokine response. (Tr. 130-31.)
49

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 50 of 57
physicians are entitled to some weight. Andreu, 569 F.3d at 1375-77; Capizzano, 440
F.3d at 1326 (noting that “medical records and medical opinion testimony are favored in
vaccine cases, as treating physicians are likely to be in the best position to determine
whether ‘a logical sequence of cause and effect show[s] that the vaccination was the
reason for the injury’” (alteration in original) (quoting Althen, 418 F.3d at 1280)). Medical
records are generally viewed as particularly trustworthy evidence because they are
usually created contemporaneously with treatment of the patient. Cucuras v. Sec’y of
Health & Human Servs., 993 F.2d 1525, 1528 (Fed. Cir. 1993).
However, medical records and/or statements of a treating physician’s views do
not per se bind the special master to adopt the conclusions of such an individual, even if
they must be considered and carefully evaluated. See § 300aa-13(b)(1) (providing that
“[a]ny such diagnosis, conclusion, judgment, test result, report, or summary shall not be
binding on the special master or court”); Snyder v. Sec’y of Health & Human Servs., 88
Fed. Cl. 706, 745 n.67 (2009) (“[T]there is nothing . . . that mandates that the testimony
of a treating physician is sacrosanct—that it must be accepted in its entirety and cannot
be rebutted.”). As with expert testimony offered to establish a theory of causation, the
opinions or diagnoses of treating physicians are only as trustworthy as the
reasonableness of their suppositions or bases. The views of treating physicians should
also be weighed against other, contrary evidence also present in the record—including
conflicting opinions among such individuals. Hibbard v. Sec’y of Health & Human
Servs., 100 Fed. Cl. 742, 749 (2011) (concluding that it was not arbitrary or capricious
for the special master to weigh competing treating physicians’ conclusions against each
other), aff’d, 698 F.3d 1355 (Fed. Cir. 2012); Caves v. Sec’y of Health & Human Servs.,
100 Fed. Cl. 119, 136-37 (2011), aff’d, 463 F. App’x 932 (Fed. Cir. 2012); Veryzer v.
Sec’y of Health & Human Servs., No. 06-522V, 2011 WL 1935813, at *17 (Fed. Cl.
Spec. Mstr. Apr. 29, 2011), review denied, 100 Fed. Cl. 344, 356 (2011), aff’d per
curiam sub nom. 475 F. App’x 765 (Fed. Cir. 2012).
i. Treating physician opinions are inconclusive
In this case, treating physician opinions alone cannot resolve Althen prong two.
Both parties find support for their preferred diagnosis among at least some of the
treating physicians. (See, e.g., Ex. 7, p. 51 (initial radiologist’s MRI report reflecting a
differential diagnosis that included both ischemia and PRES); Ex. 7, p. 2 (first treating
neurologist, Dr. Trasmonte, diagnosing ischemic stroke, likely idiopathic, as a
“preponderant” working diagnosis); Ex. 3, p. 241 (second treating neurologist, Dr. Hsieh,
concluding MRI is more consistent with PRES and evidence “does not favor” a stroke)).
Additionally, there is genuine suspicion of vaccine causation among the treating
physicians, but not any conclusion supporting vaccine causation. (Ex. 3, p. 264 (Dr.
Poulin remarking on February 13, 2015 that “[a]ssociation vs causation unknown but
potential post imm encephalopathy in [differential diagnosis].”); Ex. 3, p. 259 (NP
Howard providing information regarding the Program); Ex. 3, p. 239 (genetics specialist
noting on April 27, 2015 that “[e]ncephalopathy post MMR has been described and this
may be related to a side effect of the vaccination”); Ex. 3, p. 136 (allergist noting on
June 8, 2016, that A.J.K.’s history is “rightly concerning for an adverse vaccine reaction
50

