VICP Registry Case Source Bundle
Canonical URL: https://vicp-registry.org/case/USCOURTS-cofc-1_19-vv-00468
Package ID: USCOURTS-cofc-1_19-vv-00468
Petitioner: Lawrence Romine
Filed: 2019-03-29
Decided: 2026-03-13
Vaccine: Prevnar 13 (pneumococcal conjugate)
Vaccination date: 2018-03-15
Condition: Guillain-Barre syndrome (GBS)
Outcome: denied
Award amount USD: 

AI-assisted case summary:
Lawrence Romine, born in 1951, received the Prevnar 13 vaccine on March 15, 2018, and alleges it caused him to develop Guillain-Barre syndrome (GBS). His symptoms began approximately 13 days later, around March 28, 2018. Mr. Romine supported his claim with expert opinions suggesting a molecular mimicry theory, proposing that components of the Prevnar vaccine could cross-react with proteins or phospholipids in the nervous system, leading to GBS. The Secretary of Health and Human Services opposed the claim, presenting expert opinions that refuted the proposed theories. The court reviewed extensive epidemiological studies which found no increased risk of GBS following pneumococcal vaccines and no association between Streptococcus pneumoniae infections and GBS. The court also examined Dr. Steinman's molecular mimicry theories, including a protein-based theory involving CRM-197 and PMP22, and a phosphoglycerol-based theory. The court found Dr. Steinman's methodology, particularly his use of the BLAST program with a lenient E-value, to be unreliable. Furthermore, the court found insufficient evidence to support the proposed cross-reactivity between vaccine components and nervous system proteins or phospholipids. The court also noted the lack of general acceptance for the proposed theories within the scientific community and the difficulty in falsifying the molecular mimicry hypothesis. Ultimately, the court concluded that Mr. Romine failed to establish a reliable theory of causation by a preponderance of the evidence and denied his claim for compensation.

Theory of causation field:
Prevnar 13 pneumococcal conjugate vaccine on March 15, 2018, age 67, followed by Guillain-Barre syndrome about 13 days later. DENIED. Petitioner relied on Dr. Steven Sykes and Dr. Lawrence Steinman, arguing molecular mimicry/cross-reactivity involving pneumococcal vaccine components, myelin proteins, and phospholipids. Respondent relied on Dr. James J. Sejvar and Dr. Richard Alexander, who emphasized the lack of reliable epidemiologic association between pneumococcal vaccination and GBS, the absence of wild pneumococcal infection preceding GBS, and the speculative nature of the proposed cross-reactivity. Special Master Moran found no persuasive reliable medical theory and no logical sequence proving the vaccine caused Mr. Romine's GBS. Decision filed March 13, 2026. Attorney: Jeffrey S. Pop.

Public staged source text:

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DOCUMENT 1: USCOURTS-cofc-1_19-vv-00468-0
Date issued/filed: 2026-04-06
Pages: 42
Docket text: PUBLIC DECISION (Originally filed: 03/13/2026) regarding 85 DECISION of Special Master, Signed by Special Master Christian J. Moran. (ceo) Service on parties made.
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Case 1:19-vv-00468-UNJ Document 86 Filed 04/06/26 Page 1 of 42
In the United States Court of Federal Claims
OFFICE OF SPECIAL MASTERS
* * * * * * * * * * * * * * * * * * * * * * * * *
LAWRENCE ROMINE, *
* No. 19-468V
Petitioner, * Special Master Christian J. Moran
v. *
*
SECRETARY OF HEALTH * Filed: March 13, 2026
AND HUMAN SERVICES, *
*
Respondent. *
* * * * * * * * * * * * * * * * * * * * * * * * *
Jeffrey S. Pop, Jeffrey S. Pop & Associates, Beverly Hills, CA, for petitioner;
Irene Angelica Firippis, United States Dep’t of Justice, Washington, DC, for respondent.
PUBLISHED DECISION DENYING ENTITLEMENT TO COMPENSATION1
Lawrence Romine alleges that a vaccine called Prevnar, which prevents invasive diseases
caused by certain Streptococcus pneumoniae serotypes, caused him to suffer a neurologic
disease, Guillain-Barre syndrome (“GBS”). Mr. Romine supported his claim with opinions from
two doctors, Steven Sykes and Lawrence Steinman. The Secretary opposes the claim and relies
upon opinions from two experts, David Alexander and Lindsay Whitton.
Both parties argued their positions through briefs submitted before a hearing. All four
experts and Mr. Romine testified at a hearing. Following the hearing, the parties renewed their
arguments in another set of briefs.
Mr. Romine has not established that he is entitled to compensation. Mr. Romine has not
shown a persuasive and reliable theory by which the Prevnar vaccine can cause GBS.
The beginning portion of this decision follows a relatively traditional path of opinions
from special masters regarding entitlement. Basic information about Mr. Romine’s health,
relevant vaccines, and GBS are set out in Section I. The procedural history, which is relatively
1 Because this decision 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 decision will
be available to anyone with access to the internet. In accordance with Vaccine Rule 18(b), the
parties have 14 days to identify and move to redact medical or other information, the disclosure
of which would constitute an unwarranted invasion of privacy. Any changes will appear in the
document posted on the website.

Case 1:19-vv-00468-UNJ Document 86 Filed 04/06/26 Page 2 of 42
straightforward, is presented in Section II. Section III states the well-established standards for
adjudication. The analysis begins in Section IV with an exploration of epidemiology. Section V
turns to the theories that Dr. Steinman presented, molecular mimicry based upon proteins and
molecular mimicry theory based upon phospholipids.
The next three sections expand beyond the traditional structure of adjudication. Section
VI evaluates whether Dr. Steinman’s opinions are reliable as measured against the factors for
reliability set out in Daubert. Section VII presents additional comments in a summary. Finally,
Section VIII compares the result in this case to the different outcomes in many other cases
involving Prevnar and GBS. An appendix containing the bibliographic information for the
medical literature cited throughout this Decision is attached.
I. Background: Petitioner’s Health, Vaccines, and GBS
Mr. Romine was born in 1951. Exhibit 1 (declaration) ¶ 1. He was married with two
daughters. For employment, he managed a factory that multiple generations in his family had
owned. For recreation, he enjoyed golfing, and his handicap was in the single digits.
Before March 15, 2018, Mr. Romine’s health seemed ordinary. See Exhibit 1 ¶¶ 3-4.
The Secretary did not assert any pre-existing problems contributed to his GBS. See Resp’t’s
Rep., filed pursuant to Vaccine Rule 4, on April 20, 2020, at 5-7.
On March 15, 2018, Mr. Romine received a vaccine against pneumococcus.
Pneumococcus is a type of bacteria. Scientists sometimes classify bacteria by how they respond
to a stain called Gram staining. For an explanation of Gram staining, see Exhibit C (Dr.
Whitton’s report) at 10. Pneumococcus is Gram positive.
Pneumococcus has different strains. Different strains of pneumococcus are reflected in
the different vaccines against pneumococcus. One pneumococcal vaccine is known as
Pneumovax 23, a polysaccharide-type vaccine which is typically given to adults. The Vaccine
Program does not compensate claims based upon Pneumovax 23. See National Vaccine Injury
Compensation Program: Addition of Pneumococcal Conjugate Vaccines to the Vaccine Injury
Table, 66 Fed. Reg. 28166 (May 22, 2001) (“Through this notice, pneumococcal conjugate
vaccines are now included as covered vaccines under Category XIII of the Table. Because the
CDC only recommended pneumococcal conjugate vaccines to the Secretary for routine
administration to children, polysaccharide-type pneumococcal vaccines are not covered under
the VICP or included on the Table.”).
Mr. Romine can bring his claim in the Vaccine Program because he received a
pneumococcal vaccine that was not Pneumovax 23. The pneumococcal vaccine Mr. Romine
received on March 15, 2018 is known as Prevnar 13. This vaccine is recommended for children,
which explains why the Vaccine Program covers Prevnar. Prevnar 13 differs from Pneumovax
23 because the strains of pneumococcus are conjugated. “Conjugate,” in this context, refers to
two substances being paired. Dorlands Illus. Med. Dictionary 399 (33rd ed.). According to an
article by Tseng et al., “unconjugated polysaccharide vaccines likely do not confer long-lasting
protection,” whereas conjugated vaccines such as Prevnar 13 have “vaccine serotypes after
vaccination and the ability to prolong the duration of protection in elderly adults, with no
apparent increase in safety concerns.” Tseng at 7. In conjugated pneumococcal vaccines, the
2

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strains of the pneumococcus bacteria are conjugated onto a protein called CRM. The CRM
protein is a basis for Dr. Steinman's theory, and more information about CRM is provided in that
context.
As stated earlier, Mr. Romine alleges his vaccination with Prevnar on March 15, 2018
caused his ill health. The first deterioration in his health occurred around March 28, 2018. See
Exhibit 3 at 35-45 (medical record created April 3, 2018, reporting development of problems six
days ago). This date is about 13 days after the vaccination. Dr. Whitton accepts the latency as
one for which an inference of causation is appropriate.
While hospitalized, Mr. Romine was diagnosed with GBS. Exhibit 4 at 1-16 (discharge
summary), 42 (evaluation on April 10, 2018). GBS is a disease of the peripheral nervous system.
“Peripheral” refers to nerves that extend outside of the spinal cord. By contrast, the central
nervous system refers to the brain and spinal cord. In the peripheral nervous system, the part that
transmits electrical signals (like a wire) is an axon. In the peripheral nervous system, most
nerves are myelinated. Myelin is a substance similar to the insulation for an electrical wire.
Myelin itself is composed of lipids. Dorland’s at 1201; see also Yuki at 2298.
The portion of the nerve primarily attacked is a basis for dividing GBS into different
variants. For example, when the axon is damaged, a person may develop a subtype of GBS
known as acute motor axonal neuropathy (AMAN), which primarily affects the motor nerves and
lacks features of demyelination. See 42 C.F.R. § 100.3(c)(15)(ii). However, this form is rare in
the United States and Mr. Romine did not have this form. Rather, Mr. Romine suffered from the
more common form of GBS, acute inflammatory demyelinating polyneuropathy (AIDP).
The causes of AIDP are not known. A medical term for not knowing the cause is
“idiopathic.” Dorland’s at 901. Although doctors have not discovered the cause(s) of AIDP, they
have observed that in roughly two-thirds of the cases, the person suffered from an infection
before developing GBS. Jasti at 1176.
A well-known example of an infectious organism that precedes GBS is campylobacter
jejuni (“C. jejuni”). C. jejuni is a Gram-negative bacterium that causes gastrointestinal problems
such as diarrhea. See Dorland’s at 271. Reliable evidence supports the idea that when the body's
immune system responds to a C. jejuni infection, the immune system produces antibodies against
the bacteria. These antibodies occasionally go on to attack the nervous system. Because the
pathogenesis of GBS involves the body’s own immune system, GBS is considered an
autoimmune disease.
In addition to C. jejuni, other infectious agents are associated with GBS. Examples
include Haemophilius influenzae. Importantly, this list of infectious agents does not include
pneumococcus. See Jasti at 1176.
Of the potential infectious agents, Mr. Romine was not detected to suffer from any. The
parties stipulated that the Secretary was not proposing an alternative cause for Mr. Romine’s
GBS. The doctors retained in this litigation also did not identify a cause of the GBS, other than
potentially the Prevnar vaccine.
The doctors who treated Mr. Romine generally did not say the Prevnar vaccine caused his
GBS. Some doctors memorialized a temporal sequence in which they recognized the Prevnar
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vaccination preceded the onset of the GBS. See, e.g., Exhibit 4 at 38 (Dr. Kim: Mr. Romine “had
a pneumonia shot a week prior to symptom onset”); see also Pet’r’s Pre-Hearing Br., filed Sep.
30, 2024, at 25. These remarks carry relatively little significance on the question of vaccines as a
cause. Cedillo v. Sec’y of Health & Hum. Servs., 617 F.3d 1328, 1347–48 (2010).
While most notations in the treatment records about Mr. Romine's receipt of Prevnar are
not direct statements of causation, there is one unusual exception. On April 14, 2018, Nurse
Maria Orito, a “CDI specialist,” requested information from a doctor who had treated Mr.
Romine during the hospitalization, Okkyung Kim. Exhibit 4 at 90. Before this case, Dr.
Steinman was not familiar with the term “CDI.” Tr. 60-61. It apparently means “clinical
documentation improvement.” To fill out this form, Nurse Ochoa gave Dr. Kim four choices:
- Possible, Probable or Suspected PNA Vaccine related to GBS.
- PNA Vaccine not related to GBS
- Other (specify)
- Unable to determine
Exhibit 4 at 90. Dr. Kim responded: “pneumonia vaccine probably related to GBS.” Id.
Shortly after the discharge, a doctor informed government officials at the Centers for
Disease Control and Federal Drug Administration that Mr. Romine developed GBS after
receiving the Prevnar vaccine. Exhibit 79 (VAERS report, dated July 6, 2018).
After discharge, Mr. Romine went through recovery and he credited his family, especially
his wife, for caring for him. Due to these efforts, Mr. Romine greatly improved. By the hearing
in December 2024, Mr. Romine had returned to running his family business. He also enjoyed
recreational activities such as golf, although at reduced levels.
II. Procedural History
A. Preliminary Materials
Mr. Romine initiated this case by filing a petition on March 29, 2019. The petition
alleges that the Prevnar vaccine caused him to suffer GBS. This petition was originally assigned
to a different special master. Mr. Romine periodically submitted medical records. The Secretary
evaluated this material and recommended against an award of compensation. Resp’t’s Rep., filed
April 20, 2020.
B. First Pair of Expert Reports
Mr. Romine supported his claim by filing a report from Dr. Sykes on July 7, 2020.
Exhibit 11. Dr. Sykes cited nine medical articles. Exhibits 13-21. As discussed in the analysis,
his opinion has largely been superseded by opinions from Dr. Steinman.
Before Mr. Romine filed a report from Dr. Steinman, the Secretary presented a report
from a neurologist, David Alexander. Exhibit A (filed March 8, 2021). Dr. Alexander presented
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some of the epidemiological studies discussed in the analysis. Otherwise, Dr. Alexander's report
is largely overtaken by the reports from Dr. Whitton.
C. Second Pair of Experts
The level of complexity increased dramatically with the presentation of reports from Dr.
Steinman for Mr. Romine and Dr. Whitton for the Secretary. Dr. Steinman frequently testifies on
behalf of people seeking competition through the Vaccine Program. Special masters are
generally familiar with his background as a neuroimmunologist.
In his first report, Dr. Steinman proposed that Mr. Romine’s GBS was caused by the
Prevnar vaccine. Broadly speaking, Dr. Steinman put forward two theories about how the
Prevnar vaccine can cause GBS. The first theory was based upon phosphoglycerol. The second
theory was based upon an asserted similarity between a component of the vaccine, CRM-197,
and proteins found in the nervous system. Exhibit 22. Additional details about Dr. Steinman's
opinions and the basis for those opinions are set out in the sections below.
The Secretary responded with a report from Dr. Whitton. Exhibit C.2 Dr. Whitton, as
discussed at length below, disagreed with many aspects of Dr. Steinman's opinion as to whether
and how the Prevnar vaccine can cause GBS. Based upon this record, the presiding special
master scheduled and entitlement hearing for December 3 through December 5, 2024. Order,
issued June 29, 2022. On August 29, 2024, the case was reassigned to the undersigned.
