Prospective Assessment of Biomarkers of Hypercoagulability in Oncological Patients and Healthcare Workers Following Vaccination Against Sars-Cov-2 with the mRNA Vaccine. the Roadmap-COVID-19-Vaccin Study

Background: COVID-19 has been associated with hypercoagulability, endothelial cell injury and frequent thrombotic complications resulting both from direct effects of the virus on the endothelium and from the ‘cytokine storm’ resulting from the host's immune response. Since the COVID-19 vaccines have been shown to effectively prevent symptomatic infection including hospital admissions and severe disease, the risk of COVID-19-related thrombosis should be expected to (almost) disappear in vaccinated individuals. However, some rare cases of venous thrombosis have been reported in individuals vaccinated with mRNA vaccines. Thus, there is a sharp contrast between the clinical or experimental data reported in the literature on COVID-19 and on the rare thrombotic events observed after the vaccination with these vaccines. This phenomenon raised some scepticism of even some fear about the safety of these vaccines which could compromise the adhesion of the citizens in the vaccination program. Aims: We conducted a prospective observational study, to explore the impact of vaccination with the BNT162b2 (Pfizer/BioNTech) on blood hypercoagulability and endothelial cell activation and to investigate if this is modified by the presence of active cancer. Methods: In total 229 subjects were prospectively included in the study from April to June 2021. Subjects were stratified in three predefined groups: 127 vaccinated patients with active cancer (VOnco group), 72 vaccinated health care workers (VHcw group) and 30 non vaccinated health individuals (Control group). Blood samples were obtained 2 days after the administration of the first dose of BNT162b2 vaccine and collected in Vacutainer® tubes (0.109 mol/L trisodium citrate). Platelet poor plasma (PPP) was prepared by double centrifugation at 2000 g for 20 minutes at room temperature and plasma aliquots were stored at -80°C until assayed. Samples of PPP were assessed for thrombin generation (TG) with PPP-Reagent® (Thrombogram-Thrombinoscope assay with PPP-Reagent®TF 5pM), E-selectin, D-dimers, (D-Di), Tissue Factor (TFa), procoagulant phospholipid-dependent clotting time (Procag-PPL) and von Willebrand factor (vWF), thrombomodulin (TM), tissue factor pathway inhibitor (TFPI), and platelet factor 4 (PF4). All assays were from Diagnostica Stago (France). The upper and lower normal limits (UNL and LNL) for each biomarker were calculated by the mean±2SD for the control group. Results: All vaccinated subjects showed significantly increased levels of PF4 (71% >UNL, p<0.001), D-Dimers (74% >UNL, p<0.01), vWF (60% >UNL, p<0.01), FVIII (62% >UNL, p<0.01) and shorter Procoag-PPL clotting time (96% <LNL, p<0.001), as compared to controls. Thrombin generation showed significantly higher Peak (60% >UNL, p<0.01), ETP (38% >UNL, p<0.01) and MRI (66% >UNL, p<0.01) but no differences in lag-time in vaccinated subjects as compared to the control group. Vaccinated subjects did not show any increase at the levels of TFa, TFPI, TM and E-selectin in comparison with the control group. The studied biomarkers were not significantly different between the VOnco and VHcw groups. Conclusion: The ROADMAP-COVID-19-Vaccine study shows that administration of the first dose of the BNT162b2 vaccine induced significant platelet activation documented by shorter Procoag-PPL associated with increased levels of PF4. Plasma hypercoagulability was less frequent in vaccinated individuals whereas there was no evidence of significant endothelial cells activation after vaccination. Interestingly, the presence of active cancer was not associated with an enhancement of platelet activation, hypercoagulability, or endothelial cell activation after the vaccination. Probably, the generated antibodies against the spike protein or lead to platelet activation in a FcyRIIa dependent manner that results in PF4 release. The implication of the mild inflammatory reaction triggered by the vaccination could be another possible pathway leading to platelet activation. Nevertheless, vaccination does not provoke endothelial activation even n patients with cancer. The findings of the ROADMAP-COVID-19-Vaccine study support the concept administration of mRNA based vaccines does not directly cause a systematic hypercoagulability. Disclosures: Gligorov: Roche-Genentech: Research Funding;Novartis: Research Funding;Onxeo: Research Funding;Daichi: Research Funding;MSD: Research Funding;Eisai: Research Funding;Genomic Heatlh: Research Funding;Ipsen: Research Funding;Macrogenics: Research Funding;Pfizer: Research Funding. Terpos: Novartis: Honoraria;Janssen: Consultancy, Honoraria, Research Funding;Genesis: Consultancy, Honoraria, Research Funding;Celgene: Consultancy, Honoraria, Research Funding;BMS: Honoraria;Amgen: Consultancy, Honoraria, Research Funding;Takeda: Consultancy, Honoraria, Research Funding;Sanofi: Consultancy, Honoraria, Research Funding;GSK: Honoraria, Research Funding. Dimopoulos: Amgen: Honoraria;BMS: Honoraria;Janssen: Honoraria;Beigene: Honoraria;Takeda: Honoraria.

Mainstreamed genetic testing for French breast and ovarian cancer patients and its utility during the COVID-19 pandemic

Background: Cancer genetics clinics are struggling to cope with increasing referrals of breast and ovarian cancer (BC/OC) patients. The approval of anti-PARP for cases with germline BRCA1/2 pathogenic variants (PV) and the associated necessity for the oncologist to receive results rapidly are compounding these difficulties. Mainstreamed genetic testing (MGT) via oncologists and gynecologists obviates the need for a genetics consultation for most patients, as only complex cases and PV carriers are referred. We report results from an MGT project involving a Paris University hospital and two regional hospitals, and show how MGT guaranteed care continuity during the COVID-19 pandemic. Methods: Oncologists and gynecologists participated voluntarily. They were sent an e-learning module summarizing the principles of genetic susceptibility to BC/OC, patient selection, consent, carrier management, and highlighting the importance of cascade testing in relatives. A computerized and adapted version of the Manchester Scoring System was used for patient selection. Only index cases with cancer and aged > 30 were included. The oncologist or gynecologist provided basic genetic counseling and gave patients an information sheet. A single academic laboratory performed all analyses. Results: During the 01.2018 – 05.2020 period, MGT was carried out in 244 patients with an average age of 51. PV detection rate in the BRCA1/2, PALB2, and RAD51C/D major genes was 11%. All carriers were subsequently seen by a cancer geneticist. Whenever possible, patients with negative results were discussed at a multidisciplinary meeting involving a geneticist or a genetic counselor. 27 of the reported patients had MGT during the 8-week COVID-19 lockdown. Conclusions: We report the successful implementation of MGT in France for BC/OC patients. It allowed for immediate testing at their point of care of eligible patients. Results were rapidly returned, and all PV carriers were seen by a cancer geneticist. The PV detection rate was similar to rates observed using traditional testing pathways. Of note, MGT guaranteed continuity of care during the COVID-19 lockdown, when all medical activity considered nonessential, including cancer genetics, was drastically reduced. Legal entity responsible for the study: The authors. Funding: Has not received any funding. Disclosure: All authors have declared no conflicts of interest.