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 51 of 57
but there is no course to prove or disprove immunizations were causative”). But see Ex.
3, p. 100 (Dr. Hussey indicating on February 27, 2017, “course suspicious for other
etiology than vaccination”). On the whole, and especially given the uncertainty in
diagnosis, explicit causal opinions by the treating physicians, either for or against
vaccine causation, are not robust. Accordingly, the expert assessments of the clinical
course are significant.
ii. There is not preponderant evidence hypertension caused A.J.K.’s
acute neurologic event
Respondent places significant emphasis on the presence of hypertension as part
of the explanation of medical events in this case. In his first report, Dr. Bingham opined
that “it appears most likely that hypertension contributed significantly to, and may have
been the primary underlying cause of, [A.J.K.’s] condition.” (Ex. C, p. 10.) However,
there is conflicting evidence with regard to whether A.J.K. was experiencing
hypertension at the time of her acute neurologic event and the record is ultimately
inconclusive. Dr. Bingham’s assessment is based on the presence of systolic blood
pressure readings indicative of significant blood pressure elevations of up to 141
mmHg. (Tr. 285.) He explained that a systolic pressure of about 101 represents the cut
off for normal blood pressure in a 12-month-old. (Id.) Dr. Huq, by contrast, suggested
that mean blood pressure readings were not concerning. (Id. at 90-91.)
Dr. Bingham agrees on respondent’s behalf that hypertension was not initially
documented on October 1, 2014. (Ex. C, p. 8.) Instead, he assumes her hypertension
must have been volatile, implying the highest blood pressure may have initially gone
undetected. (Id. at 10.) However, this assumption of volatility is not well supported by
the records. During transport from Valdosta to Macon, A.J.K.’s vitals were measured
continuously during an approximately 150-mile ambulance ride of over several hours.
(Ex. 9, pp. 38, 41.) As a result, eight separate blood pressure measurements were
taken between 1:06AM and 3:10AM on the morning of October 2, 2014. (Id. at 38-39.)
The EMTs recorded that her vitals remained within normal limits during transport and
the resulting blood pressure measurements were relatively stable, with systolic pressure
ranging from 95 to 102 and mostly falling below what Dr. Bingham identifies as the cut-
off for normal blood pressure. (Id.; Tr. 285.)
As Dr. Bingham noted during testimony, A.J.K. did later have a documented
range of systolic blood pressure during her hospitalization in Macon that reached up to
141. (Tr. 285; Ex. 7, p. 6.) This did raise a concern regarding the possibility of
hypertension. (Ex. 7, p. 18; Ex. 11, p. 40.) However, the notes also indicate this was
doubted, cautioning that “[s]everal of the higher BPs were taken when child is fussing.”
(Ex. 7, p. 18.) Dr. Bingham agrees that a child’s fussing can affect the blood pressure
results and that accounting for that is “part of the art and science” of obtaining the
reading. (Tr. 302.) Ultimately, the records document that prior to discharge cardiology
concluded A.J.K. was not hypertensive. (Ex. 7, p. 6.) The records further confirm that
no treatment was initiated for hypertension during A.J.K.’s hospitalization. (Ex. 12, p.
5.) Nor is there any indication from A.J.K.’s hospital records that any of her physicians
51