Upon reassignment, the parties filed a great deal of material in a relatively short amount
of time. Mr. Romine submitted a second report from Dr. Steinman. Exhibit 58.3 A key revision
concerned Dr. Steinman’s protein-based theory. Dr. Steinman now opined that the CRM-197
portion of the vaccine cross-reacted with a protein known as PMP-22. Mr. Romine argued that he
was entitled to compensation through a pre-hearing brief, submitted on September 30, 2024.
With the pre-hearing brief, Mr. Romine filed five additional articles that Dr. Steinman had not
discussed in any report. See Exhibits 73-77.4 Of this group of articles, the most relevant is the
article by Barbar.
The Secretary responded with both a second report from Dr. Whitton (Exhibit D) and a
brief on October 30, 2024. Mr. Romine replied on November 12, 2024.
2 Technically, the first report was labeled as Exhibit B. However, a corrected version was
filed on June 16, 2022 as Exhibit C.
3 Mr. Raymond subsequently submitted a corrected version of this report as Exhibit 58.1
on November 26, 2024. This decision cites to the corrected report.
4 Normally, the undersigned does not permit parties to file articles without a disclosure
from an expert about the relevance of the article. Mr. Romine is exceptional because the
undersigned was not the presiding special master when the hearing was scheduled.
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In response to a suggestion from the undersigned, Dr. Steinman prepared a second
supplemental report in which he attempted to show that some BLAST5 searches do not return
any positive results. Exhibit 80, filed November 25, 2024. This aspect turned out to be
unintentionally complicated, despite everyone’s good faith.
The hearing was held December 3 through December 5, 2024 in Los Angeles, California.
Mr. Romine, Dr. Sykes, Dr. Alexander, and Dr. Steinman testified in person. Dr. Whitton
testified by videoconference. The hearing was marred by an outburst by Dr. Steinman during Dr.
Whitton’s testimony, but that inappropriate remark and the episode that followed does not
otherwise affect the outcome of Mr. Romine’s case.6
After the hearing, the parties argued their cases through briefs. Mr. Romine presented his
primary brief on February 28, 2025, and his reply on May 29, 2025. In between, the Secretary
advanced his arguments via a brief filed on April 29, 2025. With the submission of Mr.
Romine’s reply, the case is ready for adjudication.
III. Standards for Adjudication
A petitioner is required to establish his case by a preponderance of the evidence. 42
U.S.C. § 300aa–13(1)(a). The preponderance of the evidence standard requires a “trier of fact to
believe that the existence of a fact is more probable than its nonexistence before [he] may find in
favor of the party who has the burden to persuade the judge of the fact's existence.” Moberly v.
Sec’y of Health & Hum. Servs., 592 F.3d 1315, 1322 n.2 (Fed. Cir. 2010) (citations omitted).
Proof of medical certainty is not required. Bunting v. Sec’y of Health & Hum. Servs., 931 F.2d
867, 873 (Fed. Cir. 1991).
Distinguishing between “preponderant evidence” and “medical certainty” is important
because a special master should not impose an evidentiary burden that is too high. Andreu v.
Sec’y of Health & Hum. Servs., 569 F.3d 1367, 1379-80 (Fed. Cir. 2009) (reversing special
master's decision that petitioners were not entitled to compensation); see also Lampe v. Sec’y of
Health & Hum. Servs., 219 F.3d 1357 (Fed. Cir. 2000); Hodges v. Sec’y of Health & Hum.
Servs., 9 F.3d 958, 961 (Fed. Cir. 1993) (disagreeing with dissenting judge's contention that the
special master confused preponderance of the evidence with medical certainty).
Because Mr. Romine is proceeding with an off-Table claim, he must establish that the
Prevnar vaccine was the cause-in-fact of his GBS. Petitioners establish causation-in-fact by
fulfilling the Althen prongs. Petitioners bear a burden “to show by preponderant evidence that
the vaccination brought about [the vaccinee’s] 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 a proximate temporal
relationship between vaccination and injury.” Althen v. Sec’y of Health & Hum. Servs., 418 F.3d
5 The Basic Local Alignment Search Tool (“BLAST”) is a program that compares
biological sequences to identify similarities. For more details on BLAST and Dr. Steinman’s use
of it, see Section V.B.1 below.
6 Dr. Steinman and counsel retaining Dr. Steinman are warned that any future violations
of courtroom decorum may come with a more severe consequence.
6

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1274, 1278 (Fed. Cir. 2005). Mr. Romine’s case turns on Althen prong one, which requires Mr.
Romine to present a theory explaining how Prevnar can cause GBS.
IV. Epidemiology
The analysis of whether Prevnar can cause GBS starts with epidemiology because
epidemiology could be relevant to whatever theory is being proposed. See Tr. 239-40 (Dr.
Steinman explaining that one paper provided epidemiology and another paper provided a
mechanism). For a lengthy discussion of the value of epidemiologic studies in the Vaccine
Program, see Tullio v. Sec’y of Health & Hum. Servs., No. 15-51V, 2019 WL 7580149, at *5-8
(Fed. Cl. Spec. Mstr. Dec. 19, 2019), mot. for rev. denied, 149 Fed. Cl. 448, 475 (2020).
This section evaluates two types of studies. In the first type, which is discussed in section
A, researchers looked to see whether people who received vaccines against pneumococcus
developed GBS. In the second type, the question is whether people who are infected with the
pneumococcus bacteria develop GBS.
A. Pneumococcal vaccines and GBS
Here, four articles explored whether people who received a vaccine against
pneumococcus developed GBS at an increased incidence. These are Baxter, Haber, Tseng, and
Yoon.
1. Baxter
This group of researchers investigated “the possible relationship between GBS and
vaccinations.” Baxter at 198. To do so, they consulted electronic medical records from Kaiser
Permanente Northern California. Their study spanned 13 years and more than 30 million person-
years. The researchers conducted two different types of analysis, a case-centered study and a
cohort analysis. Id. at 198-99. In short, the researchers looked to see if people receiving various
vaccines developed GBS more frequently. One of the vaccines was pneumovax 23 (labeled as
PPV-23 in Baxter). The Baxter researchers did not study Prevnar because Prevnar was not
available. Tr. 98, 110, 327. The researchers “found no evidence of an increased risk of GBS
following any vaccination, as well as vaccinations combined.” Baxter at 201. The researchers
acknowledged that they “had limited power to fully assess the risk of GBS following vaccination
due to the rarity of the outcome.” However, they concluded that “the low numbers of GBS cases
that were temporally associated with vaccination, coupled with our results, provide reassurance
that the risk of GBS following any vaccine, including influenza vaccines, is extremely low.” Id.
at 203.
2. Haber
A group of researchers from the CDC consulted the VAERS database for adverse events
following Prevnar 13. Special masters are familiar with the VAERS system. As explained in
Haber, “VAERS is a national vaccine safety surveillance program run by CDC and the Food and
Drug Administration (FDA). This early warning system is designed to detect possible safety
issues with U. S.-licensed vaccines." Haber at 6631. A basic purpose of the vaccine adverse
event reporting system is to surveil for potential problems that warrant further investigation. Dr.
Whitton used a common phrase, asking whether there is a “red flag warning?” Tr. 328.
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Often, an analysis of VAERS data can be unreliable because researchers do not know
how many doses of a vaccine were given. Puckett v. Sec'y of Health & Hum. Servs., No. 21-
1125V, 2024 WL 3160589, at *4 (Fed. Cl. Spec. Mstr. June 3, 2024) (citing cases); Ferguson v.
Sec'y of Health & Hum. Servs., No. 17-1737V, 2021 WL 6276204, at *18 n.48 (Fed. Cl. Spec.
Mstr. Dec. 10, 2021). The Federal Circuit has recognized difficulty in drawing conclusions from
data when the denominator is not known. GHS Health Maintenance Organization, Inc. v. United
States, 536 F.3d 1293, 1302 n.6 (Fed. Cir. 2008). In Haber, however, there is datum to fill the
denominator. Haber researchers stated that in the study, approximately 16,000,000 doses were
distributed. Haber at 6333; see also Tr. 98.7
In the relevant time, the VAERS database contained 10 reports of people age greater than
65 years old developing GBS. The question then becomes: do 10 reports of GBS raise concern?
Dr. Alexander testified that the incidence of GBS in Haber was about 0.7 cases of GBS per
million vaccine doses. Tr. 98. The usual background incidence of GBS is roughly 1.0 cases per
million people. Yuki at 2294.
For adverse events generally, the Haber researchers stated: “We . . . did not identify any
new safety concerns or unexpected [adverse events].” Haber at 6333. For the question of GBS
specifically, the Haber researchers reported: “Our data mining analysis noted no disproportionate
reporting for GBS.” Haber at 6334. The Secretary’s experts emphasize this aspect of the Haber
article. Tr. 98 (Dr. Alexander), 329 (Dr. Whitton). Mr. Romine's experts, too, acknowledge this
finding. Tr. 67 (Dr. Sykes), 199 (Dr. Steinman).
Mr. Romine's experts seem to focus on only the numerator, meaning the number of cases
reported. Tr. 52 (Dr. Sykes: 10 patients with GBS), Tr. 200 (Dr. Steinman: “they saw 10 cases”).
But, when considered in the context of the denominator (the population exposed to the
vaccination), these reports in Haber resemble a case series. Case series are not a persuasive basis
for finding causation. Virissimo v. Sec’y of Health & Hum. Servs., No. 24-1168V, 2025 WL
2439181, at *3 (Fed. Cl. Spec. Mstr. July 30, 2025); Cerrone v. Sec'y of Health & Hum. Servs.,
No. 17-1158V, 2023 WL 3816718, at *19 (Fed. Cl. June 1, 2023) (summarizing opinion of the
Secretary’s expert), mot. for rev. denied, 168 Fed. Cl. 745 (2023), aff'd, 146 F.4th 1113 (Fed. Cir.
2025); see also K.O. v. Sec'y of Health & Hum. Servs., No. 13-472V, 2016 WL 7634491, at *11-
12 (Fed. Cl. Spec. Mstr. July 7, 2016) (discussing appellate precedent on case reports). Dr.
Whitton was persuasive when, in the context of discussing Haber, he stated that the identification
of some cases of GBS occurring after Prevnar is “absolutely not evidence of causation.” Tr. 330.
3. Tseng
This group explored how the safety of the two pneumococcal vaccinations compared. Tr.
111, 330. The older vaccine was pneumovax (labeled as PPSV 23, see Tr. 111). The newer
vaccine was Prevnar 13 (labeled as PCV 13). To determine whether one vaccine had more
adverse events, the researchers consulted the Vaccine Safety Database (VSD). Tseng at 2. The
VSD contains medical information about millions of people. Sparrow v. Sec'y of Health & Hum.
7 Technically, the doses distributed could exceed the doses administered. But, the number
of doses distributed can serve as a rough proxy for the number of doses administered. Likewise,
the numerator (adverse events) may be affected by underreporting.
8

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Servs., No. 18-295V, 2024 WL 1599165, at *19 (Fed. Cl. Spec. Mstr. Mar. 19, 2024) (the “VSD
has data on >9 million subjects annually”), mot. for rev. denied, 173 Fed. Cl. 177 (2024), appeal
docketed, No. 2025-1161 (Fed. Cir. Nov. 8, 2024). For more information about the VSD, see
Dwyer v. Sec'y of Health & Hum. Servs., No. 03-1202V, 2010 WL 892250, at *67 n.284 (Fed.
Cl. Spec. Mstr. Mar. 12, 2010); Werderitsh v. Sec'y of Health & Hum. Servs., No. 99-319V, 2005
WL 3320041, at *15 (Fed. Cl. Spec. Mstr. Nov. 10, 2005). The researchers searched specifically
for GBS. Tseng at 3; Tr. 100. The incidence of GBS was not meaningfully different. Id. at 6
(Table 3); Tr. 332.
4. Yoon
These researchers wanted to evaluate the safety of pneumovax (labeled PPSV 23) among
adults in Korea. They “assembled a large linked database by linking the Korea Immunization
Registry Information System (KIRIS) to the National Health Information Database (NHID) from
July 2018 to June 2021." Yoon at 2. Using this method, the researchers identified more than 1.8
million people who received the PPSV23 vaccine. Yoon at 9. The researchers were interested in
GBS. They used a self- controlled risk interval. Id. at 3. The incidence rate ratio was less than
one, meaning an association was not favored. Id. at 7 (figure 3). The authors concluded “our
results corroborate previous findings that PPSV23 was not associated with a higher risk of
serious systemic adverse events related to the cardiovascular, neurological, and immunological
systems." Id. at 9; accord Tr. 333.
5. Summary
Collectively, these studies tend to reinforce each other in suggesting that an association
between a pneumococcal vaccine and GBS has not been found, despite attempts to find such an
association. A summary of these studies is:
Epidemiological Studies on Pneumococcal Vaccines and GBS
Study & Year Vaccine Population Finding
13 years and 30
Baxter, 2013 Pneumovax No increased risk
million-person years
16 million doses
Haber, 2016 Prevnar No disproportionate reporting
distributed
Prevnar and Millions in Vaccine
Tseng, 2018 No difference in safety
Pneumovax Safety Datalink
Yoon, 2024 Pneumovax 1.8 million Koreans No increased risk
Except for some discussion about Haber, neither Dr. Sykes nor Dr. Steinman testified
about these epidemiological studies at length. In lieu of evidence, Mr. Romine attempts to
minimize the value of epidemiological studies mostly through attorney's argument. See Pet’r’s
Reply at 12-20. One argument --- that the epidemiological studies had limitations including that
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they were “not specifically focusing on GBS but rather adverse events in general” --- is
mistaken. As noted, each of the studies did look for GBS specifically.
While it is true that these epidemiological studies have other limitations, all studies have
some limitations. Martinez v. Secʼy of Health & Hum. Servs., No. 16-738V, 2022 WL 4884923,
at *30 (Fed. Cl. Spec. Mstr. Sep. 9, 2022), mot. for rev. denied, 165 Fed. Cl. 76 (2023). It would
be unusual for one study to be decisive. The Secretary is not burdened with an obligation to
prove beyond a reasonable doubt that Prevnar cannot cause GBS. Instead, Mr. Romine bears a
burden to present reliable evidence showing, more likely than not, that Prevnar can cause GBS.
Although the burden rests with the petitioner, the Secretary can introduce evidence undermining
a petitioner's case. Bazan v. Sec'y of Health and Hum. Servs., 539 F.3d 1347, 1353 (Fed. Cir.
2008). Here, the epidemiological studies on pneumococcal vaccines make the claim less likely,
but not impossible.
B. Pneumococcus bacteria and GBS
The previous section addresses studies on pneumococcal vaccines and GBS. A different
way of looking at the question is whether the Streptococcus pneumoniae bacteria is associated
with GBS.
Reliable evidence supports a finding that streptococcal infections have not led to GBS.
This finding is based upon two points. First, in Dr. Whitton's first report, he cited an article
written by several people, including a doctor who has often assisted petitioners claiming
compensation in the Vaccine Program, M. Eric Gershwin. Exhibit C at 9-11. Dr. Gershwin and
colleagues did not list Streptococcus pneumoniae as being associated with GBS. See Exhibit C-
19 (Jasti) at 1176. Second, Dr. Steinman had an opportunity to respond but did not provide a
counterexample. See Exhibit 58. This pattern repeated at the hearing as again Dr. Whitton
testified that the wild infectious bacteria has not been associated with GBS. Tr. 318-19. Again,
Dr. Steinman could have answered this assertion but did not supply any information on this topic
in his rebuttal.
