Immune Response May Cause Blood Clots After AstraZeneca and Johnson & Johnson Vaccines

Otherwise Rare Immune Response May Cause Blood Clots After AstraZeneca and Johnson & Johnson Vaccines



Jacqui Wise

Commentaries by Robert Gorter, MD, PhD.

Two teams of researchers have published detailed observations of patients who developed thrombotic thrombocytopenia after receiving the AstraZeneca vaccine and have speculated about a possible mechanism.

Both groups suggest that the development of serious blood clots alongside falling levels of platelets is an (auto-)immune response that resembles a rare reaction to the drug heparin, called heparin-induced thrombocytopenia. The researchers have labeled the syndrome vaccine-induced immune thrombotic thrombocytopenia (ITTP)

Among more than 20 million people who have been vaccinated with the AstraZeneca vaccine in the UK so far, 79 cases of rare blood clots with low platelets have been reported, as well as 19 deaths. The European Medicines Agency and the UK’s Medicines and Healthcare Regulatory Agency have concluded that unusual blood clots with low blood platelets are a side effect of the AstraZeneca vaccine but a causal relationship has not been formally established.

The EMA’s Pharmacovigilance Risk Assessment Committee is also investigating three cases of unusual blood clots with low blood platelets during the vaccine rollout of the Johnson & Johnson vaccine in the U.S.

The first paper, published in the New England Journal of Medicine, describes 11 patients in Austria and Germany, nine of them women, with a median age of 36 years. They had clotting and low platelets between five to 16 days after vaccination. Nine patients had cerebral venous thrombosis, three had splanchnic vein thrombosis, three had a pulmonary embolism, and four had other thromboses. Six of the patients died.

All 11 patients, as well as another 17 for whom the researchers had blood samples, tested positive for antibodies against platelet factor 4 (PF4). These antibodies are also observed in people who develop heparin-induced thrombocytopenia. None of the patients had received heparin before their symptoms started, however.

“Whether these antibodies are autoantibodies against PF4 induced by the strong inflammatory stimulus of vaccination or antibodies induced by the vaccine that cross-react with PF4 and platelets requires further study,” wrote Andreas Greinacher from the University of Greifswald in Germany and his co-authors. They suggested that one possible trigger of these PF4 reactive antibodies could be free DNA in the vaccine.

In a second paper, also published in the New England Journal of Medicine, researchers in Norway described a similar pattern in five healthcare workers who were 32 to 54 years old. All had high levels of PF4 antibodies and no previous exposure to heparin. Four of the patients had a major cerebral hemorrhage and three died.

Both sets of researchers suggested that doctors should have a low threshold for requesting enzyme-linked immunosorbent assay testing for PF4-heparin antibodies in patients who have unexpected symptoms after vaccination. They suggested treatment with intravenous immune globulin and non-heparin blood thinners.

Commenting on the studies, Peter English, a retired consultant in communicable disease control, former editor of Vaccines in Practice, and immediate past chair of the BMA Public Health Medicine Committee, said, “These papers do not tackle causality. They may turn out to be useful, in their technical details, for clinicians treating patients with clotting disorders, and for regulators and others in deciding the safest way to proceed once causality has been confirmed — if it ever is. However, their small studies do not have the statistical power to, and are not designed to, prove causality.”

On April 7, 2021, the UK’s Expert Haematology Panel published guidance for the diagnosis and management of vaccine-induced thrombosis and thrombocytopenia which they say is rare but can affect patients of all ages and both sexes. They recommended urgent use of intravenous immunoglobulin, avoiding platelet transfusions, and anticoagulating with non-heparin-based therapies. Probable cases must be reported to the panel and Public Health England.

Additionally, all cases of thrombosis or thrombocytopenia occurring within 28 days of the COVID-19 vaccine must be reported to the Medicines and Healthcare Products Regulatory Agency through the online yellow card system.

The MHRA has recommended that anyone who develops the following symptoms after vaccination should seek prompt medical advice — shortness of breath, chest or persistent abdominal pain, leg swelling, blurred vision, confusion, seizures, unexplained pinprick rash, or bruising beyond the injection site.

Dr. Gorter: many side effects go under-reported as adverse events and deaths must get reported on a volunteering basis and online. Studies show that only about 1-2% of all adverse events (side effects) are being reported: meaning 98% of all side effects never ever get reported.(a)

(a)Anjan K. Banerjee, Sally Okun, I. Ralph Edwards, Paul Wicks, Meredith Y. Smith, Stephen J. Mayall, Bruno Flamion, Charles Cleeland, and Ethan Basch:  Patient-Reported Outcome Measures in Safety Event Reporting: PROSPER Consortium Guidance. in: Drug Saf. 2013; 36(12): 1129–1149/Published online 2013 Oct 5. doi: 10.1007/s40264-013-0113-z/PMCID: PMC3834161 / PMID: 24092596

Originally published by The BMJ April 12, 2021, written by Jacqui Wise, reproduced here under the terms of the CC BY NC license.

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