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 52 of 57
at that time concluded her presentation (whether stroke or PRES) was attributable to
hypertension.41 In fact, Dr. Trasmonte specifically indicated that the work up performed
to determine the etiology of A.J.K.’s diagnosed stroke was normal and hypertension
was not among A.J.K.’s discharge diagnoses. (Ex. 7, pp. 2, 7.) During the hearing, Dr.
Bingham ultimately indicated that he was “puzzled” by the lack of treatment for
hypertension. (Tr. 303.) Although he suggested he is not satisfied with the information
contained in the medical records, he testified that “[i]f it actually appears in the chart that
the cardiologist explicitly dismissed hypertension, then I can accept that.” (Id.)
When A.J.K. later followed up with a cardiologist, her blood pressure was
measured as significantly elevated on two occasions about one and two months
following her hospitalization. (Ex. 12, pp. 1, 7.) Again, however, these records question
the reliability of the readings due to fussing and movement. (Id.) Nonetheless, A.J.K.
was started on treatment for hypertension at that time, given her history. (Id.) But in
any event, these records do not establish hypertension as an initiating cause of A.J.K.’s
condition. Instead, they offer the opinion that the hypertension may itself be a
consequence of A.J.K.’s acute neurologic injury. (Id. at 2; see also Ex. 5, p. 13.)
Moreover, Dr. Bingham agrees that this would be possible. (Tr. 301.)
In light of all of this, although there is evidence that A.J.K. had some documented
elevations in blood pressure, there is not preponderant evidence that A.J.K.’s acute
neurologic event was caused by hypertension.
iii. There is not preponderant evidence HFMD resulted in stroke
An additional observation underlying both of respondent’s experts’ opinions is the
idea that infections are an important risk factor for pediatric stroke. (Tr. 294 (Dr.
Bingham); Tr. 324-26 (Dr. Forsthuber).) Thus, they opine that A.J.K.’s HFM infection
was a likely contributor to what they opine was a stroke. (Ex. C, p. 10; Tr. 288, 294,
324.) However, while infection may generally be a risk factor for pediatric stroke, it is
less likely to explain A.J.K.’s own history.
To the extent one concludes that Dr. Huq has arrived at the correct diagnosis for
A.J.K., he explains that the recognized neurologic complications of HFMD do not
include PRES. Instead, when HFMD results in rare neurologic complications, it
generally results in brainstem encephalitis, acute flaccid paralysis, aseptic meningitis, or
Guillain-Barré syndrome. (Tr. 118-22.) Moreover, when HFMD leads to neurologic
complications, Dr. Huq and Dr. Bingham both explained that this usually occurs within
three to five days of symptom onset. (Id. at 121 (Dr. Huq), 307 (Dr. Bingham).) Thus, it
is unlikely that HFMD led directly to PRES. Indeed, Dr. Forsthuber explicitly disclaimed
41 In his first report, Dr. Bingham cites Exhibit 11, page 40, for the proposition that the hospital team
considered hypertension as a cause of A.J.K.’s stroke. (Ex. C, p. 3.) However, the cited record is an
October 6, 2014 telephone report from A.J.K.’s father to the primary care provider reporting that
hypertension “is suspected.” (Ex. 11, p. 40.) That report is consistent with the suspicion of hypertension
recorded at Exhibit 7, page 18, but predated the October 7, 2014 record confirming that cardiology
ultimately concluded hypertension was not present. (Ex. 7, p. 6.)
52

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 53 of 57
any opinion that HFMD would have led directly to neurologic injury in this case,
stressing it was instead only a risk factor for stroke. (Id. at 324.)
However, accepting that infections generally can be a risk factor for pediatric
stroke, Dr. Forsthuber acknowledges that the post-infection risk of stroke peaks within
three days of infection. (Id. at 328 (discussing Armin J. Grau et al., Common Infections
and the Risk of Stroke, 6 NATURE REVS.: NEUROLOGY 681 (2010) (Ex. A, Tab 3).) Dr.
Forsthuber stressed that the risk remained statistically elevated at seven days, but none
of the studies cited are adequate to evidence the increased risk as persisting for any
longer. (Id.) In particular, the Fullerton study examined stroke cases occurring up to six
months following a first encounter for a minor infection, but concluded that only the
cluster of cases occurring one-week post-infection were statistically significant.
(Fullerton et al., supra Ex. A, Tab 4, p. 1462.)
In this case, A.J.K.’s HFMD symptoms were first documented in a call to her
pediatrician on September 17, 2014, about two weeks prior to her October 1, 2014
emergency department presentation. (Ex. 3, p. 322; Ex. 10, pp. 5, 8.) Thus, she was
beyond the period of elevated risk by the time of her acute event. Although Dr.
Bingham provided testimony regarding possible reasons infection might lead to stroke,
he confirmed his opinion is based on the associational data. (Tr. 294, 309-10.)
Dr. Forsthuber also highlights the inflammatory response to infection, rather than
any particular microbial agent, as leading to the elevated risk of stroke. (Ex. A, p. 6;
Grau et al., supra Ex. A, Tab 3, p. 2 (“key points”).) However, a key aspect of
respondent’s experts’ opinions is that A.J.K.’s HFM infection was resolving by the time
of her vaccinations and that there was no evidence of an inflammatory state around the
time of her acute neurologic event to support any logical sequence of cause and effect
per petitioners’ theory. (Tr. 323-24, 369 (Dr. Forsthuber), 294 (Dr. Bingham).)
Especially given that A.J.K.’s own acute neurologic event occurred outside the
established period of elevated risk for a post-infection stroke, respondent’s experts’
confidence that a systemic inflammatory state is absent must also undercut their own
theory if it undercuts petitioners’ theory.
iv. PRES is a reasonable diagnosis
As noted above, both stroke and PRES were within A.J.K.’s initial radiologic
differential diagnosis. (Ex. 7, p. 51.) Her first neurologist, Dr. Trasmonte, felt the MRI
and clinical evidence preponderated in favor of stroke. (Id. at 2.) Her second
neurologist, Dr. Hsieh, reevaluated both the MRI and the clinical records and concluded
stroke was less likely than PRES. (Ex. 3, p. 241.) “PRES is not mainly radiological; the
clinical context and the judgment of the clinician are crucial to making the correct
diagnosis.” (Fugate & Rabinstein, supra Ex. 68, p. 918.) In that regard, both parties’
experts agree that either stroke or PRES could explain A.J.K.’s initial presentation. (Tr.
98 (Dr. Huq indicating PRES can present as a “stroke-like event”), 289-90 (Dr. Bingham
agreeing that stroke and PRES are not mutually exclusive explanations).) Apart from
the circumstances of hypertension and the preceding HFM infection addressed
53