Dr. Whitton explained why Streptococcus pneumoniae, unlike some other bacteria such
as C. jejuni, is not likely to cause GBS. Streptococcus pneumoniae, as mentioned previously, is
Gram positive. Dorland’s at 1753. The types of bacteria that are associated with GBS are the
opposite; they are Gram negative. Exhibit C at 10-11; Tr. 321. Dr. Steinman did not effectively
rebut that distinction between Gram negative and Gram positive. See Tr. 138
If an analogy were to be drawn, then all things being equal, it would seem more reliable
to start with the infectious agents to which the vaccine is directed rather than a different
infectious agent such as C. jejuni. Mr. Romine's main argument is that all things are not equal.
Dr. Steinman emphasizes that the sugars present in the naturally occurring bacteria differ from
the sugars in Prevnar because the polysaccharides in the vaccine are conjugated to CRM-197.
Exhibit 22 at 30, Tr. 137 (the vaccine is a patented invention). Dr. Whitton acknowledged that
this point is “not unreasonable.” Tr. 323.
Dr. Whitton's answer to this point is two-fold, although one point is more relevant in this
context. Dr. Whitton's other point will be discussed in the context of Bryson antibodies below.
Dr. Whitton points out that the immune responses to wild (or naked) pneumococcal
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polysaccharides must be similar to a large degree to the immune responses to Prevnar because
Prevnar is effective. Tr. 324. Dr. Whitton’s reasoning seems sound. In any event, Dr. Steinman
did not rebut it. See Gamboa-Avila v. Sec'y of Health & Hum. Servs., 166 F.4th 1318, 1322
(Fed. Cir. 2026) (ruling that special master was not arbitrary in rejecting Dr. Steinman’s theory
because, in part, the special master noted that the wild bacteria is not associated with GBS).
C. Synopsis on pneumococcal bacteria, pneumococcal vaccines and GBS
In sum, the Secretary has presented two similar, but not identical, points. First, four
large-scale epidemiological studies have looked for an increased risk of GBS after vaccines
against Streptococcus pneumoniae. They did not find an increased risk. Second, there appears to
be no reports of a wild Streptococcus pneumoniae infection preceding GBS.
Together, these lines of evidence weigh against finding that Prevnar can cause GBS. But,
these lines of evidence are not dispositive. Thus, the theory that Dr. Steinman proposes ---
molecular mimicry --- is introduced next.
V. Molecular Mimicry
Molecular mimicry originated as a theory to explain how infectious organisms can evade
the immune system of human beings. Tr. 514. The idea was that infectious organisms would
benefit from resembling host tissue because the immune system is trained not to attack host
tissues.
The theory of molecular mercury turned when Fujinami and Oldstone proposed that
molecular mimicry could explain autoimmunity. Tr. 515; see also Tr. 228, 254. In the Vaccine
Program, the theory of molecular mimicry is that when the human system responds to a foreign
antigen (such as an infectious agent or vaccine), the immune system mistakenly targets human
tissue leading to a disease. Tr. 56-57, 140, 335.
After Fujinami and Oldstone proposed molecular mimicry to explain autoimmune
disease, other scientists also proposed this hypothesis. For example, in 1993, Dr. Steinman wrote
an article for scientific America about molecular mimicry. Tr. 139. More than 100 Vaccine
Program cases have been based upon molecular mimicry. Hoffman v. Sec’y of Health & Hum.
Servs., No. 19-111V, 2024 WL 4444773, at *8 (Fed. Cl. Spec. Mstr. Sep. 13, 2024) (appendix).
Despite being proposed for decades in many contexts, demonstrated instances of
molecular mimicry causing disease are rare. See Tr. 512. Here, Dr. Sykes cited an article by
Lori J. Albert as one of five articles supporting an assertion: “The immune-mediate[d]
mechanisms underlying Guillain-Barre Syndrome following vaccination are best explained by
the molecular mimicry theory.” Exhibit 11 at 4. On cross examination, the Secretary challenged
Dr. Sykes by pointing out that Albert says: “No data convincingly demonstrate that mimicry is an
important mechanism to the development of autoimmune disease in humans." Tr. 68; accord
Exhibit 21 (Albert) at 3. In Dr. Alexander's direct testimony, he referred to the same sentence
from Albert. Tr. 92.
Dr. Steinman was critical of Albert because it was published in 1999. Tr. 136, 226.
Another article of the same generation also concluded that there are no good examples of
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molecular mimicry. Rose; Tr. 468. As Dr. Steinman stated, since the 1990s, science has
continued to evolve. Tr. 136.
One advancement was the sequencing of the entire human genome. This achievement
was a foundation for the discovery that the composition of human proteins greatly overlaps with
the composition of proteins in infectious organisms. See Bishara v. Sec'y of Health & Hum.
Servs., No. 19-115V, 2023 WL 2799054, at *7 (Fed. Cl. Jan. 27, 2023) (“homology is common”)
(citing cases).
On the other hand, the intervening years have brought out some support from molecular
mimicry as a theory to explain autoimmunity. Yuki linked C. jejuni to GBS through molecular
mimicry. Yuki at 2292; Tr. 261. A second example is that a group of researchers including Dr.
Steinman showed that molecular mimicry could explain how the Epstein-Barr virus can cause
multiple sclerosis. Lanz; Tr. 173-76, 364-65.
Potentially based upon this work, Dr. Whitton acknowledges that viruses (but not
necessarily vaccines that target viruses) can trigger autoimmunity through molecular mimicry. Tr.
451-52, See also Tr. 512. However, he also opines that molecular mimicry is not an easily
falsifiable hypothesis. Tr. 513-14.
A. Appellate precedents on molecular mimicry
Because special masters are often called upon to evaluate the persuasiveness of the theory
of molecular mimicry, the Court of Federal Claims and the Court of Appeals for the Federal
Circuit have considered molecular mimicry in their appellate role. In December 2019, the
undersigned identified the leading precedents as W.C. v. Sec’y of Health & Hum. Servs., 704
F.3d 1352 (Fed. Cir. 2013), and Caves v. Sec’y of Dep’t. of Health & Hum. Servs., 100 Fed. Cl.
119 (2011), aff’d sub nom., 463 F. App’x 932 (Fed. Cir. 2012). Tullio v. Sec’y of Health & Hum.
Servs., No. 15-51V, 2019 WL 7580149, at *12-14 (Fed. Cl. Spec. Mstr. Dec. 19, 2019), mot. for
rev. denied, 149 Fed. Cl. 448 (2020). While Tullio describes those cases in more detail, their
essence appears to be that although molecular mimicry is accepted in some contexts, special
masters may properly require some empirical evidence to show that a particular vaccine can
cause a particular disease.
In the next approximately four years, appellate authorities reviewing decisions involving
molecular mimicry have generally endorsed the approach of looking for some evidence that
persuasively shows that a portion of a vaccine resembles a portion of human tissue, which
contributes to causing the disease, and that the immune system will respond to the relevant
amino acid sequence. Chronologically, the list of more recent appellate cases begins with the
opinion in Tullio, which denied the motion for review. 149 Fed. Cl. 448, 467-68 (2020).
Another example in which the Court of Federal Claims held that the special master did
not elevate the petitioner’s burden of proof in the context of evaluating the theory of molecular
mimicry is Morgan v. Sec’y of Health & Hum. Servs., 148 Fed. Cl. 454, 476-77 (2020), aff’d in
non-precedential opinion, 850 F. App’x 775 (Fed. Cir. 2021). In Morgan, the Chief Special
Master found that petitioner had not presented persuasive evidence about a relevant antibody. Id.
at 477. The Chief Special Master also noted that the articles about the relevant disease do not list
the wild flu virus as potentially causing the disease. Id. When examining this analysis, the Court
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of Federal Claims concluded: “the Chief Special Master did not raise the burden of causation in
this case; petitioner simply failed to meet it.” Id.
The Federal Circuit also evaluated the Chief Special Master’s approach in Morgan. The
Federal Circuit concluded: “We discern no error in the special master’s causation analysis.” 850
F. App’x 775, 784 (Fed. Cir. 2021).
Most other recent appellate cases follow this path. See, e.g., Dennington v. Sec'y of
Health & Hum. Servs., 167 Fed. Cl. 640, 653-56 (2023) (finding the special master did not err in
rejecting theory of molecular mimicry where petitioner did not specifically link vaccine and
injury), mot. for review den'd, 167 Fed. Cl. 640 (2023), appeal dismissed, No. 2024-1214, 2024
WL 1255318 (Fed. Cir. Mar. 25, 2024); Duncan v. Sec’y of Health & Hum. Servs., 153 Fed. Cl.
642, 661 (2021) (finding the special master did not err in rejecting a bare assertion of molecular
mimicry); Caredio v. Sec’y of Health & Hum. Servs., No. 17-79V, 2021 WL 6058835, at *11
(Fed. Cl. Dec. 3, 2021) (indicating that a special master did not err in requiring more than
homology and citing Tullio); Yalacki v. Sec’y of Health & Hum. Servs., 146 Fed. Cl. 80, 91-92
(2019) (ruling that special master did not err in looking for reliable evidence to support
molecular mimicry as a theory); but see Patton v. Sec’y of Health & Hum. Servs., 157 Fed. Cl.
159, 169 (2021) (finding that a special master erred in requiring petitioner submit a study to
establish medical theory causally connecting flu vaccine to brachial neuritis).
This background information about molecular mimicry and how appellate authorities
have treated molecular mimicry is helpful to understanding the way Dr. Steinman attempts to
connect Prevnar and GBS. Dr. Steinman offered two ways that molecular mimicry could link
Prevnar with GBS. One approach involves proteins and, as discussed below, this theme has four
variations. The other approach is based upon polysaccharides. The protein-based theme is
analyzed first because it is easier to understand due in part to the fact that Dr. Steinman has been
relying upon BLAST searches in the Vaccine Program for more than a decade.
B. Protein Theory
Dr. Steinman’s protein theory is comprised of a series of steps. Preliminary steps are Dr.
Steinman’s choice to use the BLAST program and the settings he selects in the computer
program. Next, Dr. Steinman inputs information about vaccines into the program. He also
inputs host (or human) proteins into the program. As a final step, Dr. Steinman presents the
computer-generated results of the comparison. These steps are investigated below.
1. Proteins and BLAST program
The foundation for Dr. Steinman's protein-based theory is a computer program known as
BLAST. Exhibit 22 at 24, Tr. 167-68. An understanding of the strengths and weaknesses of
BLAST requires some understanding of how proteins are structured.
Proteins are the “principal constituents of the protoplasm of all cells.” Dorland’s at 1508.
Proteins are composed of 20 amino acids. Id. A protein of average length will contain
approximately 400 amino acids. Tr. 384.
Dr. Whitton compared the straightforward listing of the amino acids constituting a protein
to the pearls on a necklace. This is known as the protein’s linear structure. However, in nature,
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proteins do not exist on a straight line. Instead, the proteins fold upon themselves creating
something like a ball of string. The folding creates a three-dimensional shape. Thus, proteins
are also known to have a tertiary structure as well as a linear structure. One component of the
immune system, antibodies, recognizes a protein’s nonlinear epitope. Tr. 521.
In the 1990s, a group of scientists wrote the BLAST program. Tr. 168, 375. The purpose
was to allow researchers to determine if one protein was evolutionarily related to another protein.
Tr. 375. Whether the BLAST program should be used to determine whether two proteins are
related immunologically is disputed.
The BLAST program determines the degree of sameness in two proteins by aligning and
comparing the linear sequence of amino acids. A scientific term for sameness in this context is
“homology.” Dorland’s at 857-58. Over the years, Dr. Whitton has persuasively explained that
some degree of homology between two proteins of average length is inevitable. Tr. 384; see J.C.
v. Sec’y of Health & Hum. Servs., No. 17-69V, 2024 WL 3412625, at *18-19 (Fed. Cl. Spec.
Mstr. May 16, 2024) (discussing opinion of the Secretary’s expert who was not Dr. Whitton).
The basic reason is that the given set of 20 amino acids can occur in a finite number of ways.
There appears to be no dispute that some repetition of amino acids within short sequences
(meaning sequences of approximately 10-12 amino acids in length) tends to appear in two
average length proteins. See Silvanovich (2005) at 255 (figure 2), 258 (“the vast majority of
matches identified using a sliding window size of six amino acids is simply a product of random
chance and does not facilitate the identification of biologically meaningful allergenic
characteristics of a protein"). An ensuing question is how to separate sequence homologies that
occur by chance alone from sequence homologies that carry some biologic significance--either
evolutionary or immunologically.
The authors of the Kerfeld & Scott article answer this question: E-values. Accord Tr.
380-81. As stated in the article, “understanding the steps in the calculation of an E-value
provides an opportunity to show the relationship between how the algorithm works and
fundamental principles of biochemistry and evolution." Kerfeld & Scott at 1. The article is
written in the context of attempting to explain concepts such as “molecular evolution.” Id.
Kerfeld and Scott proposed that “many experienced researchers [are] simply using the default
parameters because they do not know how to manipulate them or [are] accepting results with
little understanding of their full meaning (or lack thereof)." Id. Although Kerfeld and Scott
provide a reliable explanation for E-value, these authors do not propose any particular value as
being significant. At best, Kerfeld and Scott seem to suggest that most researchers “draw an
arbitrary line” at E<0.00001. Id. at 4. According to Dr. Whitton, the default E-value is 0.05. Tr.
392. Dr. Steinman did not contest Dr. Whitton's statement that the default in the BLAST
program is 0.05.
A different article, one which Dr. Steinman cited originally, provides information about
using BLAST to search for allergens.8 To be clear, allergens are not exactly the same as a
8 In his oral testimony, Dr. Steinman stated that Silvanovich was being “misused.” Tr.
537. This statement reduces Dr. Steinman’s credibility as he was the person who first cited
Silvanovich. Exhibit 22 at 24. In his first report, Dr. Steinman accurately quotes from the
Silvanovich article as stating “Thus, for large proteins and an expanding allergen database, a
FASTA or BLAST bioinformatics search appears to be the optimum method for identifying
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potentially auto-reactive protein. See H.C. v. Sec'y of Health & Hum. Servs., No. 16-4V, 2022
WL 2825395, at *8 n.28 (Fed. Cl. May 9, 2022) (discussing IgE). However, both processes
involve immunoglobulins. In this context, Silvanovich states that “Bioinformatic analyses based
on FASTA or BLAST algorithms provide a measure of reliability by providing cut-offs (35%
identity over at least 80 amino acids), above which significant IgE cross reactivity may be
expected to occur." Silvanovich (2005) at 258.
Silvanovich expanded this work in an article published in 2009. Again, in the context of
allergens, they found “an E-score threshold 3.9E-07 or lower … conservatively identif[ied]
known allergens and other proteins with potential for allergenic cross-reactivity.” Silvanovich
(2009) at S26. Other E-values would fail to screen out many false positives. Id. at S28-29. Dr.
Whitton proposes this E-value as the standard. Exhibit C at 29-30, Tr. 382.
Dr. Steinman uses a different cutoff. He changes the BLAST default E-value from 0.05
to 10. Tr. 169-70, 547. This change is 200 times more lenient. Tr. 392.
