EDITORIALS
   Immune thrombocytopenia: vaccination does not equal causation
Allyson Pishko1 and Adam Cuker1,2
1Department of Medicine, Perelman School of Medicine, University of Pennsylvania and 2Department of Pathology & Laboratory Medicine, Perelman School of Medicine, University of Pennsylvania, Philadelphia, PA, USA
E-mail: ADAM CUKER - Adam.Cuker@pennmedicine.upenn.edu doi:10.3324/haematol.2021.279727
Vaccination is the most important tool available for decreasing the incidence of severe disease and death due to severe acute respiratory syndrome coronavirus- 2 (SARS-CoV-2).1 Early case reports and media coverage of patients diagnosed with immune thrombocytopenia (ITP) after receipt of a SARS-CoV-2 vaccine raised concern among patients and providers.2 In this issue of Haematologica, Choi et al. describe the clinical course of a series of patients with a diagnosis of ITP in the 6 weeks following SARS-CoV-2 vac- cination as identified by a national survey of hematologists in Australia.3 Patients with features of the more lethal and rare vaccine-related phenomenon, vaccine-induced immune thrombotic thrombocytopenia, were excluded.3
At the time of this writing, 4.48 billion patients worldwide have received at least one dose of a SARS-CoV-2 vaccine.4 It is now increasingly apparent from large epidemiological studies that if there is an association with vaccination and ITP, the overall incidence is low (Table 1).5-7 In the study in this issue, Choi et al. explicitly do not set out to describe the incidence of ITP following vaccination nor determine causal- ity. However, it is reassuring that only 14 patients (10 de novo cases) were identified with ITP in this survey of hematolo- gists across Australia. ITP is not a particularly uncommon diagnosis, with an estimated incidence rate of three cases of primary ITP diagnosed per 100,000 adults per year.8 Given that 4.2 million adults in Australia had been vaccinated at the time of the study by Choi et al., we would expect about 126 of these individuals to be newly diagnosed with ITP during the ensuing 12 months by chance alone, regardless of vacci- nation status. Using this estimate, we would anticipate roughly 15 individuals to be newly diagnosed with ITP dur- ing any 6-week period, whether they received vaccination or not. This simplified analysis does not take into account sea- sonal variation in the incidence of ITP or differences in inci- dence based on age or gender.8,9 Nonetheless, the number of new cases of ITP (n=10) identified by Choi et al. in the 6 weeks following SARS-CoV-2 vaccination is in line with this
expected incidence, suggesting that some or all of the cases identified by the authors may have occurred in proximity to vaccination purely by chance.
While we cannot conclude causality from the study, it is certainly plausible that vaccination could trigger an ITP episode. Any stimulus to the immune system may theoreti- cally induce production of platelet auto-antibodies, as has been observed with certain pathogens and with live vac- cines, including the measles vaccine.10
The study by Choi et al. provides important details regard- ing the clinical course of ITP following SARS-CoV-2 vaccina- tion. Most cases responded rapidly to standard first-line ther- apies (corticosteroids, intravenous immunoglobulin), as would be expected in adults with garden-variety primary ITP. This experience suggests that patients who are diag- nosed with ITP in proximity to SARS-CoV-2 vaccination may generally be treated with standard ITP therapy.
With the rampant increase in the delta variant of SARS- CoV-2, it is all the more important to instill confidence in the safety of vaccines, while also being careful to not be dismis- sive of safety concerns. The study by Choi et al. adds to lit- erature reinforcing the safety of the SARS-CoV-2 vaccines by demonstrating that occurrence of ITP following vaccination is uncommon, perhaps no greater than what would be expected to occur purely by chance, and that most cases are treatable with standard first-line therapies. Patients with known ITP should be counseled to monitor for signs/symp- toms of recurrence (e.g., petechiae, mucosal bleeding) after vaccination. Clinicians may consider obtaining platelet counts, particularly in patients without stable counts, before and after vaccination. Overall, the benefits of vaccination against COVID-19 continue to vastly outweigh the risks in patients with ITP and in the population at large.
Disclosures
AMP receives research funding from Novo Nordisk and Sanofi Genzyme. AC has served as a consultant for Synergy, has received
Table 1. Incidence of immune thrombocytopenia following SARS-CoV-2 vaccination from selected epidemiological studies.
 Study
Simpson et al.5 Simpson et al.5
Pottegard et al.6 Welsh et al.7
Vaccine
ChAdOx1
BNT162b2 ChAdOx1
BNT162b2 or mRNA-1273
Definition of ITP
Diagnosis code (read code)
Diagnosis code (read code)
Diagnosis code (ICD-10)
VAERS report of thrombocytopenia (did not specify ITP)
Population
Age ≥18, Scotland
Age ≥18, Scotland
Age 18-65 years, Denmark and Norway
Adults, USA
Incidence
1.13 (95% CI 0.62-1.63) cases per 100,000 vaccinations
NR
<5 cases out of 281,264 first doses
0.8 cases per million doses
Relative risk
aRR 5.77
(95% CI 2.41-13.83)*
aRR 0.54 (95% CI 0.1-3.02)*
NR NR
      ITP: immune thrombocytopenia; 95% CI: confidence interval; aRR: adjusted relative risk; NR: not reported;VAERS:Vaccine Adverse Event Reporting System. *Adjusted relative risk of ITP occurring 0-27 days after vaccination.
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haematologica | 2022; 107(5)