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 54 of 57
separately above, Dr. Bingham raises two more direct challenges to a PRES diagnosis.
He contends details of A.J.K.’s MRI, specifically, the appearance of signal change on
ADC and diffusion weighted imaging, are distinct from what is classically seen in PRES.
(Id. at 287.) He also stresses that, as the name suggests, PRES should only be
diagnosed where the condition has demonstrated itself to be reversible. (Tr. 289-90.)
Dr. Huq persuasively addressed both of these points.
First, Dr. Bingham in effect disputes that PRES is the best interpretation of
A.J.K.’s MRI if the MRI includes evidence of restricted diffusion. “Classic” or “typical”
MRI findings supportive of a PRES diagnosis are T2 or FLAIR hyperintensities
indicative of vasogenic edema. (Liman et al., supra Ex. C, Tab 4, p. 29.) However,
restricted diffusion would generally be indicative of cytotoxic edema, which would be
less common in PRES. (Id. at 29-30.) In fact, larger areas of restricted diffusion may
be indicative of ischemic stroke. (Fischer & Schmutzhard, supra Ex. C, Tab 5, p. 1612.)
This point was raised by Dr. Trasmonte when he stated that:
The other part of the differential of bioccipital hyperintensity on T2/FLAIR is
PRES (posterior reversible encephalopathy syndrome). Typically however
in PRES the diffusion weighted images would show either equivocal
findings or if it is bright usually the ADC mapping images would not be dark
as seen in this patient.
(Ex. 7, p. 2.) That is, although Dr. Trasmonte notes that A.J.K.’s T2/FLAIR imaging is
consistent with PRES, restricted diffusion may be evidenced by additional signal change
on either the diffusion weighted images or the ADC mapping images.42
Dr. Huq raises two important points responsive to this issue. First, the question
of how much blackness is appropriate on the ADC mapping to confirm the genuineness
of the restricted diffusion is a matter of clinical judgment, for which we have competing
opinions from the treating neurologists given that Dr. Hsieh disagreed with Dr.
Trasmonte’s reading of the MRI on his re-review. (Tr. 85-86, 193-95.) After all, the
imaging was sufficiently ambiguous that the radiologist initially included both stroke and
PRES in the differential. (Ex. 7, p. 51.) Second, Dr. Huq opined that restricted
diffusion, though it can be consistent with stroke, can also be consistent with PRES.
(Tr. 84.) He cites literature that indicates that restricted diffusion can be seen in around
15 to 30 percent of PRES cases. (Id. at 102 (discussing Fugate & Rabinstein, supra Ex.
68, p. 919.).) Dr. Huq testified that, in his clinical experience, the MRI images in PRES
can be “very variable,” and that these “particular findings are totally consistent with
PRES.” (Id. at 85-86.) In fact, Dr. Huq has explained that the presence of some
cytotoxic edema, i.e., restricted diffusion on MRI, is consistent with the toxic theory of
PRES. (Id. at 100-04.) Ultimately, Dr. Bingham conceded that A.J.K.’s initial MRI,
42 Dr. Huq also explained that abnormalities on diffusion weighted images can sometimes be “shine
through,” or secondary signals due to the T2 FLAIR sequencing. (Tr. 193-94.) As Dr. Huq explains it,
the blackness of the ADC mapping confirms that the abnormality on the diffusion weighted images is a
true finding of restricted diffusion, rather than being “shine through.” (Tr. 194.)
54