Dr. Steinman justifies a cutoff of 10 based upon Wheeler. Tr. 248. Wheeler does, in fact
state that an E-value of “‘10’ is designed to ensure that no biologically significant alignment is
missed.” Wheeler at 4. But, Wheeler continues: “‘Expect Values’ in the range of 0.001 to
0.0000001 are commonly used to restrict the alignments shown to those of high quality.” Id.
The difference between these terms (“biologically significant” and “high quality”) is not readily
apparent. See Tr. 248-50 (Dr. Steinman), 415-16 (Dr. Whitton).
Given the two competing pieces of evidence, Wheeler and the Silvanovich articles, the
undersigned weighs Silvanovich as more persuasive. Silvanovich contains extensive data,
reporting the number of false positives found with various E-values. Silvanovich also reports
that its standard is endorsed by the World Health Organization. Wheeler does not contain
anything to justify reliance upon its description. Furthermore, Wheeler itself recognizes that E-
values with magnitudes much lower than 10 produce alignments of “high quality.”
Dr. Steinman's use of a BLAST search with an E-value of 10 to identify immunologically
relevant homologs is methodologically unsound. The process seems likely to fail to weed out
many false positives that a more stringent E-value setting would reject. See Silvanovich (2009).
In his oral testimony, Dr. Whitton stated that he has been looking for confirmation of Dr.
Steinman’s methodology for years. Tr. 416. The undersigned can confirm that Dr. Whitton has
sought this external support. Dr. Steinman's first report in this case, dated December 14, 2021,
cited a paper by Root-Bernstein. Exhibit 22 at 24 (reference 26). However, Dr. Whitton
demonstrated that the Root-Bernstein article is backwards as Root-Bernstein asserts that higher
E-values are more meaningful. Exhibit C at 32-33; See also Root-Bernstein. In Dr. Steinman's
second report, he withdrew his reliance on Root-Bernstein because of the Gautam articles and
potential similarities between newly expressed proteins and known allergen.” However, Dr.
Steinman has taken this statement out of the context in which Silvanovich defined the way the
BLAST program could be used to minimize false positives. To the extent that Dr. Steinman
wants use to conclusion of Silvanovich to bolster his case, expecting Dr. Steinman to follow the
methodology of Silvanovich is reasonable.
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the Lanz paper discussed below. Exhibit 58 at 18. Subsequently, in a different case, Dr.
Steinman testified that Root-Bernstein was “wrong,” essentially agreeing with Dr. Whitton.
Jossart v. Sec’y of Health & Hum. Servs., No. 15-1377V, 2024 WL 4100548, at *40 (Fed. Cl.
Spec. Mstr. May 22, 2024); See also Morrison v. Sec’y of Health & Hum. Servs., No. 18-386V,
2024 WL 3738934, at *23 n.16 (Fed. Cl. Spec. Mstr. July 18, 2024) (quoting Dr. Steinman as
testifying that there were “‘problems with the methodology used in the Root-Bernstein
paper.’”).9
While Dr. Steinman deserves some credit for walking away from Root-Bernstein in his
second report, there remains a question about why Dr. Steinman cited the paper in the first
report. It would seem that experts using BLAST could have (and arguably should have)
recognized on their own that “Root-Bernstein’s description of the E-value is the polar opposite of
its truth.” Exhibit C at 33.
It seems telling that one of the articles Dr. Steinman cited to support his use of BLAST
searches to identify potentially immunologically relevant homologues was wrong. The other
papers Dr. Steinman cited also are not helpful in showing that Dr. Steinman's BLAST search
method is reliable. For example, Lanz did not use BLAST searches. See Exhibit 62, Tr. 382 (Dr.
Whitton), 560 (Dr. Steinman).
Another way of looking at BLAST searches is to see whether pharmaceutical companies
are using BLAST searches to help discover medicines that could prevent or treat autoimmune
diseases. If BLAST searches were useful, then pharmaceutical companies could use them. Dr.
Steinman testified that pharmaceutical companies would not use BLAST searches. Tr. 253. Dr.
Steinman is not aware of any companies that he helped found use BLAST searches.
In the context of trying to defend his use of BLAST, Dr. Steinman described BLAST as
“a pretty clunky tool.” Tr. 560. Although Dr. Steinman goes on to say that he used BLAST
because it is a tool on hand, the record shows that other programs also allowed proteins to be
compared for homology. Tr. 560.
Overall, Dr. Steinman has failed to demonstrate that using BLAST with an E-value set at
10 is a reliable method for identifying potentially immunologically relevant homologs. See J.C.,
2024 WL 3412625, at *18 (“Effectively, BLAST results are probably better viewed as potentially
enhancing an otherwise supported theory rather than being viable as a foundation for such a
theory"). Because Dr. Steinman’s first step---a decision to use BLAST with an E-value of 10---is
methodologically unreliable, the ensuing steps that follow from the BLAST searches are also
problematic. See LaLonde v. Sec'y of Health & Human Servs., 110 Fed. Cl. 184, 201 (2013)
(ruling that special master was not arbitrary in rejecting petitioner’s prong one evidence when the
9 One of the earlier opinions finding that Prevnar can cause GBS noted the dispute
between Dr. Steinman and Dr. Whitton over the reliability of the Root-Bernstein article. Gross v.
Sec’y of Health & Hum. Servs., No. 17-1075V, 2022 WL 9669651 at *17 (summarizing Dr.
Steinman’s opinion) and *29 (summarizing Dr. Whitton’s opinion) (Fed. Cl. Spec. Mstr. Sep. 22,
2022). However, the special master’s analysis did not resolve this specific dispute. Given Dr.
Steinman’s oral testimony in Jossart and Morrison, this dispute can be resolved in favor of only
Dr. Whitton.
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petitioner’s expert did not establish each step in his hypothesis), aff’d 746 F.3d 1334, 1340 (Fed.
Cir. 2014); Mitchell v. Gencorp Inc., 165 F.3d 778, 782 (10th Cir. 1999) (“any step that renders
the analysis unreliable renders the expert's testimony inadmissible. This is true whether the step
completely changes a reliable methodology or merely misapplies that methodology”); see also
Buen v. Sec'y of Health & Hum. Servs., No. 21-1314V, 2025 WL 2938046, at *25 (Fed. Cl.
Spec. Mstr. Sept. 17, 2025) (special master finding that expert “did not provide evidence to
support step one . . . of his seven-step mechanism,” and “since the other six other steps of the
seven-step theory rely on the first step, the entire mechanism fails”). Nevertheless, the
remaining steps in Dr. Steinman’s protein-based theory are also discussed.
2. Input of Vaccine Information into BLAST
The BLAST program requires its users to input two proteins for comparison. One of
these proteins in this case is known as CRM-197. CRM-197 is used because it is the only
protein in Prevnar. Tr. 168, 373. CRM-197 contains 597 amino acids. Tr. 184.
Because CRM-197 is (at least generally) safe, CRM-197 has been used as a conjugation
protein in multiple vaccines. Broker at 200, Tr. 412. Potentially billions of doses of vaccines
containing CRM-197 have been administered. Tr. 412 (Dr.Whitton: “if that sequence actually
did trigger immune responses that cross-react with Contactin-1 to cause Guillain-Barre
syndrome, I think with billions of doses have been given, we would know about it by now, but
we don’t.”)
Although CRM-197 is contained in Prevnar (and other vaccines), no specific information
about the immunogenicity of CRM-197 was provided. Instead, Dr. Steinman substituted a proxy
for CRM-197, which is the diphtheria toxin. See Exhibit 22 at 28; See also Exhibit D at 19 (Dr.
Whitton: “In both of his reports, Dr. Steinman equates [CRM-197] with diphtheria toxin”). After
this substitution of diphtheria toxin for CRM-197, Dr. Steinman presented information about
how the immune system responds to diphtheria toxoid by citing Raju. To add another level of
complication, Raju immunized people with diphtheria toxoid, not diphtheria toxin. The article
explained that “the key component of antidiphtheria vaccines is diphtheria toxoid (DTD), a
partially denatured, non-toxic form of [diphtheria toxin].” Raju at 3207; See also Exhibit D at
19.
In some ways, CRM-197 is similar to the toxin in diphtheria, but in other ways CRM-197
is different from diphtheria toxin. Of the 597 amino acids, CRM-197 and diphtheria toxin share
596. Just one amino acid differentiates CRM-197 from diphtheria toxin. Tr. 178, 373; See also
Pet’r’s Post-Hearing Br. at 26-27.
However, as Dr. Whitton explained without contradiction, the change in one amino acid
has “profound immunologic consequences.” Tr. 408; accord Exhibit D at 19-20. To start, people
like Mr. Romine who received CRM-197 as part of a vaccine do not suffer the dangerous
consequences of being exposed to diphtheria toxin. Tr. 409.
Whether the immune response to the diphtheria toxin can serve as a basis for inferring the
immune response to CRM-197 is an issue on which Dr. Steinman and Dr. Whitton differ. In
responding to Dr. Steinman’s first report, Dr. Whitton asserted that: “The [Raju] paper tells us
nothing about antibody responses to [diphtheria toxin] / [CRM-197]. . . In my opinion, these
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facts render the Raju et al. paper almost irrelevant to petitioner’s . . . theory of causation.”
Exhibit C at 37. Given this challenge from Dr. Whitton, Dr. Steinman might have addressed this
critique. However, in Dr. Steinman’s second report, he continued to rely upon Raju without
addressing why Raju and diphtheria toxin assist with understanding how the body responds to
what is actually in Prevnar, CRM-197. See Exhibit 58.1 at 21. Nevertheless, Dr. Whitton
returned to this point, concluding in his second report that “while [CRM-197], diphtheria toxin,
and diphtheria toxoid have very similar amino-acid sequences, the above biophysical,
immunological, structural, and chemical differences mean that analyses of immune responses to
diphtheria toxin / toxoid may not necessarily apply” to CRM-197. Exhibit D at 20.
The evidence in this case, including Dr. Steinman’s lack of response, weighs against
finding that the immune response to CRM-197 is likely to be sufficiently similar to the
diphtheria toxin, which Dr. Steinman used in his BLAST search. At a basic and easy-to-
understand level, diphtheria toxin causes people to have disease—CRM-197 does not. The
difference between something that is dangerous and something that is safe is a big difference.
3. Input Of Host Proteins
To complete the pair of proteins to be compared in the BLAST program, Dr. Steinman
compares CRM-197 to proteins allegedly implicated in GBS. Tr. 167. These four proteins are
known as PMP22, P0, P2, and Contactin-1. Exhibit 22 at 24 (only Contactin-1), Exhibit 58 at 4.
Thus, Dr. Steinman reported results in four BLAST searches. Id.
As for the searches regarding P0, P2, and Contactin-1, Dr. Steinman suggested that the
evidence supporting involvement of these proteins was not as strong as evidence regarding
PMP22. Tr. 264, 266.
Dr. Steinman’s preferred protein is PMP22, which is peripheral myelin protein 22. Tr.
180, 197; Súkeníková at 160. PMP contains 160 amino acids.
The primary paper about PMP22 is Súkeníková. In 2024, these authors proposed that T
cells can attack PMP22 to cause GBS. Súkeníková at 160; See also Tr. 181. As Dr. Whitton
stated, Súkeníková and colleagues did not declare that pathology was established, but the authors
were leaning that way. Tr. 413-14.
Súkeníková's hypothesis that PMP22 is attacked in GBS appears to be a new discovery.
A different article from 2017 stated that PMP was not found in GBS. Hughes; See also Tr. 564.
Whether Súkeníková's hypothesis becomes accepted depends upon additional work in the field.
See Section VI.B. below (discussing peer review in the context of reliability).
Here, Súkeníková constitutes some basis for finding the portion of Dr. Steinman’s
opinion that asserts an attack on PMP22 can lead to GBS reliable. Whether the record, which
contains some contradictory evidence, supports a finding that this aspect is persuasive is a more
difficult question. Given the gaps and inadequacies in other parts of Dr. Steinman’s opinion,
addressing whether on a more likely than basis PMP22 can contribute to the pathogenesis of
GBS is not required. This question can be reserved for another day.
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4. Results of Comparison
Using the BLAST program, Dr. Steinman compared CRM-197 and PMP22. Exhibit
58.1 at 5. BLAST calculated an E-value of 0.015. Id.; See also Tr. 417.
Dr. Steinman reproduced the results of the BLAST search:
Dr. Steinman opined that this combination could be immunologically relevant because, in
part, of the Gautam standard. See Exhibit 22 at 24 (technically discussing Gautam in context of
Contactin-1); Exhibit 58.1 at 5 (citing three papers by Gautam, published in 1992, 1993, and
1998). However, there are limits to the value of the Gautam papers.
A fundamental point is that homology is not necessarily the same as likely
immunological mimics. Dr. Whitton provided an example that is easy to understand. The flu
virus has different strains that share a high degree of molecular overlap. This homology does not
mean that a person's responses to the strains are the same, because the vaccine contains multiple
strains. If homology by itself were sufficient, then multiple strains in the flu vaccine would be
unnecessary. Tr. 471-72. Similarly, Prevnar itself contains multiple strains of the Streptococcus
pneumoniae bacteria. If molecular mimicry were sufficient, then the vaccine would not contain
multiple strains. Tr. 323-26; See also Morrison, 2024 WL 3738934, at *22 (noting that although
CRM-197 shares all but one amino acid with diphtheria toxin, people are immunized with
diphtheria toxoid, not CRM-197, to protect against diphtheria).
Further, the articles contain examples of instances in which searches of computer
databases did not produce an immunologically relevant substance. A prominent example is
Wucherpfennig. Exhibit 1003; Tr. 277-87.10 Another example is Varrin-Doyer. See also Tr. 285-
88.
With an understanding that homology does not always equal shared immunogenicity, the
Gautam papers can be reviewed. In a previous case in which Dr. Steinman relied upon the
Gautam papers, the undersigned set out the steps that the Gautam researchers, including Dr.
Steinman, followed. Sparrow v. Sec’y of Health & Hum. Servs., No. 18-295V, 2024 WL
1599165, at *24 (Fed. Cl. Spec. Mstr. Mar. 19, 2024), mot. for rev. denied sub nom. Sparrow on
behalf of L.S. v. Sec'y of Health & Hum. Servs., 173 Fed. Cl. 177 (2024), appeal docketed, No.
25-1161 (Fed. Cir. Nov. 8, 2024). Before conducting their experiments, Gautam and colleagues
knew that the first 11 amino acids that formed myelin basic protein were involved in creating a
10 Wucherfennig is more thoroughly discussed in the context of the testability of Dr.
Steinman’s theory as part of the Daubert analysis in section VI.C., below.
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disease known as experimental autoimmune encephalitis (“EAE”) in genetically modified mice.
Gautam (1992) at 605. Because of this background knowledge, the Gautam researchers did not
search a computerized database like BLAST to find potential homologs. See Exhibit D at 24
(Dr. Whitton noting that Gautam did not use BLAST). The researchers were interested in
learning whether all 11 amino acids were necessary to cause disease in mice. Thus, the
researchers varied the sequences of amino acids that were injected into mice. As reflected in
table 1 from Gautam (1992), different combinations of amino acids produced different results.
Gautam (1992) at 607. For example, changing one amino acid reduced the incidence of disease
from 80 percent to 15.7 percent. In Sparrow, “Dr. Steinman acknowledged that a change in one
amino acid could make a big difference.” 2024 WL 1599165, at *25. Therefore, Sparrow found
that “5 amino acids out of 12 work sometimes but not always.” Id.
