ABSTRACT
Background: Vaccine-induced Thrombotic Thrombocytopenia (VITT) is a rare but potentially life-threatening complication of the ChAdOx1 COVID-vaccine, which involves binding of IgG antibodies against platelet factor 4 (PF4) to the platelet Fc-gamma receptor. This causes platelet activation with thrombosis and thrombocytopenia. Because of the similarity with heparin-induced thrombocytopenia (HIT), heparin is avoided in the acute treatment of VITT. There is limited information about the long-term persistence of anti-PF4- antibodies and their clinical relevance. Aim(s): To describe long-term clinical and serological outcomes after VITT. Method(s): A case series of patients from Leuven University Hospitals with confirmed VITT and at least 6 months of follow-up. All patients provided informed consent. Anti-PF4 antibodies were measured via chemiluminescence (HemosIL AcuStar HIT-IgG( PF4-H), Werfen) and enzyme-linked immunosorbent assay (ELISA) with immobilised polyvinylsulfonate/PF4 complexes (PF4-IgG Immucor, GTI Diagnostics);with an optical density (OD) cut-off of 0.4. Aggregation of platelets after exposure to patient plasma with 0, 1 or 200 IU/ml of heparin was measured by whole-blood impedance aggregometry (HIMEA) (Roche multiplate analyser). Result(s): Three middle-aged women presented with thrombosis with thrombocytopenia and a positive anti-PF4 ELISA 9 to 16 days after first ChAdOx1 vaccination. Their clinical presentation, lab results and treatment are summarised in Table 1. All patients recovered rapidly after non-heparin anticoagulation with (case 2-3) or without (case 1) intravenous immunoglobulins. All patients received subsequent COVID-vaccination with an mRNA-based vaccine without thrombocytopenia or symptoms. Anti-PF4- antibodies remained elevated in two patients after 3 months and in one out of three after more than 6 months, but HIMEA results for all follow-up tests became negative (Figure 1). Conclusion(s): We report good short-and long-term outcomes of three cases of VITT, including successful subsequent vaccination with an mRNA vaccine. Anti-PF4- antibodies can persist for at least several months. In contrast with the initial presentation, these persistent anti-PF4- antibodies did not trigger platelet activation in our patients. (Table Presented).
ABSTRACT
Background: COVID-19 represents a perfect storm for release of neutrophil extracellular traps (NETs) and resultant pathology from immunothrombosis. Levels of NETs in circulation are regulated by endogenous plasma DNases, which have been shown to be reduced in various diseases including myocardial infarction and sepsis. We previously reported elevated NET biomarkers in admission samples from our first wave study cohort. Aim(s): To characterize DNase activity and biomarkers of released NETs in the context of COVID-19 immunothrombosis. Method(s): With ethical permission and informed consent, we prospectively collected citrated platelet-poor plasma samples from patients admitted to the COVID ward (55 patients) or intensive care unit (216 patients) from March 2020-December 2021 as part of the COntAGIouS trial at UZ Leuven in Belgium (NCT04327750), with special attention paid to sample preparation and storage to preserve NET fragments and DNase activity. Consecutive samples were obtained within 48 hours of admission, between days 6-8, and upon hospital or ICU discharge. Analysis was batch-performed for MPO, MPO-DNA, PF4, sP-selectin, citrullinated histones, DNase activity, VWF:Ag, and FVIII:Ag levels. Result(s): In ICU patients, MPO, VWF, sP-selectin, and NET biomarkers were elevated throughout hospitalization, peaking at day 6-8 after admission, whereas PF4 and FVIII remained highly elevated through the time of ICU discharge. DNase activity was decreased in admission samples, normalized at day 6-8, and strongly increased at the time of discharge, indicating a potential compensatory mechanism. DNase activity was negatively correlated with MPO-DNA values (r = -0.29, p = 0.0013). sPselectin and NET levels were significantly higher in admission samples for patients who experienced a thrombotic event in the period during hospitalization, including pulmonary embolism, DVT, myocardial infarction, and/or stroke. Conclusion(s): Elevated NET levels and decreased DNase activity in plasma are correlated in severe COVID-19, together with elevated markers of thrombotic risk. Approaches to restore DNase activity in plasma may be beneficial in COVID-19-associated immunothrombosis.
ABSTRACT
Critically ill COVID-19 patients often develop a severe pro-thrombotic milieu, as reflected by the markedly increased d-dimer levels. Several cohort studies have reported high rates of thrombotic complications, including deep venous thrombosis (DVT) and pulmonary embolism (PE), myocardial infarction, stroke and microvascular thrombosis. Accordingly, COVID-19 patients who are hospitalized either at a normal, non-intensive care unit (ICU) or at the ICU need to receive appropriate dosages of anticoagulant therapy to prevent or treat these thrombotic complications. This manuscript summarizes the institutional guidance for the antithrombotic prophylaxis and treatment of VTE as outlined by a multidisciplinary team of experts during the first weeks of the COVID-19 pandemic in Europe. Controlled studies are needed to verify the optimal anticoagulation for both prophylaxis and treatment.