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 55 of 57
though it includes “a hint of an atypical pattern of signal change,” is consistent with
PRES. (Id. at 299.)
A.J.K. also had subsequent MRIs in January and May of 2015 that continued to
show the bilateral occipital lobe lesions on T2/FLAIR. (Ex. 3, p. 58; Ex. C, p. 7.)
According to Dr. Bingham, this is more consistent with stroke than PRES due to the fact
that it demonstrates the encephalomalacic lesions to have been irreversible. (Ex. C, p.
7; Tr. 287-89.) In fact, Dr. Bingham testified that reversibility is a necessary part of the
diagnostic criteria for PRES. (Tr. 291.) Although Dr. Bingham is correct that
reversibility has been proposed as a diagnostic criterion (see Fischer & Schmutzhard,
supra Ex. C, Tab 5, p. 1611-12 & fig. 3), no set of diagnostic criteria has been generally
accepted (Id. at 1610.). Instead, the literature reflects that, while a majority of PRES
cases will be reversible and will have a good prognosis, severe complications, including
neurologic sequelae, may persist. (Id. at 1613.) Prior studies have confirmed pediatric
cases of PRES resulting in long term epilepsy. (Id. at 1613-14.) Notably, whereas Dr.
Trasmonte did not have the benefit of the subsequent MRIs, when Dr. Hsieh
reevaluated A.J.K.’s initial MRI as more consistent with PRES than stroke, he had also
reviewed A.J.K.’s later January 2015 MRI, which he remarked was notable for residual
scarring. (Ex. 3, p. 241.) Thus, Dr. Bingham’s opinion is not supported by the treating
physicians. Dr. Huq further explained that the 15 to 30 percent of PRES cases that see
restricted diffusion on MRI are also the PRES cases that are more likely to result in
irreversible damage. (Tr.100-04; see also Liman et al., supra Ex. C, Tab 4, pp. 29-30.)
Additionally, Dr. Huq contends, consistent with Dr. Hsieh’s opinion, that stroke is
a less likely diagnosis. (Tr. 86.) Indeed, Dr. Trasmonte himself characterized the initial
stroke diagnosis as a “working impression” that was “preponderate,” rather than certain.
(Ex. 7, p. 2.) Dr. Huq further stresses that the diffusion restriction potentially evidenced
on the first MRI is the only evidence of ischemia. (Tr. 86.) But that finding is not
necessarily exclusive to ischemia. (Id.) Moreover, the specific presentation of a
biocciptial stroke would be very unusual in a child. (Tr. 84.) Furthermore, Dr.
Bingham’s diagnostic assessment overall, and therefore also his degree of concern
regarding how classic or typical the MRI findings are for PRES, was informed at least in
part by his reliance on both hypertension and the preceding HFM infection as
contributors to stroke. However, as discussed above, I have found the evidence does
not clearly support those assumptions. This greatly reduces the attractiveness of stroke
as an alternative diagnosis. Moreover, apart from stressing the general reversibility of
PRES, Dr. Bingham testified that stroke and PRES are not otherwise mutually
exclusive. (Tr. 290.) Dr. Huq likewise opined that A.J.K.’s PRES could have resulted in
stroke. (Tr. 86.) Accordingly, even if it is reasonable to invoke stroke, the expert
discussion casts doubt on the idea of stroke having occurred to the exclusion of PRES.
In light of all of the above, while no conclusive diagnosis can be rendered, Dr.
Huq is persuasive in contending that A.J.K. can reasonably be diagnosed with PRES.
55