Accordingly, there is abundant evidence that changing one amino acid can produce
dramatically different substances. One example is CRM-197 and diphtheria toxin. Another
example is the peptides given to the mice in the Gautam experiments. A third example, which is
discussed in more detail in section VI.C., below, is the Wucherpfennig article. If there were any
doubt about this principle, the Federal Circuit recently cited the United States Supreme Court for
a statement that “even a minor change of chemical structure can alter an antibody’s
functionality.” Seagen, Inc. v. Daiichi Sankyo Co., Ltd., 160 F.4th 1322, 1333 (Fed. Cir. 2025),
citing Amgen v. Sanofi, 598 U.S. 594, 614-15 (2023).
In this case, during the pre-hearing status conference, the parties were advised to review
Sparrow and for their experts to be prepared to discuss it. During his testimony, Dr. Steinman
was asked about this finding in Sparrow, and he agreed that the Gautam papers show that four
amino acids might work but they do not have to work. Tr. 253.
The bottom line is that the record supports finding that relatively short sequence
homology can be a basis for immunogenicity. Dr. Whitton admits as much. Tr. 383, 398, 468.
But to find that CRM-197 and PMP22 are so sufficiently similar that they do, in fact, cause GBS
is an additional step. As Dr. Steinman has not presented a reliable foundation for this leap, Mr.
Romine’s case falls short of preponderant evidence.
In this respect, Dr. Steinman did not follow the methodology that Gautam, others, and he
used in their experiments. See Kumho Tire Co. v. Carmichael, 526 U.S. 137, 152, 119 S.Ct.
1167, 143 L.Ed.2d 238 (1999) (“[The objective of Daubert's gatekeeping requirement] is to make
certain that an expert, whether basing testimony upon professional studies or personal
experience, employs in the courtroom the same level of intellectual rigor that characterizes the
practice of an expert in the relevant field”).
In the Gautam experiments, after the researchers identified homology at different levels,
the researchers tested to see whether the homologous peptides induced an immunologic reaction.
In contrast, Dr. Steinman essentially ended his work without taking the potentially more
informative and more meaningfully step of testing for immunogenicity. This lack of
investigation creates a gap within Dr. Steinman’s opinion. See Cedillo v. Sec’y of Health &
Hum. Servs., 617 F.3d 1328, 1339 (Fed. Cir. 2010) (recognizing that a court may find that there
is a gap between the data and the opinion).
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Dr. Whitton introduced additional evidence to undermine Dr. Steinman’s assertion that
the homologs that the BLAST search identified were immunologically relevant. As reflected in
the chart taken from Dr. Steinman’s report, the BLAST search aligned approximately 50 amino
acids. In the query, the amino acid sequence begins at 479 and ends at 531. In the subject, the
amnio acid sequence begins at 30 and ends at 82.
From this sequence of about 50 amino acids, Dr. Steinman selected the first nine amino
acids of each sequence (VGNGVHANL and VGNGHATDL). Exhibit 58.1. Dr. Steinman states
that five of these nine are identical. Id.,11 Tr. 184; See also Pet’r’s Post-Hearing Br. at 34.
Pursuant to Dr. Steinman’s theory, this portion of CRM-197 (VGNGVHANL) is the basis for the
autoimmune reaction with Prevnar.
Dr. Whitton entered the key sequence of nine amino acids found in CRM-197
(VGNGVHANL) into BLAST. (This is different from Dr. Steinman, who entered the sequence
for the entire CRM-197). Exhibit D at 16. Dr. Whitton reported that a match was found between
at least a portion of this sequence and PMP22, but with an E-value of 3,817. Id. Again, higher
E-values are less meaningful. Thus, according to Dr. Whitton, the “BLAST algorithm is
informing us that this homology is a matter of random chance.” Id. Dr. Whitton described his
process in his oral testimony. Tr. 417-21. But, there was not any persuasive rebuttal testimony.
5. Summary on Protein Theory
For the reasons explained above, the evidence does not weigh in favor of finding that Dr.
Steinman’s theory that the CRM-197 portion of Prevnar can cross react with PMP22 is either
sound, reliable, or persuasive. Reasons for rejecting this theory start with the lack of association
between either pneumococcal vaccine and GBS and the lack of association between
Streptococcus pneumoniae infections and GBS. See section IV. Additional flaws specific to the
protein theory include:
Problems in using the BLAST program with an E-value set to 10 to identify
immunologically relevant homolog;
An unsupported assumption that the immune response to CRM-197 is similar to the
immune response to diphtheria toxoid, which was studied in Raju;
Assuming that identifying a homology at a level of 5 out of 12 is the same as
demonstrating immunogenicity when Gautam and other papers show that shared
immunogenicity is only possible.
Accordingly, Mr. Romine does not prevail upon his first attempt to satisfy the first prong of
Althen.
11 Technically, Dr. Steinman states five out of ten but that was because Dr. Steinman
inadvertently introduced an extra amino acid. See Exhibit D (Dr. Whitton’s report) at 16; Tr.
419.
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C. Phosphoglycerol Theory
1. Definition Of Terms and Introduction
Dr. Steinman’s other theory is a variation on molecular mimicry, which is often based
upon proteins as just discussed. This other theory is sufficiently complicated that Dr. Steinman
stated that he never expected to be discussing X-ray crystallography in the Vaccine Program. Tr.
154. Unlike the protein-based theory, this theory is based upon polysaccharides.
Polysaccharides are a type of carbohydrate. Dorland’s at 1471. They are sometimes referred to
as “sugars.”
Some polysaccharides contain phosphoglycerol. Tr. 340. A “glycerol” is an alcohol
found in many lipids. Dorland’s at 784. Lipids, in turn, are types of fats. Dorland’s at 1048. A
phospholipid is a lipid containing phosphorus, such as phosphoglycerides. Dorland’s at 1416.
Phospholipids are “the major form of lipids in all cell membranes.” Id.; accord Tr. 342.
Phospholipids are present in myelin. Tr. 341.
Two of the polysaccharides in Prevnar 13 have phosphoglycerol attached to them. These
are the polysaccharides for strains 18C and 23F. Tr. 143. The phosphoglycerol in 18C is needed
to develop immunogenicity. Chang; Tr. 146-47, 154, 357.
From a starting point that the immune response to the 18C component of Prevnar
responds at least, in part, to the phosphoglycerol, Dr. Steinman proposes that the immune
response can be misdirected and can cause GBS. Dr. Whitton raises multiple points against this
opinion. These are discussed below starting with the points that are easiest to understand.
2. Anti-phospholipid syndrome
In Dr. Whitton's second report, he reasoned that if Dr. Steinman's opinion that antibodies
against phospholipids can cause GBS were correct, then people who suffer from diseases
involving antibodies against phospholipids would have increased incidences of GBS. Exhibit D
at 12. This reasoning seems appropriate, especially because Dr. Steinman did not contest it.
Essentially, Dr. Whitton is asking: how does Dr. Steinman's theory play out in the real world
among people who have the allegedly harm-inducing antibodies? When Dr. Whitton consulted
recent reviews about anti-phospholipid syndrome, they did not associate anti-phospholipid
syndrome and GBS. Exhibit D at 12, citing Knight and Bröker.
Dr. Whitton testified that anti-phospholipid syndrome is not associated with GBS. Tr.
371. Dr. Steinman did not address this point in rebuttal. Likewise, the Secretary argued this
point (Resp’t’s Post-Hearing Br. at 24), but Mr. Romine did not address this in his reply.
This point carries great value. Cf. Whitecotton v. Sec’y of Health & Hum. Servs., 81
F.3d 1099, 1108 (Fed. Cir. 1996) (“Congress desired the special masters to have very wide
discretion with respect to the evidence they would consider and the weight to be assigned that
evidence”).12 As Dr. Whitton acknowledges, this is not “a hard and fast rule.” Tr. 371. Yet, there
12 The undersigned has not located any opinions from special masters addressing how the
lack of association between anti-phospholipid syndrome and GBS affects claims that anti-
phospholipid antibodies cause GBS. Cf. Mullins v. Sec'y of Health & Hum. Servs., No. 19-
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is an underlying logic to seeing the reported consequences to producing anti-phospholipid
antibodies. By citing review articles about anti-phospholipid syndrome, Dr. Whitton has made a
reasonable effort to attempt to prove a negative. Dr. Whitton's effort is reinforced by the lack of
response from Mr. Romine and Dr. Steinman. Mr. Romine and Dr. Steinman had opportunities
to contradict Dr. Whitton's assertion by presenting articles or even case reports showing someone
linked anti-phospholipid syndrome and GBS. No such evidence was presented, leaving Dr.
Whitton's assertion unrebutted.
3. Phospholipids in GBS generally
Using similar logic, Dr. Whitton makes another point against Dr. Steinman’s theory. Dr.
Whitton opines that in GBS, the immune system most often targets gangliosides, not
phospholipids. Tr. 342. Dr. Whitton's opinion appears correct. Except for Nakos, which is
discussed below, other articles do not hypothesize that phospholipids are the subject of the
immune system’s attack in GBS. Admittedly, the pathogenesis of GBS is not understood
completely. This lack of awareness means that the possibility that some GBS cases could
involve phospholipids cannot be closed off with a door nailed shut. On the other hand, special
masters are required to resolve cases based upon the existing evidence, not hypothetical
developments in hypothetical future cases. 42 U.S.C. § 300aa–13(a); Sharpe v. Sec’y of Health
& Hum. Servs., 964 F.3d 1072, 1084 (Fed. Cir. 2020). Here, a preponderance of evidence
supports a finding that phospholipids are not likely to be involved in causing GBS. This
evidence includes how working neurologists treat their GBS patients. Neither Dr. Sykes nor
Dr. Alexander routinely test for anti-phospholipid antibodies in people with GBS. Tr. 76, 96.
a) Nakos
For the proposition that antibodies against phospholipids cause GBS, Mr. Romine relies
upon Nakos. See Pet’r’s Pre-Hearing Br. at 17; Pet’r’s Post-Hearing Br. at 18-19, 61. Nakos
was published in 2005. The authors explained that due to similarities between the
lipopolysaccharides of C. jejuni and the epitopes of gangliosides, “a cross-reaction of the
antibodies against micro-organisms could recognize gangliosides of the nerves.” Nakos at 1402.
“It is not established, however, whether apart from gangliosides other lipid antigens are also
recognized as targets for antibodies in GBS.” Id. The researchers therefore investigated
“whether anti-phospholipid antibodies are present in serum samples of GBS patients without
known autoimmunity disorders." Id.. The investigation involved nine patients with GBS and
nine controls. Id. Before the people with GBS were treated with γ-globulin, a serum sample was
obtained. Serum samples were also taken on the first, second, fifth, and eighth days of the
treatment. Id. at 1402. The researchers “detected a wide range of anti-phospholipid antibodies
320V, 2024 WL 4045424, at *33-34, 43-45 (Fed. Cl. Spec. Mstr. Aug. 8, 2024) (special master
noting phosphoglycerol as one of three specific molecular mimicry homologies proposed by
petitioner, but finding that even absent the three proposed homologies, molecular mimicry was a
sound and reliable theory).
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in patients with idiopathic GBS. . . . [W]hereas none of the controls demonstrated any anti-
phospholipid activity under our experimental conditions." Id. at 1405.
The authors propose two explanations for this observation. One is that the anti-
phospholipids contributed to the pathogenesis of GBS; the other is that the anti-phospholipid
antibodies were a consequence of GBS. Nakos at 1406. Both Dr. Steinman and Dr. Whitton
discussed this portion of the article. Tr. 206, 363. A third possibility is that the anti-phospholipid
antibodies are “epiphenomena.”
The Nakos researchers also noted “in our cases there was no relationship between the
presence of anti-phospholipid antibodies and outcome, nor to the severity of the disease,
probably due to the limited number of patients and variety of GBS.” Nakos at 1407. To Dr.
Whitton, this statement was important because in most (but not all) autoimmune diseases, the
presence of an autoantibody tends to correlate with the severity of the disease. Tr. 363; See also
Tr. 555 (Dr. Steinman's testimony not really answering a question on this topic).
Nakos does not persuasively establish that anti-phospholipid antibodies contribute to the
pathogenesis of GBS. First, the authors literally do not reach this conclusion. Second, the article
was written in 2005. So, it is approximately two decades old. Dr. Steinman cited only this
article to discuss anti-phospholipid antibodies and GBS. Presumably, if there were any follow up
or additional support for this proposition, Dr. Steinman would have cited it. Third, the leaders in
GBS who wrote the review articles have not cited Nakos. Fourth, the current practice among
neurologists as reflected in care delivered by Dr. Sykes and Dr. Alexander does not align with a
view that anti-phospholipids antibodies cause GBS. See Tr. 362.
b) Ho
The second article on which Dr. Steinman relied to support the proposition that anti-
phospholipid antibodies can cause GBS is Ho. Dr. Steinman is a co-author of this paper, which
was published in 2012.
Ho and colleagues studied multiple sclerosis. Tr. 158, 359. Thus, Dr. Steinman extends
Ho to inform GBS by a three-step reasoning: (1) Ho shows phospholipid antibodies cause
multiple sclerosis, (2) multiple sclerosis is like GBS, (3) therefore, by substitution, phospholipid
antibodies cause GBS. Many of the previous adjudications split on the second step.
However, the undersigned finds more problem with accepting the first premise as
preponderantly established. Like Nakos, Ho was published more than 10 years ago. And like
Nakos, Ho seems to have received little attention.
Ho proposed that because, in the authors’ views, anti-phospholipid antibodies cause
multiple sclerosis and phospholipid antibodies ameliorated multiple sclerosis, phospholipids
could be a therapeutic treatment for multiple sclerosis. Ho (abstract) at 9. Dr. Steinman and
other researchers obtained patents for their discoveries. Exhibits 82-83.
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Dr. Steinman and his employer, Stanford University, attempted to market the patent to
pharmaceutical companies. Tr. 299. However, for whatever reason, the patentees “could not get
pharma sufficiently bold enough to test in humans.” Tr. 297.13
Perhaps due to the lack of follow up, neurologists such as Dr. Sykes do not routinely test
their multiple sclerosis patients for anti-phospholipid antibodies. Tr. 74. Dr. Whitton also noted
that the Lanz paper proposes a protein as the target of autoimmune attack in multiple sclerosis,
and does not mention phospholipids as a possible target. Exhibit D at 11. Finally, although far
from dispositive, the undersigned’s experience in reviewing cases and literature on multiple
sclerosis is also consistent with a finding that doctors generally do not associate anti-
phospholipid antibodies with multiple sclerosis.
Even if Ho were a reliable basis for finding that some multiple sclerosis cases are caused
by attacks on phospholipids, there would remain the question about whether multiple sclerosis
can be the basis of inference for GBS. As noted previously, special masters have not viewed the
transferability of Ho to GBS the same. See, e.g., Bielak v. Sec'y of Health & Hum. Servs., No.
18-761V, 2023 WL 35509, at *16 (Fed. Cl. Spec. Mstr. Jan. 3, 2023).
4. Summary
A recap of these points is worthwhile. From two perspectives, Dr. Steinman's opinion
that anti-phospholipid antibodies cause GBS is not reliable. Doctors have some understanding of
the consequences of anti-phospholipid antibodies and these consequences do not include GBS.
The other viewpoint is from what is understood about GBS. People with GBS are generally not
monitored or treated for having anti-phospholipid antibodies.
