key: cord-0708167-off50lbv authors: Scavone, Mariangela; Clerici, Bianca; Birocchi, Simone; Mencarini, Tatiana; Calogiuri, Mariagrazia; Ghali, Claudia; Prati, Daniele; Bozzi, Silvia; Villa, Paolo; Cattaneo, Marco; Podda, Gian Marco title: Platelet activation and modulation in thrombosis with thrombocytopenia syndrome associated with ChAdOx1 nCov-19 vaccine date: 2021-09-02 journal: Haematologica DOI: 10.3324/haematol.2021.279345 sha: 94751c12105825da0234da25b260e758865b6b85 doc_id: 708167 cord_uid: off50lbv Not available. A severe clinical syndrome has been observed in some recipients of the ChAdOx1 nCov-19 or Ad26.COV2.S vaccine, characterized by the presence of antibodies against platelet factor 4 (PF4)/polyanions complexes, thrombocytopenia and thrombosis, 1-6 thus resembling heparin-induced thrombocytopenia (HIT). 1 The syndrome has been termed "thrombosis with thrombocytopenia syndrome (TTS)", or "vaccine-induced immune thrombotic thrombocytopenia (VITT)". 7, 8 Intravenous immunoglobulin (IVIg) has been successfully used to increase the platelet count in patients with TTS. 3, 4 Here we report on the management of two patients with TTS, the effect of their serum or plasma on normal platelets and its modulation by IVIg and anti-platelet agents. IVIg increased the platelet count and blunted the pro-thrombotic effect of sera and plasma from two patients with TTS, whereas IVIg and anti-platelets prevented in vitro TTS sera/plasma-supported thrombogenicity, platelet reactivity and markers of platelet activation. Patient 1 is a 47 years old man who had an episode of syncope on March 15 th 2021, 7 days after the first ChAdOx1 nCov-19 injection. He had thalassemia trait and had never been previously exposed to heparin. His platelet count was 92x10 9 /L at presentation and decreased to a nadir of 27x10 9 /L on day 4. A computed tomography angiography (CTA) detected pulmonary embolism, which was hemodynamically stable. Patient 2 is a 36 years old woman who experienced severe abdominal pain on March 17 th 2021, 18 days after the first ChAdOx1 nCov-19 injection. She had never been previously exposed to heparin and never used oral contraceptives. Platelet count at presentation was 133x10 9 /L and decreased to a nadir of 106x10 9 /L on day 4. An abdomi-Letters to the Editor 3228 haematologica | 2021; 106(12) nal CT scan showed thrombosis of the portal, superior mesenteric and splenic veins, not associated with liver cirrhosis, occult malignancy or JAK2 V617F. Both patients had normal platelet counts before vaccination. Experiments for the confirmation of TTS diagnosis, the evaluation of platelet activation in such patients and its modulation by IVIg and anti-platelets were performed as follows. Anti-PF4/polyanions antibodies were measured by an enzyme-linked immunosorbent assay (ELISA, PF4 Enhanced Test, Immucor), which contains immunoglobulin G (IgG), IgA and IgM antibodies and is more sensitive than non-ELISA rapid immunoassays. 9 The platelet activation test (PAT) was measured (i) by light transmission aggregometry (LTA) using normal washed platelet suspensions (WPS) prepared by the method described by Mustard et al. 10 in the Platelet Aggregation Profiler-8E (Bio/Data, Milan, Italy), and (ii) by whole blood impedance aggregometry (HIMEA) 11 using normal whole blood (WB) in a Multiplate ECC (F. Hoffmann-La Roche). Platelets in WPS and WB were normally reactive to physiological agonists; patients' sera were tested in parallel in the same experimental sessions. For flow cytometry experiments, normal citrate-anticoagulated WB was incubated with anti-CD14-PE or annexin V-PE and anti-CD42b-FITC at room temperature (RT) for 20 minutes. Subsequently, samples for platelet-monocyte heteroaggregates were fixed, and red cells lysed. A total of 2,000 events of CD14 + or 10,000 events of CD42b for annexin V were acquired at medium flow rate by FACS Verse Cytometer (BD Biosciences, San Jose, CA, USA). In some experiments, patients' sera were incubated with normal WB at RT for 20 minutes before staining. Experiments of in vitro thrombus formation were performed as previously described, 12 perfusing normal WB anticoagulated with lepirudin (450 ATU/mL) (Refludan, Pharmion) on collagen-coated (100 mg/mL) microchan- The suspicion of TTS, based on the co-presence of thrombosis and thrombocytopenia, was supported by the positivity of the ELISA for anti-PF4/polyanions antibodies ( Figure 1A) , which was normalized by heparin at high concentration (100 U/mL). PAT was tested both by LTA and HIMEA after the addition of patients' sera to normal WPS and normal WB. Different results were obtained in the two patients: only serum from patient 1 induced aggregation of WPS, which was inhibited by heparin at low (0.2 U/mL) and high (100 U/mL) concentrations ( Figure 1B ); in contrast, both patients' sera induced platelet aggregation in normal WB, which was not inhibited by 1 U/mL heparin and was inhibited by 200 U/mL heparin only when induced by patient 2 serum ( Figure 1C ). The observed discrepant results obtained with WPS and WB might suggest a major role in patient 2 of leukocytes interaction with platelets and anti-PF4/polyanions autoantibodies in the pathogenesis of platelet activation and thrombosis. 