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 56 of 57
v. There is no evidence of post-vaccination inflammation
Importantly, the diagnosis of PRES does not in itself identify a cause. PRES is a
syndrome that is still not considered to be well known and it is usually a diagnosis of
exclusion. “Given the heterogeneity of underlying disease conditions and toxic triggers,
it is very likely that – at least in the initial phase of the disease – different
pathophysiological mechanisms and combinations therefor play a role. However,
studies investigating pathophysiological subgroups in PRES are lacking.” (Liman et al.,
supra Ex. C, Tab 4, p. 27.) Absent additional clinical clues, A.J.K.’s condition is still best
viewed as effectively idiopathic even though petitioners have substantiated that PRES is
an appropriate diagnosis. Thus, the most challenging point for petitioners under Althen
prong two is the question of what, if any, clinical evidence is available to demonstrate
that the theorized cytokine response to vaccination is, in fact, implicated as a cause of
A.J.K.’s own condition.
Measurement of cytokines is simply not something that occurs in any real-world
clinical context. Respondent’s experts indicate that fever, elevated CRP, and abnormal
CSF results, are important proxies for the type of cytokine driven inflammation
petitioners posit. However, A.J.K.’s case was negative for these findings.43 (Tr. 294,
323, 336; Ex. C, p. 8.) Dr. Gershwin counters that he has not proposed that any “burst”
of systemic cytokine activity occurred. (Tr. 211.) Thus, he specifically disagrees that
either fever, elevated CRP, or abnormal CSF, need to be present for his theory to be
operative. (Tr. 405-06.) However, even if fever or elevated CRP are not strictly
necessary for Dr. Gershwin’s theory to apply, the absence of these findings still leaves a
paucity of supporting clinical evidence. As Dr. Bingham noted during the hearing,
petitioners’ explanation of events “may have its own logic, but it isn’t evidenced.” (Tr.
294.) Absent clinical evidence of inflammation, A.J.K.’s acute neurologic event
ultimately remains enigmatic regardless of whether it is diagnosed as PRES. Thus,
even accepting petitioners’ contention that A.J.K. did suffer PRES, they have not
preponderantly demonstrated any logical sequence of cause and effect implicating
A.J.K.’s vaccinations as a cause of her PRES.44
43 A.J.K. did have a slight fever as of her second emergency department presentation, but not during her
initial presentation. Thus, Dr. Gershwin disclaimed reliance on the presence of fever. (Tr. 404-05.)
44 Despite the lack of evidence of inflammation, petitioners’ experts in effect argue that the PRES itself is
the evidence of a cytokine response given the context of this case. (Tr. 261-64.) In many settings, this
type of opinion has been dismissed as circular logic. See, e.g., Dodd v. Sec’y of Health & Human Servs.,
No. 09-0585V, 2013 WL 3233210, at *14 (Fed. Cl. Spec. Mstr. June 5, 2023) (explaining that “Dr.
Kinsbourne’s circular logic, that one event was caused by another simply because the second event
occurred, is also unavailing”), review denied, 114 Fed. Cl. 43 (2013); Morgan v. Sec’y of Health & Human
Servs., No. 12-77V, 2017 WL 6893079, at *22 (Fed. Cl. Spec. Mstr. Dec. 6, 2017) (concluding that
“Petitioner’s experts assumed that the very fact she experienced a rare injury at all was circumstantial
proof of her ‘unique genetic repertoire.’ This kind of circular logic (the injury itself is proof of causation)
does not meet the preponderant evidentiary standard set for a vaccine injury claim.” (internal citation
omitted)). However, had petitioners met their burden of proof under Althen prong one, this idea might
have warranted further exploration given that the diagnostic dispute between the parties does encompass
a key pathogenic distinction. Accord Stone v. Sec’y of Health & Human Servs., 676 F.3d 1373, 1382-83
(Fed. Cir. 2012) (rejecting the argument that the fact that an expert “reasoned backwards” from the fact of
the injury to the conclusion that the injury was caused by a genetic mutation necessarily constituted
56