Therefore, Dr. Steinman's theory can be rejected even without considering the
immunology. But, the immunology is discussed next.
5. Immunology
The immunology at the heart of Dr. Steinman's phospholipid opinion is complicated but
ultimately relies upon a handful of articles. In a nutshell, the immunologic aspect of the
phospholipid theory is a variation of the molecular mimicry theory. The phospholipid theory
differs from the more typical molecular mimicry theory because the phospholipid theory is based
upon an alleged similarity in carbohydrates, not proteins. See Tr. 197, 337. This difference is
not disqualifying in any respect.
The foundation of the phospholipid theory is that a group of researchers found that the
protective response to strain 18C in Prevnar requires a response to a phosphoglycerol moiety.
Chang; exhibit 22 at 14-15, Tr. 146-47. Dr. Whitton agrees with this finding. Tr. 357.14
13 Dr. Steinman cautioned against reading too much into the lack of funding by
recounting a story that an inventor of checkpoint inhibitors, Jim Allison, was not funded for
many years. After receiving funding, he eventually won a Nobel Prize. Tr. 298.
14 There remains an unfortunate lack of clarity as to whether Dr. Steinman is proposing a
phosphocholine head group or phosphoglycerol. See exhibit C at 17, exhibit D at 2-3, Tr. 338.
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On the foundation of Chang, Dr. Steinman adds two articles by Bryson (a 2016 article
and the supplemental material to that article) and with the addition of Bryson, Dr. Whitton
interposes an objection, or at least a qualification. Dr. Steinman asserts that “The Bryson paper
demonstrates that the immune response to S. pneumoniae serotype 23F after Pneumovax 23
vaccine targets the phosphoglycerol in the polysaccharide capsule of serotype 23F.” Exhibit 22
at 18. Over the next three pages, Dr. Steinman explains part of the work done by Bryson and
colleagues and reproduces various images. This explanation is the basis for Dr. Steinman’s
statement that: “The data from the Bryson article demonstrates UNEQUIVOCALLY that the
immune response to the serotype 23F component of Pneumovax 23 targets the phosphoglycerol
in serotype 23F.” Id. at 21. Dr. Whitton agrees that the antibodies (which are known in the
Prevnar litigation as “Bryson antibodies”) “recognize a larger structure, of which the
glycerophosphate is just one part.” Exhibit C at 21; see also Tr. 350 (Dr. Whitton stating that the
Bryson antibodies recognize a phosphate group). The larger structure is known as “L rhamnose.”
Exhibit C at 21. “L rhamnose,” in turn, is “a component . . . of lipopolysaccharides of some
gram-negative bacteria.” Dorland’s at 1612; accord Tr. 210 (Dr. Steinman agreeing that L
rhamnose is a bacterial sugar that is part of serotype 23F). This qualification is important to Dr.
Whitton because antibodies do not recognize just the glycerophosphate. If antibodies recognized
only glycerophosphate, then the antibodies would recognize glycerophosphates in the strains
other than 23F, making vaccination against other strains unnecessary. Exhibit C at 21. In
Dr. Steinman’s second report, Dr. Steinman did not respond to Dr. Whitton’s discussion of the
Bryson antibodies. See Exhibit 58.1.
Nevertheless, Dr. Whitton expanded upon his earlier discussion of the Bryson antibodies
in his second report. Here, Dr. Whitton stated that an antibody grasps an antigen through points
of contact that resemble the fingertips of a glove. Exhibit D at 8. For the Bryson antibody on
which Dr. Steinman is relying, the antibody has nine fingers / points of contact. Id.; see also Tr.
214-15 (Dr. Steinman agreeing there are nine points of contact). Of these nine, eight are with a
saccharide residue. Exhibit D at 8; see also Tr. 216-17 (Dr. Steinman agreeing that eight points
of contact are with a sugar). The remaining point of contact is between the antibody and “the
oxygen atom . . . in the phosphate.” Exhibit D at 8. This emphasis on the binding with the
saccharide, to Dr. Whitton, reinforces his earlier point that an antibody sees phosphoglycerol
only in the context of a specific polysaccharide. Dr. Whitton repeats his earlier argument that if
antibodies saw only phosphoglycerol, then the Prevnar vaccine would not need to contain the
polysaccharides for both strain 18C and 23F. Id. at 9.
On cross-examination, Dr. Steinman came around to Dr. Whitton’s point of view, at least
in part. Dr. Steinman agreed: “The sugars are really important. But the paper goes on to say that
the phosphate group of phosphoglycerol is another major determinant. . . . They’re both
important.” Tr. 211-12. When pressed further on cross-examination, Dr. Steinman stated: “You
can’t ignore the phosphoglycerol, and I don’t want to ignore the rhamnose. So maybe we should
say we agree.” Tr. 212.
Dr. Whitton’s oral testimony repeated much of the foundation for this complicated
immunology. See Tr. 344-52, 517 (“It’s crystal -- crystallography clear that these antibodies see
More clarity would be better. But the lack of reliability of Dr. Steinman's phosphoglycerol
theory does not turn on this point.
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phosphate as part of larger epitope, the rest of the epitope being the bacterial sugars”). He
emphasized that the Bryson antibodies do not recognize the phosphate alone, but that the Bryson
antibodies recognize a phosphate in the context of a particular polysaccharide. Tr. 353. Dr.
Whitton again repeated that the specific polysaccharide affects the immune response because
vaccines contain both strain 18C and 23F, which have different sugars. Tr. 353.
All of this background helps to understand why Dr. Whitton contests Dr. Steinman’s
opinion that the immune system’s response to Prevnar can lead to a cross-reaction to myelin,
causing GBS. To refresh, myelin contains phospholipids. See Exhibit D at 9. A simple
definition of a “lipid” is that a lipid is a fat. Dorland’s at 1048. Dr. Whitton asserted, without
any contradiction, that polysaccharides and phospholipids have “completely different molecular
structure[s].” Exhibit D at 9; accord Tr. 356 (Dr. Whitton: “lipids are very different structurally
from sugars, very different, completely different”).
Dr. Whitton, then, raised the key point: given that Bryson antibodies recognize phosphate
in the context of specific polysaccharides and given that polysaccharides differ from
phospholipids found in myelin, why would an antigen that sees a phosphate in the context of a
specific sugar (such as L rhamnose) also see that phosphate in the context of a phospholipid?
See Exhibit D at 9. Dr. Whitton created a visual aid to help illustrate his reasoning:
Exhibit D at 13.15 Dr. Whitton explained that in the first row, the yellow dot represents a
phosphate group. The green cloud in the first row represents a polysaccharide. In the second
row, the phosphate group is still a yellow dot, but it is now depicted in the context of a lipid,
15 For completeness, it should be noted that Dr. Whitton’s chart contains a third row that
is not reproduced above. Dr. Steinman agrees with how Dr. Whitton has summarized the steps in
his theory (the left column). Tr. 551-53. Dr. Steinman does not agree with Dr. Whitton’s
criticisms (the right column).
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represented by the blue waving flag. Tr. 356. Dr. Whitton asserted that “Dr. Steinman presents
no data whatsoever to support his speculation that the extremely specific Bryson antibodies …
can ‘see’ a structure comprising [phosphate + lipid].” Exhibit D at 9 (brackets in original).
Referring to his visual aid, Dr. Whitton reiterated his assessment: “And so the notion that
antibodies that recognize the yellow dot and the green cloud can somehow turn around and
recognize a yellow dot on this completely different blue [lipid], there’s no credible scientific
reason to believe that that’s the case.” Tr. 356.
Dr. Steinman attempted to answer this criticism in his rebuttal testimony by discussing
Barbar. Tr. 532-24. Barbar was an article that Mr. Romine had filed without an accompanying
disclosure from Dr. Steinman. This late disclosure appears to have imposed minimal, if any,
prejudice upon the Secretary as Dr. Whitton also commented upon Barbar. Exhibit D at 25.
Barbar has received relatively little attention from special masters. In general, in
opinions that find Prevnar can cause GBS, the ruling mentions Dr. Steinman’s reliance upon
Barbar but without any substantive analysis of the article. E.g, Datte v. Secʼy of Health & Hum.
Servs., No. 18-2V, 2025 WL 1565894, at *9 (Fed. Cl. Spec. Mstr. May 9, 2025); Anderson v.
Secʼy of Health & Hum. Servs., No. 18-484V, 2024 WL 557052, at *13 n.33 (Fed. Cl. Spec.
Mstr. Jan. 17, 2024) (identifying Barbar). The most detailed analysis of Barbar was in the
context of an opinion that found that the petitioner had failed to establish that Prevnar can cause
GBS. Jaye v. Secʼy of Health & Hum. Servs., No. 20-672V, 2024 WL 3691413, at *4-5 (Fed. Cl.
Spec. Mstr. July 18, 2024).
In this case, Dr. Steinman relies upon Barbar to assert that antibodies attach to a
phosphate group. Tr. 155-56, 534; see also Pet’r’s Post-Hearing Br. at 20-21. Although Dr.
Whitton might prefer the more specific term “phenylphosphocholine,” see Exhibit D at 25,
additional refinement seems unnecessary. Barbar does not contradict Dr. Whitton’s basic
reasoning---Bryson antibodies respond to specific pneumococcal polysaccharides. One type of
Bryson antibody could attach to the phosphoglycerol component strain 18C. A different Bryson
antibody attaches to the phosphoglycerol component of strain 23F as shown in Bryson itself.
The main point is that different polysaccharides require the inclusion of different strains in
Prevnar.
Barbar appears not to help Dr. Steinman with this conundrum. If an antibody to strain
18C does not induce an immune response to strain 23F (and both 18C and 23F are
polysaccharides), then why would the immune response to one of them also cross-react with a
much different substance, a phospholipid? Dr. Steinman appears to be equating sugars and fats
without any persuasive basis. This is far too big of a gap to credit.16 See Cedillo, 617 F.3d at
1339.
16 In an effort to be transparent, the undersigned discloses this understanding of Barbar
could be subject to modification. The science underlying Barbar is complicated. The testimony
about Barbar, whether contained in Dr. Whitton’s second report or Dr. Steinman’s oral
presentation, was not especially clear. The lack of clarity does not assist Mr. Romine because he
bears the burden of proof and an unclear presentation is not consistent with a persuasive
presentation.
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6. Summary on Phosphoglycerol Theory
For the reasons explained above, the evidence does not weigh in favor of finding that
Dr. Steinman’s theory that the phosphoglycerol theory is either sound, reliable, or persuasive.
Reasons for rejecting this theory start with the lack of association between either pneumococcal
vaccines and GBS and the lack of association between Streptococcus pneumoniae infections and
GBS. See section IV. Additional flaws specific to the phosphoglycerol theory include:
The lack of association between people suffering from anti-phospholipid syndrome and
GBS;
The lack of persuasive support for the assertion that the pathogenesis of GBS involves
phospholipids;
The lack of a persuasive basis for finding that antibodies produced in response to a
phosphate in the context of a polysaccharide can cross-react with a phosphate in the
context of a phospholipid.
Accordingly, Mr. Romine does not prevail upon his second attempt to satisfy the first prong of
Althen.
VI. Daubert
The foregoing analysis is an analysis that special masters typically employ. Due to the
differences in outcome, which are discussed further in Section VIII, a separate approach is
presented below.
The Federal Circuit has stated special masters may use Daubert “as a tool or framework
for conducting the inquiry into the reliability of the evidence.” Terran v. Sec'y of Health and
Hum. Servs., 195 F.3d 1302, 1316 (Fed. Cir. 1999). In light of Terran’s endorsement of the
Daubert factors, Mr. Romine’s argument that evaluating an expert’s opinion according to Daubert
erroneously elevates petitioner’s burden (Pet’r’s Post-Hearing Br. at 57) is rejected. Potentially
relevant factors include:
(1) whether a theory or technique can be (and has been) tested;
(2) whether the theory or technique has been subjected to peer
review and publication;
(3) whether there is a known or potential rate of error and whether
there are standards for controlling the error; and,
(4) whether the theory or technique enjoys general acceptance
within a relevant scientific community.
Daubert v. Merrell Dow Pharmaceuticals, Inc., 509 U.S. 579, 592-95, 113 S.Ct. 2786, 125
L.Ed.2d 469 (1993). As with any Daubert evaluation, the factors need to be employed flexibly.
Kumho Tire Co., Ltd. v. Carmichael, 526 U.S. 137, 141-42, 119 S.Ct. 1167, 143 L.Ed.2d 238
(1999).
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A. Testability
The first Daubert factor is “whether a theory or technique can be (and has been) tested.”
“Testability” depends, at least in part, on what aspect of the opinion is being addressed. For
example, with respect to the point regarding general causation---whether pneumococcal vaccines
can cause GBS---epidemiological studies can be thought of as one way to look for data
confirming or refuting the hypothesis. As discussed in section IV above, investigations have not
found an increased incidence of GBS among people receiving pneumococcal vaccines. Thus, on
this particular point, the testability factor weighs against finding Dr. Steinman's opinion reliable.
On the other hand, for the narrower point of specific causation---whether Prevnar caused
Mr. Romine's GBS---the analysis is different. Purely from a theoretical perspective, this aspect
could be tested by re-administering another dose of Prevnar to see what happens to Mr. Romine.
If he again developed GBS, he would have experienced the paradigm known as challenge-
rechallenge. Challenge-rechallenge, in turn, is usually accepted as evidence of causation.
Capizzano v. Sec’y of Health & Hum. Servs., 440 F.3d 1317, 1322 (Fed. Cir. 2006).
However, for ethical reasons, we do not ask human beings to participate in experiments
that could harm them. Thus, on the question of specific causation, Daubert’s testability factor is
neutral. Due to the lack of testing on Mr. Romine, Dr. Steinman's opinion should neither be
credited as reliable nor rejected as unreliable.
Rather than experiment on people, researchers often use animal models. Lanz; Miura; Tr.
257. Dr. Steinman could inject mice with Prevnar to see whether the animals develop a
neurologic disease like GBS. Tr. 309. Dr. Whitton could, too. Tr. 525-27.
The lack of testing, which is a Daubert factor, tends to undermine the reliability of
Dr. Steinman's opinion.
B. Peer review
For one commenter’s assessment of peer review, See Susan Haack, “Peer Review and
Publication: Lessons for Lawyers,” 36 Stetson L. Rev. 789 (2007). As this article illustrates,
publication of a manuscript after peer review does not mean the article is reliable. For example,
the authors could present fraudulent data that peer-reviewers are unlikely to detect. Id. at 802-
03. Dr. Steinman and Dr. Whitton agreed that papers containing fraud can survive peer review.
Tr. 504, 557. When Dr. Steinman reviews a manuscript as a peer reviewer, he is, in his words,
“lenient,” as he is “not awarding a Nobel Prize.” Tr. 222. In Dr. Whitton's role as an editor of
the journal Virology, he was uncertain how much time reviewers spent on each article. Tr. 498.
One article reported the average amount of time was less than three hours. Effie J. Chan, “The
‘Brave New World’ Of Daubert: True Peer Review, Editorial Peer Review, And Scientific
Validity,” 70 N.Y.U. L. Rev. 100, 118 (1995).
All this background is to say that the appearance of an article in a peer-review journal
does not correlate with reliability. Tr. 501. The Supreme Court itself recognized: “Publication
(which is but one element of peer review) is not a sine qua non of admissibility; it does not
necessarily correlate with reliability.” Daubert, 509 U.S. at 593. Instead, as Dr. Steinman
testified, peer review is “a good opening for reliability.” Tr. 557.
