Chart-Confirmed Guillain-Barre Syndrome After 2009 H1N1 Influenza Vaccination Among the Medicare Population, 2009-2010

Polakowski, Laura; Sandhu, Sukhminder K.; Martín, David; Ball, Robert; MaCurdy, Thomas; Franks, Riley; Gibbs, Jonathan; Kropp, Garner; Avagyan, Armen; Kelman, Jeffrey A.; Worrall, Chris; Sun, Guoying; Kliman, Rebecca; Burwen, Dale R.

doi:10.1093/aje/kwt051

Cited by 35 publications

(22 citation statements)

References 34 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Although an increased risk of GBS associated with the pandemic H1N1 influenza vaccine (Pandemrix) given during the 2009À2010 outbreak was found, this amounts to only one case. Previously, the vaccine has been associated with GBS in Germany [14] and weakly in the USA [15]. No association has been found in studies conducted in the UK [16] and in a European multinational case series [17] with one study from the USA reporting even a protective effect [18].…”

Section: Discussionmentioning

confidence: 99%

The incidence and triggers of adult‐onset Guillain−Barré syndrome in southwestern Finland 2004–2013

Sipilä

Soilu‐Hänninen

2014

Euro J of Neurology

View full text Add to dashboard Cite

show abstract

Section: Discussionmentioning

confidence: 99%

The incidence and triggers of adult‐onset Guillain−Barré syndrome in southwestern Finland 2004–2013

Sipilä

Soilu‐Hänninen

2014

Euro J of Neurology

View full text Add to dashboard Cite

show abstract

“…There is also evidence of an association between influenza virus and GBS. In 1976 and 2009 in the US, seasonal influenza strains were of swine origin and an increased relative risk of developing GBS was observed in both cases, whether the vaccine was adjuvanted or not [72,73]. Although these results were not confirmed in Europe [74], several studies have established a link between GBS and infection by the 2009 pH1N1 [75,76].…”

Section:  Guillain-barré Syndromementioning

confidence: 99%

T cell epitope redundancy: cross-conservation of the TCR face between pathogens and self and its implications for vaccines and autoimmunity

Moise

Beseme

Tassone

et al. 2016

Expert Review of Vaccines

View full text Add to dashboard Cite

SummaryT cells are extensively trained on 'self' in the thymus and then move to the periphery, where they seek out and destroy infections and regulate immune response to self-antigens. T cell receptors (TCR) on T cells' surface recognize T cell epitopes, short linear strings of amino acids presented by antigen-presenting cells. Some of these epitopes activate T effectors, while others activate regulatory T cells. It was recently discovered that T cell epitopes that are highly conserved on their TCR face with human genome sequences are often associated with T cells that regulate immune response. These TCR-cross-conserved or 'redundant epitopes' are more common in proteins found in pathogens that have co-evolved with humans than in other noncommensal pathogens. Epitope redundancy might be the link between pathogens and autoimmune disease. This article reviews recently published data and addresses epitope redundancy, the "elephant in the room" for vaccine developers and T cell immunologists.

show abstract

“…Thus, we have complemented the use of USPRT with self‐controlled risk interval (SCRI) analyses, which provide less biased and more precise estimates of the GBS risk attributable to influenza vaccines by at least adjusting for time‐invariant confounders if not for time‐varying confounders such as influenza circulation . These two systems together with a descriptive analysis conducted during and after USPRT testing have constituted the active surveillance components of the FDA‐CMS multilayered surveillance system …”

Section: Discussionmentioning

confidence: 99%

“…Because USPRT depends on the accumulation of observed vaccinations { N 1 t , … , N tt } up to each testing week, we used data from the 2016 to 2017 influenza season in SSD to represent a hypothetical accumulation (Figure ). We used days 8 to 21 postvaccination as the risk window, where GBS risk attributable to vaccination is thought to be higher and 2.55 events per million vaccinations (the average rate in the seasons 2012‐2013 through 2016‐2017 among seasonal influenza vaccines) as the historical GBS rate . For the clinical delay distribution, we used the average distribution in the 2014 to 2015 through 2016 to 2017 seasons to reflect potential decreases in time needed to diagnosis GBS, whereas for the processing delay distribution, we used the 2016 to 2017 season only to reflect yearly decreases in the time elapsed for Medicare claims processing (Appendix S3).…”

Section: Methodsmentioning

confidence: 99%

A simulation study of the statistical power and signaling characteristics of an early season sequential test for influenza vaccine safety

Forshee

Arya

et al. 2019

Pharmacoepidemiology and Drug

View full text Add to dashboard Cite

Purpose The US Food and Drug Administration monitors the risk of Guillain‐Barré syndrome (GBS) following influenza vaccination using several data sources including Medicare. In the 2017 to 2018 season, we transitioned our near real‐time surveillance in Medicare to more effectively detect large GBS risk increases early in the season while avoiding false positives. Methods We conducted a simulation study examining the ability of the updating sequential probability ratio test (USPRT) to detect substantially elevated GBS risk in the 8‐ to 21‐day postvaccination versus 5× to 30× the historical rate. We varied the first testing week (weeks 5‐8) and the null rate (1×‐3×) and evaluated power. We estimated signal probability and the risk ratio (RR) after signaling when high‐risk seasons were rare. Results Applying fixed alternatives, we found >80% power to detect a risk 30× the historical rate in week 5 for the 1× null and in week 6 for the 1.5× to 3× nulls. Nearly all testing schedules had >80% power for a 5× risk by week 11. To test the robustness of USPRT, we further simulated seasons where 1% were true high‐risk seasons. Using a 1× null led to 10% of seasons signaling by week 11 (median RR approximately 1.4), which decreased to approximately 1% with the ≥2.5× null (median RR approximately 16.0). Conclusions On the basis of the results from this simulation and subsequent consultations with experts and stakeholders, we specified USPRT to test continuously from weeks 7 to 11 using the null hypothesis that the observed GBS rate was 2.5× the historical rate. This helped improve the ability of USPRT to provide early detection of GBS risk following influenza vaccination as part of a multilayered system of surveillance.

show abstract

Chart-Confirmed Guillain-Barre Syndrome After 2009 H1N1 Influenza Vaccination Among the Medicare Population, 2009-2010

Cited by 35 publications

References 34 publications

The incidence and triggers of adult‐onset Guillain−Barré syndrome in southwestern Finland 2004–2013

The incidence and triggers of adult‐onset Guillain−Barré syndrome in southwestern Finland 2004–2013

T cell epitope redundancy: cross-conservation of the TCR face between pathogens and self and its implications for vaccines and autoimmunity

A simulation study of the statistical power and signaling characteristics of an early season sequential test for influenza vaccine safety

Contact Info

Product

Resources

About