Case 1:17-vv-01362-UNJ Document 148 Filed 12/22/23 Page 57 of 57
VII. Conclusion
Petitioners have my deepest sympathy for what they and A.J.K. have suffered.
There is no question that A.J.K. suffered as a devastating and profound injury the
consequence of which they are still navigating. The outcome of the causal analysis in
this case in no way minimizes any of that. Moreover, given the timing of A.J.K.’s acute
neurologic event, I understand why petitioners themselves suspect the vaccinations to
have been a factor. However, even accepting their preferred diagnosis of PRES, there
is not preponderant evidence that vaccinations can be a substantial contributing factor
leading to PRES generally or any significant clinical evidence supporting a logical
sequence of cause and effect implicating the vaccines as a cause of A.J.K.’s own PRES
specifically. Thus, for all the reasons described above, I find that petitioners are not
entitled to compensation and this case is dismissed.45
IT IS SO ORDERED.
s/Daniel T. Horner
Daniel T. Horner
Special Master
“circular logic” where that reasoning was based on a number of factors that cumulatively supported the
conclusion); Capizzano v. Sec’y of Health & Human Servs., 440 F.3d 1317, 1326-27 (Fed. Cir. 2006)
(cautioning that the second Althen prong is “not without meaning,” but also explaining that “if close
temporal proximity, combined with the finding that the hepatitis B vaccine can cause RA, demonstrates
that it is logical to conclude that the vaccine was the cause of the RA (the effect), then medical opinions to
this effect are quite probative”).
45 In the absence of a timely-filed motion for review of this Decision, the Clerk of the Court shall enter
judgment accordingly.
57

================================================================================
DOCUMENT 2: USCOURTS-cofc-1_17-vv-01362-cl-extra-10742567
Date issued/filed: 2024-11-18
Pages: 1
Docket text: Supplementary opinion from CourtListener cluster 10275977
--------------------------------------------------------------------------------
         In the United States Court of Federal Claims
                                   OFFICE OF SPECIAL MASTERS
                                           No. 17-1362V
                                      Filed: October 23, 2024


                                                                      Special Master Horner
    ANDREW KALTENMARK and
    DANIELLE KALTENMARK, parents of
    A.J.K., a minor,

                         Petitioner,
    v.

    SECRETARY OF HEALTH AND
    HUMAN SERVICES,

                         Respondent.


Edward Kraus, Kraus Law Group, LLC, Chicago, IL, for petitioner.
Colleen Clemons Hartley, U.S. Department of Justice, Washington, DC, for respondent.

                       DECISION ON ATTORNEYS’ FEES AND COSTS 1

        On September 28, 2017, petitioners filed a petition on behalf of A.J.K., a minor,
for compensation under the National Vaccine Injury Compensation Program, 42 U.S.C.
§ 300aa-10, et seq. (2012) (the “Vaccine Act”). 2 (ECF No. 1.) Petitioners initially
alleged that A.J.K. suffered a cerebral stroke, hypertension, global development delay,
and epilepsy caused in fact by A.J.K.’s Measles, Mumps, and Rubella (“MMR”);
varicella; and influenza (“flu”) A and B vaccinations administered on September 29,
2014. (Id.) On April 1, 2019, petitioners filed an amended petition alleging that A.J.K.
suffered “posterior reversible leukoencephalopathy or stroke, seizure disorder, and their


1
  Because this document contains a reasoned explanation for the action taken in this case, it must be
made publicly accessible and will be posted on the United States Court of Federal Claims' website, and/or
at https://www.govinfo.gov/app/collection/uscourts/national/cofc, in accordance with the E-Government
Act of 2002. 44 U.S.C. § 3501 note (2018) (Federal Management and Promotion of Electronic
Government Services). This means the document will be available to anyone with access to the
internet. In accordance with Vaccine Rule 18(b), Petitioner has 14 days to identify and move to redact
medical or other information, the disclosure of which would constitute an unwarranted invasion of privacy.
If, upon review, I agree that the identified material fits within this definition, I will redact such material from
public access.
2
 Within this decision, all citations to § 300aa will be to the relevant sections of the Vaccine Act at 42
U.S.C. § 300aa-10, et seq.


                                                        1
sequelae.” (ECF No. 56.) A decision denying entitlement was issued on November 27,
2023. (ECF No. 147.)

        Section 15(e)(1) of the Vaccine Act allows for the special master to award
“reasonable attorneys’ fees, and other costs.” § 300aa-15(e)(1)(A)-(B). Petitioners are
entitled to an award of reasonable attorneys’ fees and costs if they are entitled to
compensation under the Vaccine Act or, even if they are unsuccessful, if the special
master finds that the petition was filed in good faith and with a reasonable basis. Avera
v. Sec’y of Health & Human Servs., 515 F.3d 1343, 1352 (Fed. Cir. 2008).