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Here, Dr. Steinman has not submitted his opinion that Prevnar can cause GBS for peer
review. Tr. 301-02. This is surprising in the sense that (a) Dr. Steinman has written hundreds of
articles appearing in peer-reviewed journals (See Exhibit 60 (updated curriculum vitae)) and (b)
Dr. Steinman’s opinion that attacks on phospholipids cause GBS would constitute a “major
discovery about GBS that others in the field more well-versed in the specific study of peripheral
neuropathies have fully missed.” Gamboa-Avila v. Sec'y of Health & Hum. Servs., No. 18-925V,
2023 WL 6536207, at *27 (Fed. Cl. Spec. Mast. Sept. 11, 2023), mot. for rev. denied, 170 Fed.
Cl. 441 (2024), aff’d, 166 F.4th 1318 (Fed. Cir. 2026).
Dr. Steinman explained that his reluctance to author a paper about Prevnar harming
recipients was due to the current environment. Dr. Steinman worried that he would be targeted
like Dr. Fauci, who maintained that people should be mandated to wear masks to prevent the
spread of COVID during the pandemic. Tr. 305-07.
Another type of peer review is the process of seeking a grant. Lawrence S. Pinsky, “The
Use of Scientific Peer Review and Colloquia to Assist Judges in the Admissibility Gatekeeping
Mandated by Daubert,” 34 Hous. L. Rev. 527, 559-60 (1997). As of his testimony in the hearing
in December 2024, Dr. Steinman had not sought a grant to investigate whether Prevnar can cause
GBS from any national organization dedicated to GBS or the National Institute of Health.
However, Dr. Steinman stated he would apply for a grant from NIH, which his former colleague
Jay Bhattacharya leads. Tr. 313.17
In short, there has not been any peer-review of Dr. Steinman’s theory that Prevnar can
cause GBS. Thus, the Daubert factor of peer review does not support the reliability of
Dr. Steinman's opinion that Prevnar can cause GBS.
C. Potential rate of error
As to the potential rate of error, there is very little evidence. One small aspect of
Dr. Steinman's overall theory that could be seen as having an error rate concerns the use of
computerized databases to identify immunologically relevant mimics. See section V.B.1, above.
Some of the foundational work on molecular mimicry was done by Kai Wucherpfennig.
Tr. 140-41. For one article, Wucherpfennig and his colleague Jack L. Strominger, another “giant
in the field” (Tr. 278), used a computer database to search for amino acid sequences similar to
the amino acid sequences for myelin basic protein. Wucherpfennig & Strominger at 607. They
found 129 possible mimics in various infectious agents such as the human papillomavirus and
herpes simplex virus. Id. at 696, 698. Wucherpfennig and Strominger tested to see whether
these potential mimics actually reacted to myelin basic protein. Of the 129 potential mimics, 7
viral peptides and 1 bacterial peptide (or approximately 6%) stimulated T cells. Id. at 696.
Although Wucherpfennig & Strominger could be viewed as providing some math
quantifying an error rate, it is important not to overstate its significance. Wucherpfennig &
Strominger is only one study. The researchers also used a database different from BLAST. See
17 Whether NIH would fund Dr. Steinman’s research into Prevnar and GBS will be
interesting to consider in any future Prevnar-GBS cases. Dr. Whitton suggested that this grant
application would not be received well. Tr. 509-10.
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Wucherpfennig & Strominger at 697 (identifying the databases as PIR and SwissProt).
Therefore, the study does not provide conclusive evidence about the likelihood of error in a
search for immunologically relevant homologs using BLAST. If Wucherpfennig & Strominger is
worth anything, it would weigh against a finding that the protein theory based upon BLAST
searches is reliable. If Wucherpfennig & Strominger is worth nothing, then the Daubert factor of
error rate is neutral.
D. General Acceptance
The final Daubert factor is “general acceptance.” Although Capizzano states special
masters cannot require “general acceptance in the scientific and medical communities,” 440 F.3d
at 1325, Terran endorses a special master’s consideration of this factor.
Whether Dr. Steinman's theory is generally accepted depends at least in part on the level
of generality. At a high level of abstraction, molecular mimicry as a theory is recognized in the
medical community. Dr. Whitton emphasized that he did not deny the possibility of molecular
mimicry; Dr. Whitton stated that molecular mimicry might occur with viruses but not with
vaccines. Tr. 451-52.
This high level of abstraction, in turn contributes, in part, to some special masters
accepting that Prevnar can cause GBS. See, e.g., Mullins, 2024 WL 4045424 at *42-45;
Simeneta v. Sec'y of Health & Hum. Servs., No. 18-859V, 2024 WL 4881411, at *30-33 (Fed. Cl.
Spec. Mstr. Oct. 31, 2024). However, “a petitioner must provide a reputable medical or scientific
explanation that pertains specifically to the petitioner’s case.” Broekelschen v. Sec’y of Health
and Hum. Servs., 618 F.3d 1339, 1345 (Fed. Cir. 2010).
In the context of reviewing a special master's assessment of molecular mimicry, the
Federal Circuit held that “the special master found that ‘[m]olecular mimicry is a well-regarded
theory in some contexts,’ . . .but correctly required additional evidence showing that molecular
mimicry can cause the influenza vaccine to significantly aggravate multiple sclerosis.” W.C.,
704 F.3d at 1360 (citing Broekelschen, 618 F.3d at 1345 (holding “a petitioner must provide a
reputable medical or scientific explanation that pertains specifically to the petitioner's case”).
In the context of the more specific issue of whether Prevnar can cause GBS, there is not
persuasive evidence that the medical community accepts this theory. As noted above,
Dr. Steinman has not submitted his views to a journal for publication. Thus, there is a general
absence of literature.18 The epidemiological studies have investigated the possibility and have
not detected an increased incidence. Articles about GBS list multiple potential causes, including
some vaccines, but do not list either Streptococcus pneumoniae or Prevnar. See, e.g., van Doom
at 940-41; van den Berg at 470-71. Mr. Romine has not presented any persuasive evidence that
the medical community accepts Prevnar as causing GBS. Thus, this factor weighs against
finding the theory reliable.
18 The record in this case contains one case report. However, Mr. Romine did not
include it in any briefing. Even special masters who have credited the theory have questioned
the usefulness of this article.
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E. Falsification
Another factor that may contribute to assessing the reliability of an expert’s theory is
whether the theory is falsifiable. Daubert, 509 U.S. at 593. Dr. Steinman did not provide a clear
answer as to whether, in his view, the theory of molecular mimicry is falsifiable. Tr. 227, 239.
In Dr. Whitton’s view, the theory of molecular mimicry would be very difficult to falsify. Tr.
513.
A challenge to falsifying molecular mimicry is that relatively few details are known about
how autoimmune diseases develop. Even after more is learned about the pathogenesis of some
autoimmune diseases or the pathogenesis of some specific cases of specific autoimmune
diseases, there is likely to remain some residual area of indeterminacy. This remnant creates a
space that molecular mimicry could occupy. In other words, until the pathogenesis of GBS is
established for all cases, there remains a chance that molecular mimicry would explain a
minority of cases.
The lack of falsifiability can contribute to a finding that an expert’s opinion is not
reliable. See In re: Paraquat Prod. Liability Lit., 730 F.Supp.3d 793, 841 (N.D. Ill. 2024)
(granting motion to exclude expert’s opinion that an exposure to a herbicide caused Parkinson’s
disease), appeal docketed sub nom. (among others), Coward v. Syngenta AG, No. 24-1967 (7th
Cir. May 16, 2024).
F. Summary on Daubert
Proponents of an expert’s opinion are not required to demonstrate that the opinion passes
all the Daubert criteria. The Daubert criteria should be employed flexibly.
But, for Dr. Steinman’s theory that Prevnar can cause GBS, it is difficult to see how the
theory passes any of the Daubert factors. At best, some criteria are either neutral or not
applicable. But for other criteria, the theory does not measure up.
The evidence does not support a finding that the theory is either reliable or persuasive.
Its lack of reliability means Mr. Romine cannot prevail. See Vaccine Rule 8(b)(1) (directing
special masters to consider all “reliable” evidence); see also MLC Intellectual Property, LLC v.
Micron Technology, Inc., 10 F.4th 1358, 1373 (Fed. Cir. 2021) (affirming a Daubert order
excluding an expert’s opinion regarding reasonable royalty rate for failure to apportion);
MicroStrategy Inc. v. Business Objects, S.A., 429 F.3d 1344, 1355-56 (Fed. Cir. 2006) (stating a
“district court has the responsibility to exclude an expert opinion that overlooks factors that
render the testimony unreliable and/or speculative” and ruling that the district court’s exclusion
of the expert reports was not an abuse of discretion).19
19 Although MLC Intellectual Property and MicroStrategy are set in a posture in which a
district court excluded an expert’s opinion, Dr. Steinman’s opinion has not been excluded. It has
been considered fully.
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VII. Additional Comments
Mr. Romine, like any petitioner, is required to demonstrate his claim with preponderant,
not certain, evidence. Even under the preponderant standard, there are many gaps in his
evidence.
How likely is Prevnar to increase the incidence of GBS when four
epidemiologic studies, of which the smallest involved 1.8 million people,
General
have not detected any increase in the incidence of GBS among people
receiving pneumococcal vaccines?
How likely is Prevnar to cause GBS when the underlying infection is not
General
associated with GBS?
How likely is the method of using BLAST to search for immunologically
Protein Theory relevant homologs to produce reliable results when Dr. Steinman appears
to be the only person using this technique?
How reliable is the assertion that linear sequence homology between
Protein Theory CRM-197 and PMP22 can cause a cross-reaction when this hypothesis
has not been tested?
How reliable is the assertion that the immune system attacks
Phosphoglycerol
phospholipids to cause GBS when review articles about GBS do not
Theory
mention this idea?
How reliable is the assertion that anti-phospholipid antibodies contribute
Phosphoglycerol
to the pathogenesis of GBS when people who suffer from anti-
Theory
phospholipid syndromes do not experience a higher incidence of GBS?
VIII. Comparisons of Results in Other Cases
The resolution of Mr. Romine’s claim that Prevnar caused him to suffer GBS is based
upon an analysis of the evidence and arguments presented in this case. While special masters
have found the evidence does not preponderate in favor of finding that Prevnar can cause GBS in
some persuasive decisions, in other cases, petitioners presenting the same claim have prevailed.
The differences in outcomes are not easily explained by a difference in evidence as Dr. Steinman
and Dr. Whitton frequently (but not exclusively) have been paired in these cases. But see Datte
v. Sec’y of Health & Hum. Servs., No. 18-2V, 2025 WL 1565894, at * 18 n.12 (Fed. Cl. Spec.
Mstr. May 9, 2025) (“it is still important to look closely at respondent’s expert presentation in
each case”). Instead, this disparity in outcome may be attributable to how special masters have
evaluated the evidence. See Jaye, 2024 WL 3691413, at *17 n.20 (suggesting that the
acceptance of a petitioner’s evidence amounts to “an exercising in lowering the preponderant
standard”) (emphasis in original). This “split” in outcome is not necessarily bad. See Lampe v.
Sec’y of Health & Hum. Servs., 219 F.3d 1357, 1368 (Fed. Cir. 2000) (recognizing that special
masters may weigh evidence differently). Strictly from a legal perspective, different outcomes
are permissible because special masters do not bind each other. Boatmon v. Sec’y of Health &
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Hum. Servs., 941 F.3d 1351, 1358 (Fed. Cir. 2019); but see Gamboa-Avila, 166 F.4th at 1323-24
(Fed. Cir. 2026) (expressing concern about differences in outcome).
Nevertheless, it is worthwhile to set forth the points where the present decision parts
company with other rulings finding in favor of compensation. The discussion below roughly
follows the organization of the sections above.
A. Epidemiology
Section III.A., above, evaluated studies by Baxter, Haber, Tseng, and Yoon. It concluded
that although the studies are not perfect, they collectively weigh against the proposition that a
pneumococcal vaccine causes GBS.
Some cases finding that Prevnar can cause GBS, by contrast, appear to have given the
epidemiology studies less weight mainly because petitioners are not required to present
epidemiology to prevail. Datte, 2025 WL 1565894, at *18 (noting the special master had
considered three of the four epidemiological studies and finding that they do not “cast significant
doubt on the viability of Dr. Steinman’s theory”); Koller v. Sec'y of Health & Hum. Servs., No.
16-439V, 2021 WL 5027947, at *22 (Fed. Cl. Spec. Mstr. Oct. 8, 2021).
This statement of law---that petitioners are not required to support their claims with
epidemiology---is of course correct. Althen, 418 F.3d at 1279-81. But, when epidemiology is
available, a special master may consider that form of evidence. Lampe, 219 F.3d at 1365 (“An
epidemiological study may be probative medical evidence relevant to a causation
determination”); McCollum v. Sec’y of Health and Hum. Servs., 760 Fed. App’x 1003, 1008
(Fed. Cir. 2019) (special master’s consideration of an epidemiologic study did not raise
petitioner’s burden of proof). In this case, the epidemiology includes four studies of which the
smallest involved 1.8 million people. It would seem that if a pneumococcal vaccine were
increasing the incidence of GBS, one of these studies would have detected an uptick. Opinions
such as Datte and Koller have not persuasively explained why the epidemiologic studies do not
undermine the claim that pneumococcal vaccines can cause GBS.
Section IV.B. above also discussed whether an infection with Streptococcus pneumoniae
is associated with GBS. Section IV.B. credited the opinion from Dr. Whitton that the wild-type
infection is not associated with GBS and relied in part on difference between Gram positive
bacteria and Gram negative bacteria.
In this regard, the undersigned respectfully disagrees with the portion of Byrd v. Secʼy of
Health & Hum. Servs., No. 20-1476V, 2024 WL 4003061, at *30 (Fed. Cl. Spec. Mstr. July 8,
2024), that states that “potential mimicry between components of the gram-positive
[Streptococcus pneumoniae] bacteria . . . has not been ruled in or out” (emphasis added). This
reasoning seems to place the burden of disproving the reliability of the asserted theory on the
Secretary, when actually the burden of proving (ruling in) the reliability of the theory rests with
the petitioner.
As one special master has noted, “it is generally accepted that a number of different
infectious antigens can cause GBS, including unspecified upper respiratory infections,” and “this
background information has partly informed the special masters’ analysis of a petitioner's theory
of causation with respect to GBS” in other cases. Bartoszek v. Secʼy of Health & Hum. Servs.,
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No. 17-1254V, 2024 WL 4263604 at *18 (Fed. Cl. Spec. Mstr. Aug. 7, 2024). The undersigned,
though mindful of this context, affords less weight to the general acceptance of multiple antigens
as pathogenic. Mr. Romine's case rests not upon these other multiple antigens, but rather, a
specific vaccine against pneumonia caused by the Streptococcus pneumoniae bacteria.
Petitioners are responsible for presenting a theory that is specific to their case. Broekelschen,
618 F.3d at 1345. Furthermore, Mr. Romine did not persuasively analogize Streptococcus
pneumoniae to any of these other “different infectious antigens.”
