Circulating cellular clusters are associated with thrombotic complications and clinical outcomes in COVID-19

Abstract

We sought to study the role of circulating cellular clusters (CCC)-such as circulating leukocyte clusters (CLCs), platelet-leukocyte aggregates (PLA), and platelet-erythrocyte aggregates (PEA)- in the immunothrombotic state induced by COVID-19. Forty-six blood samples from 37 COVID-19 patients and 12 samples from healthy controls were analyzed with imaging flow cytometry. Patients with COVID-19 had significantly higher levels of PEAs (p value<0.001) and PLAs (p value= 0.015) compared to healthy controls. Among COVID-19 patients, CLCs were correlated with thrombotic complications (p value= 0.016), vasopressor need (p value= 0.033), acute kidney injury (p value= 0.027), and pneumonia (p value= 0.036), whereas PEAs were associated with positive bacterial cultures (p value= 0.033). In predictive in silico simulations, CLCs were more likely to result in microcirculatory obstruction at low flow velocities (≤1mm/s) and at higher branching angles. Further studies on the cellular component of hyperinflammatory prothrombotic states may lead to the identification of novel biomarkers and drug targets for inflammation-related thrombosis.