        On January 12, 2024, petitioners filed a final motion for attorneys’ fees and costs
requesting $154,260.10 in attorneys’ fees and $104,020.21 in costs, for a total of
$258,280.31. (ECF No. 151, p. 3.) Respondent filed a response to petitioner’s motion
on January 16, 2024. (ECF No. 152.) Respondent stated that “[n]either the Vaccine
Act nor Vaccine Rule 13 requires respondent to file a response to a request by
petitioner for an award of attorneys’ fees and costs,” but explained that he “is satisfied
the statutory requirements for an award of attorneys’ fees and costs are met in this
case.” (Id. at 1-2.) Respondent requested that the court “exercise its discretion and
determine a reasonable award for attorneys’ fees and costs.” (Id. at 3.)

        It is “well within the special master’s discretion” to determine the reasonableness
of fees. Saxton v. Sec’y of Health & Human Servs., 3 F.3d 1517, 1521-22 (Fed. Cir.
1993); see also Hines ex rel. Sevier v. Sec’y of Health & Human Servs., 22 Cl. Ct. 750,
753 (1991) (“[T]he reviewing court must grant the special master wide latitude in
determining the reasonableness of both attorneys’ fees and costs.”). The Federal
Circuit has approved the lodestar approach to determine reasonable attorneys’ fees and
costs under the Vaccine Act. Avera, 515 F.3d at 1347-48. This is a two-step process.
Id. First, a court determines an “initial estimate . . . by ‘multiplying the number of hours
reasonably expended on the litigation times a reasonable hourly rate.’” Id. (quoting
Blum v. Stenson, 465 U.S. 886, 888 (1984)). Second, the court may make an upward
or downward departure from the initial calculation of the fee award based on specific
findings. Id. at 1348.

         Applications for attorneys’ fees must include contemporaneous and specific
billing records that indicate the work performed and the number of hours spent on said
work. See Savin v. Sec’y of Health & Human Servs., 85 Fed. Cl. 313, 316-18 (2008).
Such applications should not include hours that are “‘excessive, redundant, or otherwise
unnecessary.’” Saxton, 3 F.3d at 1521 (quoting Hensley v. Eckerhart, 461 U.S. 424,
434 (1983)). Attorneys’ costs must be reasonable as well. See Perreira ex rel. Perreira
v. Sec’y of Health & Human Servs., 27 Fed. Cl. 29, 34 (1992) (“The conjunction ‘and’
conjoins both ‘attorneys’ fees’ and ‘other costs’ and the word ‘reasonable’ necessarily
modifies both. Not only must any request for reimbursement of attorneys’ fees be
reasonable, so also must any request for reimbursement of costs.”). Special masters
can reduce a fee request sua sponte, without providing petitioners notice and
opportunity to respond. See Sabella v. Sec’y of Health & Human Servs., 86 Fed. Cl.
201, 209 (2009).


                                             2
      The undersigned has reviewed the billing records submitted with petitioners’
request. (ECF No. 151, Tab A.) In the undersigned’s experience, the request appears
reasonable, and the undersigned finds no cause to reduce the requested hours or rates.
The undersigned has also reviewed the cost records submitted with petitioners’ request.
(ECF No. 151, Tab B; ECF No. 153.) The undersigned finds the costs to be reasonable
and sufficiently documented.

      Accordingly, the undersigned awards the total of $258,280.31 3 as a lump
sum in the form of a check jointly payable to petitioners and petitioners’ counsel,
Edward Kraus, Esq.

        The clerk of the court shall enter judgment in accordance herewith. 4


IT IS SO ORDERED.

                                                          s/Daniel T. Horner
                                                          Daniel T. Horner
                                                          Special Master




3
  This amount is intended to cover all legal expenses incurred in this matter. This award encompasses all
charges by the attorney against a client, including “advanced costs” as well as fees for legal services
rendered. Furthermore, § 300aa-15(e)(3) prevents an attorney from charging or collecting fees (including
costs) that would be in addition to the amount awarded herein. See generally Beck v. Sec’y of Health &
Human Servs., 924 F.2d 1029 (Fed. Cir.1991).
4
  Pursuant to Vaccine Rule 11(a), entry of judgment can be expedited by the parties’ joint filing of notice
renouncing the right to seek review.

                                                      3