Thus, the undersigned finds more persuasive the reasoning in cases such as Gamboa-
Avila, 166 F.4th at 1322, Trollinger v. Sec'y of Health & Hum. Servs., No. 16-473V, 2023 WL
2521912, at *28 (Fed. Cl. Feb. 17, 2023), mot. for rev. denied, 167 Fed. Cl. 127 (2023), that
found the absence of an association between wild bacteria and GBS weakens the claim that the
vaccine against the wild bacteria causes GBS.
B. Molecular Mimicry Generally
The present decision cites many cases from appellate authorities that have examined
whether a special master’s treatment of molecular mimicry was legally sound. Those cases have
generally (but not universally) held that the special masters do not err when requiring some
persuasive and reliable evidence to support molecular mimicry as a proposed mechanism for an
autoimmune disease process.
This reliance on appellate authorities regarding molecular mimicry distinguishes the
present case from some cases finding that petitioners prevail on a theory that Prevnar can cause
GBS. Some cases in which petitioners prevailed have cited rulings from special masters about
the sufficiency of molecular mimicry that have not always engaged with the appellate authorities
cited in section V.A. of the present decision. See, e.g., Anderson, 2024 WL 557052, at *31.
C. Protein-Based Theory
The heart of the differences in outcomes for these cases concerns how special masters
have evaluated Dr. Steinman’s theory that a protein found in Prevnar is sufficiently similar to a
human protein that a cross-reaction can lead to GBS. Within this broad topic, there are several
places where the analysis differs.
A fundamental point is whether a BLAST search with an E-value of 10 is a reliable
methodology. It appears that most opinions start with an assumption that Dr. Steinman is
following a reliable methodology. For example, Simeneta, 2024 WL 4881411, at *15 and *25,
noted the conflict between Dr. Steinman’s opinion and the Secretary’s expert’s opinion about E-
values but did not determine how the evidence on this point preponderated. The same is true for
Anderson, in the sense that the special master summarized Dr. Whitton’s opinion but did not
specifically address whether the significance of E-values diminished the reliability of Dr.
Steinman’s use of BLAST searches in general. Instead, Anderson stated that many of Dr.
Whitton’s criticisms “relate to either collateral issues or identify issues that are not material.”
2024 WL 557052, at *31.
In the undersigned’s view, the way BLAST searches are used---or more precisely, not
used in the world outside of litigation---is one factor to consider in determining the reliability of
Dr. Steinman’s methodology. Contrary to Mr. Romine’s arguments (see Pet’r’s Post-Hearing Br.
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at 34-35), evaluating the reliability of an expert’s methodology does not raise a petitioner’s
burden on proof. Here, the evidence preponderates in favor of finding that Mr. Romine has not
established the reliability of this methodology.
Assuming that this methodology is reliable, the next part is to consider the inputs into the
BLAST program. As to the portion from the vaccine (CRM-197), special masters have disagreed
at times. The present decision finds that CRM-197, which is in Prevnar, is not sufficiently
similar to the diphtheria toxin, which is what Dr. Steinman used. This result---finding that there
is not persuasive evidence of immunologic similarity between diphtheria toxin and CRM-197---
is consistent with one opinion from a special master that addressed this issue. Morrison v. Sec’y
of Health & Hum. Servs., No. 18-386V, 2024 WL 3738934, at *21-22 (Fed. Cl. Spec. Mstr. July
18, 2024). By way of contrast, another opinion found that CRM-197 is “immunologically
indistinguishable” from diphtheria toxin. Musick v. Sec’y of Health & Hum. Servs., No. 18-
451V, 2025 WL 2452232, at *15 (Fed. Cl. Spec. Mstr. July 8, 2025). A third category of cases is
one in which special masters have recognized the competing opinions but have not stated how
the evidence on this issue preponderated. See, e.g., Simeneta, 2024 WL 4881411, at *25
(summarizing Dr. Whitton’s report that Raju “did not reach any conclusions about antibody
responses to the diphtheria toxin in [CRM-197]”).
Finally, in discussing the Gautam papers, the present decision attempts to distinguish
homology from immunogenicity. As explained in Sparrow, 2024 WL 1599165, at * 24, a finding
that two proteins share homology at a level of 5 out of 12 amino acids is not the same as finding
that the two proteins likely cross-react. But, the rulings finding in favor of a Prevnar-GBS
connection have not engaged with this additional step.
These differences help explain why this decision finds that Dr. Steinman’s protein-based
theory is not persuasive. The other theory is one based on polysaccharides.
D. Polysaccharide-Based Theory
In Mr. Romine’s case, Dr. Whitton appears to have raised a new criticism of Dr.
Steinman’s theory involving antibodies against phospholipids—that people who have anti-
phospholipid antibodies appear not to have any increased incidence of GBS. See section V.C.2
above. As this was a new point, special masters have not had the occasion to weigh the value of
Dr. Whitton’s observation.
Whether any anti-phospholipid antibodies are associated with GBS is another place of
departure. Opinions crediting Dr. Steinman’s theory have looked upon Dr. Steinman’s reliance
on Nakos and Ho favorably. However, this decision declines to extend the observations from the
Nakos and Ho articles to the present case in part because the articles were written more than 10
years ago and appear not to have achieved a general acceptance in the medical field.
Within the polysaccharide-based theory, a final place where special masters have weighed
the evidence differently concerns the Bryson antibodies. See section V.C.5 above. The present
decision finds that Dr. Whitton has persuasively questioned how Dr. Steinman can explain how
antibodies that can recognize an epitope in the context of a sugar (L rhamose) can also recognize
the same epitope in the context of a lipid.
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E. Daubert
The preceding paragraphs have attempted to highlight places in the analysis where
special masters have differed. An earlier section (section VI) of this decision added a new prism
through which to evaluate the evidence---the test for the reliability of an expert’s opinion as set
out in Daubert. By Daubert’s metrics of reliability, Mr. Romine has failed to establish the
reliability of Dr. Steinman’s opinion. This method of analysis fits within Federal Circuit
precedent. See Cedillo, 617 F.3d at 1339 (“By inclusion of the terms ‘relevant and reliable,’
Vaccine Rule 8(b)(1) necessarily contemplates an inquiry into the soundness of scientific
evidence to be considered by special masters”). By way of contrast, other special masters have
not shown how Dr. Steinman’s opinion passes through any of the Daubert gates.
F. Summary on Comparisons to Other Cases
Within the bounds of controlling law reflected in precedent from the Federal Circuit and
the Vaccines Rules, special masters evaluate evidence. These assessments at times may differ
and this variance is not necessarily problematic as “Congress desired the special masters to have
very wide discretion with respect to the evidence they would consider and the weight to be
assigned that evidence.” Whitecotton v. Sec’y of Health & Hum. Servs., 81 F.3d 1099, 1108
(Fed. Cir. 1996). To the extent that similarity in outcomes is desirable, the undersigned has
attempted to explain where the analysis differs. If additional appellate litigation were to occur,
then a reviewing authority may provide greater guidance on the various points of departure.
Notably, none of the previous rulings finding a causal connection between Prevnar and GBS
have been the subject of a motion for review. This lack of appellate review contrasts with some
of the decisions finding the other way. In cases in which petitioners have challenged a special
master’s decision finding that preponderant evidence did not support a finding of entitlement,
petitioners have achieved no appellate success.
IX. Conclusion
Mr. Romine received a vaccine to protect him from becoming infected with
Streptococcus pneumoniae and developed GBS within about two weeks. Mr. Romine alleges
that the vaccine caused the GBS. Although Mr. Romine has presented some evidence to support
his claim, the evidence does not preponderate in his favor. He has not presented a reliable theory
to explain how Prevnar can cause GBS. Accordingly, he is not entitled to compensation.
The Clerk's Office is instructed to enter judgment in accord with this decision unless a
motion for review is filed. Information about filing a motion for review, including the deadline,
can be found in the Vaccine Rules, which are available on the website for the Court of Federal
Claims.
IT IS SO ORDERED.
s/Christian J. Moran
Christian J. Moran
Special Master
38

Case 1:19-vv-00468-UNJ Document 86 Filed 04/06/26 Page 39 of 42
Appendix: Articles Cited1
1. Elisar Barbar et al., Binding of Phenylphosphocholine-Carrier Conjugates to
the Combining Site of Antibodies Maintains a Conformation of the Hapten,
35 BIOCHEMISTRY 2958 (1996); filed as Exhibit 73.
2. Roger Baxter et al., Lack of Association of Guillain-Barré Syndrome With
Vaccinations, 57 CLIN. INFECT. DIS. 197 (2013); filed as Exhibits A-5 and C-
6.
3. Michael Bröker et al., Biochemical and biological characteristics of cross-
reacting material 197 (CRM197), a non-toxic mutant of diphtheria toxin:
Use as a conjugation protein in vaccines and other potential clinical
applications, 39 BIOLOGICALS 195 (2011); filed as Exhibit 43 and D-5.
4. Steve Bryson et al., Structures of Preferred Human IgV Genes-Based
Protective Antibodies Identify How Conserved Residues Contact Diverse
Antigens and Assign Source of Specificity to CDR3 Loop Variation, 96 J.
IMMUNOL. 4723 (2016) filed as Exhibit 40; and Supplemental Material, filed
as Exhibit 42.
5. Janoi Chang et al., Relevance of O-acetyl and phosphoglycerol groups for
the antigenicity of Streptococcus pneumoniae serotype 18C capsular
polysaccharide, 30 VACCINE 7090 (2012); filed as Exhibit 36.
6. Anand M. Gautam et al., A Polyalanine Peptide with only Five Native
Myelin Basic Protein Residues Induces Autoimmune Encephalomyelitis,176
J EXP. MED. 605 (1992); filed as Exhibit 46.
7. Anand M. Gautam et al., Minimum structural requirements for peptide
presentation by major histocompatibility complex class II molecules:
Implications in induction of autoimmunity, 91 PROC. NATL. ACAD. SCI.
U.S.A. 767 (1994); filed as Exhibit 47.
1 Although this appendix provides bibliographic information for articles cited in the decision, all
articles have been considered.

Case 1:19-vv-00468-UNJ Document 86 Filed 04/06/26 Page 40 of 42
8. Anand M. Gautam et al., A viral peptide with limited homology to a self
peptide can induce clinical signs of experimental autoimmune
encephalomyelitis, 161 J. IMMUNOL. 60 (1998); filed as Exhibit 48.
9. Penina Haber et al., Post-licensure surveillance of 13-valent pneumococcal
conjugate vaccine (PCV13) in adults aged ⩾19 years old in the United
States, Vaccine Adverse Event Reporting System (VAERS), June 1, 2012-
December 31, 2015, 34 VACCINE 6330 (2016); filed as Exhibits 52, A-7, and
C-7.
10. Peggy P. Ho et al., Identification of Naturally Occurring Fatty Acids of the
Myelin Sheath That Resolve Neuroinflammation, 4 SCI. TRANSL. MED. 137
(2012); filed as Exhibit 38.
11. Richard A. C. Hughes et al., Guillain-Barré syndrome in the 100 years since
its description by Guillain, Barré, and Strohl, 139 BRAIN 3041 (2016); filed
as Exhibit C-26.
12. Anil K. Jasti et al., Guillain-Barré syndrome: causes, immunopathogenic
mechanisms and treatment, 12 EXPERT REV. CLIN. IMMUNOL. 1175 (2016);
filed as Exhibit C-19.
13. Cheryl A. Kerfeld and Kathleen M. Scott, Using BLAST to teach "E-value-
tionary" concepts, 9 PLOS BIOL. e1001014 (2011); filed as Exhibit C-29.
14. Jason S. Knight et al., Antiphospholipid syndrome: advances in diagnosis,
pathogenesis, and management, 380 BMJ e069717 (2023); filed as Exhibit
D-3.
15. Yumako Miura et al., Contactin 1 IgG4 associates to chronic inflammatory
demyelinating polyneuropathy with sensory ataxia, 138 BRAIN 1484 (2015);
filed as Exhibit 45.

Case 1:19-vv-00468-UNJ Document 86 Filed 04/06/26 Page 41 of 42
16. G. Nakos et al., Anti-phospholipid antibodies in serum from patients with
Guillain-Barré syndrome, 31 INTENSIVE CARE MED. 1401 (2005); filed as
Exhibit 35.
17. Tobias V. Lanz et al., Clonally expanded B cells in multiple sclerosis bind
EBV EBNA1 and GlialCAM, 603 NATURE 321 (2022); filed as Exhibit 62.
18. R. Raju et al., Epitopes for human CD4+ cells on diphtheria toxin: structural
features of sequence segments forming epitopes recognized by most
subjects, 25 EUR. J. IMMUNOL. 3207 (1995); filed as Exhibit 51.
19. Robert Root-Bernstein, Rethinking Molecular Mimicry in Rheumatic Heart
Disease and Autoimmune Myocarditis: Laminin, Collagen IV, CAR, and
B1AR as Initial Targets of Disease, 2 FRONT. PEDIATR. 1 (2014); filed as
Exhibit 49.
20. N. R. Rose and I. R. Mackay, Molecular mimicry: a critical look at
exemplary instances in human diseases, 57 CELL MOL. LIFE SCI. 542 (2000);
filed as Exhibit C-22.
21. Andre Silvanovich et al., The value of short amino acid sequence matches
for prediction of protein allergenicity, 90 TOXICOL. SCI. 252 (2006); filed as
Exhibit 50.
22. Andre Silvanovich et al., The use of E-scores to determine the quality of
protein alignments, 54 REGUL. TOXICOL. PHARMACOL. S26 (2009); filed as
Exhibit C-31.
23. L. Súkeníková et al., Autoreactive T cells target peripheral nerves in
Guillain-Barré syndrome, 626 NATURE 160 (2004); filed as Exhibit 59.
24. Hung Fu Tseng et al., Pneumococcal Conjugate Vaccine Safety in Elderly
Adults, 5 OPEN FORUM INFECT. DIS. 1 (2018); filed as Exhibits A-10 and C-
8.

Case 1:19-vv-00468-UNJ Document 86 Filed 04/06/26 Page 42 of 42
25. Biana van den Berg et al., Guillain–Barré syndrome: pathogenesis,
diagnosis, treatment and prognosis, 10 NAT. REV. NEUROL. 469 (2014); filed
as Exhibit C-15.
26. Pieter A. van Doom et al., Clinical features, pathogenesis, and treatment of
Guillain-Barré syndrome, 7 LANCET. NEUROL. 939 (2008); filed as Exhibit
C-9.
27. Michel Varrin-Doyer et al., Aquaporin 4-specific T cells in neuromyelitis
optica exhibit a Th17 bias and recognize Clostridium ABC transporter, 72
ANN. NEUROL. 53 (2012); filed as Exhibit 1002.
28. David Wheeler and Medha Bhagwat, BLAST QuickStart: example-driven
web-based BLAST tutorial, 395 METHODS MOL. BIOL. 149 (2007); filed as
Exhibit 68.
29. K. W. Wucherpfennig and J. L. Strominger, Molecular mimicry in T cell-
mediated autoimmunity: viral peptides activate human T cell clones specific
for myelin basic protein, 80 CELL 695 (1995); filed as Exhibit 1003.
30. Dongwon Yoon et al., Cardiovascular, Neurological, and Immunological
Adverse Events and the 23-Valent Pneumococcal Polysaccharide Vaccine, 7
JAMA NETW. OPEN e2352597 (2024); filed as Exhibit D-1.
31. Nobuhiro Yuki and Hans-Peter Hartung, Guillain-Barré Syndrome, 366 N.
ENGL. J. MED. 2294 (2012); filed as Exhibit 21.