13 As it has been demonstrated that the in vitro addition of PF4 increases the sensitivity of the PAT test in some patients, experiments were repeated in the presence of 10 µg/mL PF4 (Chromatec, Germany): under these conditions, serum from patient 1 induced platelet activation similarly in two separate experiments, while serum from patient 2 induced platelet activation in one experiment, but was still ineffective in two separate experiments ( Figure 1B) . Following the diagnosis of TTS, anticoagulant treatment, which was initially based on heparin preparations, was switched to alternative anticoagulants: fondaparinux during hospitalization and edoxaban at discharge for patient 1, argatroban and fondaparinux during hospitalization and apixaban at discharge for patient 2. Both patients were also treated with IVIg, 2 g/Kg body weight over 5 days, which normalized their platelet count ( Figure 1D ). The time needed to increase the platelet count was similar to that observed in other studies in which the same dose of IVIg was infused over 2 days. 3, 4, 14 No steroids were given to patients. Patient 2 also underwent transjugular intrahepatic portosystemic shunt (TIPS), thrombo-aspiration and loco-regional fibrinolysis in the angiography room on day 2. The clinical courses were uneventful for both patients, who were discharged on days 9 and 16. Platelet counts of both patients were normal up to 7 weeks after completion of IVIg treatment (not shown). IVIg infusion had additional potentially protective effects: it i) reduced (patient 1) or normalized (patient 2) the serum reactivity detected by the ELISA test ( Figure 1A) , compatible with inhibition of antibody production; 15 ii) reduced or abolished the activation of normal WPS by patients' sera ( Figure 1B) ; iii) normalized the percentage of circulating platelet/monocyte hetero-aggregates in both patients, a marker of platelet activation and interaction with leukocytes, which were increased at baseline ( Figure 1E ): similar findings were recently reported in other patients; 13 iv) blunted the amplifying effect of patients' sera on in vitro thrombus formation by normal blood (see below). Considering that markers of platelet hyper-reactivity could be secondary to the patients' ongoing thrombotic process in vivo and that their improvement after IVIg could also be due to concomitant treatment with antico-agulants, we elected to evaluate the effects of patients' sera or plasma on markers of activation and reactivity of platelets from healthy subjects and the inhibitory effects of Ig added in vitro. To this end, the effects of patients' sera/plasma were compared not only to those of sera/plasma from six to 18 healthy subjects, but also to those of serum/plasma from a 76 years old man (patient 3) who developed thrombocytopenia (69x10 9 /L) and epistaxis 6 days after the first ChAdOx1 nCov-19 injection, but had no thrombotic events and negative ELISA test results for anti-PF4/polyanions antibodies ( Figure 1A ). Compared to 18 plasma samples from healthy subjects, plasma from patients 2 and 1 (albeit less markedly), but not plasma from patient 3, increased thrombus formation by normal WB perfused over collagen-coated microchannels at 950/s shear rate (Table 1) . Increased thrombus formation was not observed or was less marked with patients' plasma obtained after IVIg, and was completely prevented by Ig added in vitro (Table 1) . Similar effects of patients' sera/plasma were observed on aggregation of normal WPS, formation of monocyte/platelet hetero-aggregates and binding of annexin V to procoagulant phosphatidylserine on the platelet membrane in normal WB, which were dramatically increased, especially by serum from patient 2. These effects were prevented by both the in vivo administration of IVIg and the in vitro addition of Ig, suggesting that Ig mostly inhibit platelet activation through FcgRIIa receptors, although a partial contribution by in vivo inhibition of antibody production cannot be ruled out. 15 Even though serum/plasma from patient 2 did not activate normal WPS, it was more pro-thrombogenic than serum/plasma from patient 1 in all other tests in which normal WB was used, thus reproducing the discrepant results obtained with WPS and WB in the PAT test ( Figure 1B and C) . Finally, we also tested the in vitro effects of the antiplatelet drugs aspirin and cangrelor on these parameters of platelet reactivity. Both drugs prevented the potentiation of platelet reactivity induced by patients' sera/plasma, although cangrelor tended to be more effective than aspirin. These results suggest that the thromboxane A2 and ADP/P2Y12 pathways of platelet activation might play a role in platelet activation in TTS. Whether or not these antiplatelet drugs could benefit TTS patients should only be determined by the results of ad hoc control studies. In conclusion, we found that IVIg curbed the plateletactivating properties of our patients' sera and produced a lasting increase in platelet count even in absence of concomitant corticosteroid treatment. 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