ABSTRACT
Introduction: SARS-CoV-2 is responsible for a global pandemic, with almost 200 million confirmed cases. SARS-CoV-2 infection can lead to various disease states, from only mild symptoms in the majority of cases to severe disease, which is associated with an increased incidence of venous thromboembolism (VTE). We hypothesized that an altered fibrin network structure contributes to VTE in COVID-19 patients by affecting thrombus stability and fibrinolysis sensitivity. By studying the fibrin network of COVID-19 patients, we aimed to unravel the mechanisms that contribute to the increased risk of VTE in COVID-19 patients. Methods: Between April 2020 and December 2020, we collected plasma samples from patients with COVID-19 admitted to the intensive care unit (ICU) of the Erasmus Medical Center. We included patients with confirmed VTE diagnosed on CT-angiography, and COVID-19 patients without confirmed VTE during ICU admission. Samples were collected on admission to the ICU and after confirmed VTE or at similar time points in ICU patients without confirmed VTE. In addition, we collected plasma from COVID-19 patients at admission to general wards without confirmed VTE and from healthy controls. Clots were formed by mixing citrated plasma with thrombin (final concentration 1 U/ml) and calcium (17 mM). We imaged the clots using stimulated emission depletion (STED) microscopy, a super-resolution technique in which a depletion laser is used to selectively switch off fluorophores surrounding the focal point, thereby increasing the resolution. In these images, fibrin fiber diameters were measured using the Local Thickness plugin of ImageJ. Fiber density was quantified as percentage of area in Z-stacks of confocal microscopy images. Finally, a clot lysis assay based on turbidity was used to determine sensitivity to fibrinolysis (clot lysis time) and clot density (difference between maximum and baseline absorbance). Differences in fibrin network properties between groups were tested using One-Way ANOVA with Bonferroni post-hoc tests and linear regression with and without adjustment for fibrinogen levels. Results: We included 21 COVID-19 ICU patients with confirmed VTE, 20 COVID-19 ICU patients without confirmed VTE, 10 COVID-19 ward patients and 7 healthy controls. Mean age was comparable between the groups, while BMI was higher in COVID-19 patients than in healthy controls (Table 1). Levels of fibrinogen, D-dimer and anti-Xa were significantly higher in COVID-19 ICU patients than in COVID-19 ward patients and healthy controls. FVIII levels were significantly higher in COVID-19 ICU patients than in healthy controls, while FXIII levels were significantly lower. On admission to the ICU, clot density was significantly higher in COVID-19 ICU patients with and without confirmed VTE than in healthy controls (Figure 1 and Table 2). However, after adjustment for fibrinogen levels, this difference disappears. Clot lysis time was significantly longer in clots from COVID-19 ICU patients than in clots from healthy controls, regardless of fibrinogen levels (Table 2). COVID-19 ICU patients with confirmed VTE also showed a significant longer clot lysis time than COVID-19 ward patients. Interestingly, in the clot lysis assay, fibrinolysis did not occur in 25% of COVID-19 ICU patients with VTE versus 9.5% of COVID-19 ICU patients without VTE (Figure 2). This fibrinolysis shutdown was never observed in clots from healthy controls and COVID-19 ward patients. Fibrin fiber diameters were comparable between the groups. In the clots from plasma samples collected at admission to the ICU, there were no differences between COVID-19 ICU patients with and without VTE (Figure 2). However, when comparing clots prepared from plasma collected at the second time point (after VTE or at a similar time point for patients without VTE), we observed significant longer clot lysis times in patients with confirmed VTE (97.4 [88.5-158.8] min) than in patients without confirmed VTE (80.0 [76.0-97.8] min) (p=0.03). Finally, there were no significant changes between clots fro plasma before and after VTE or between the two time points in patients without VTE, except for a decreased clot lysis time over time for COVID-19 ICU patients without confirmed VTE. Conclusion: Our results suggest that SARS-CoV-2 infection increases clot density and decreases clot susceptibility to fibrinolysis, and that these changes relate to the severity of the disease. [Formula presented] Disclosures: Kruip: Daiichi Sankyo: Research Funding;Bayer: Honoraria, Research Funding.