Stroke Thrombectomy in Patients with COVID-19: Initial Experience in 13 Cases

DISCUSSION

During the first 2 months of the COVID-19 outbreak, more than one-third of the patients who underwent stroke thrombectomies had SARS-Cov-2 infection. In most cases, patients did not have a COVID-19 diagnosis or suspicion before the acute presentation with stroke symptoms. Moreover, only 1 of 3 patients had suggestive symptoms at the moment of the acute presentation.

These results underline the importance of personal protection measures for all stroke centers in areas touched by the COVID-19 pandemic. An important proportion of cases were not suspected of having COVID-19 at presentation. This scenario can be explained, on one hand, by the high rate of asymptomatic infections and, on the other hand because the initial examination and history are performed in an expedited fashion in the context of stroke alerts because of time constraints and impaired communication due to neurologic deficits. Consequently, it seems justified to systematically apply full personal protection measures for all stroke thrombectomies, for the entire duration of the epidemic. Recent guidance issued by the Society of NeuroInterventional Surgery³ also recommends that patients with undocumented COVID-19 status should be treated as high risk, provided institutional resources are available. However, the high rate of patients positive for COVID-19 observed in our series might not be applicable in other geographic areas. Moreover, the definition of appropriate personal protection measures may vary among facilities and practitioners. This is reflected in the recommendations of the European Society of Minimally Invasive Neurological Therapy,⁴ which state that clinical management should be conducted according to local hospital protocols.

Baseline characteristics among treated cases, as well the duration of procedures and recanalization rates, are comparable with those in previously published literature.⁵ Two recent reports^6,7 of 10 thrombectomies in relatively young patients (5 cases in each report) suggested that SARS-Cov-2 infection might lead to increased rates of stroke in the younger population. We did not observe this tendency in our cohort. The youngest patient was 62 years of age, and the median age was 78 years, which is above the average age in recent thrombectomy trials. Escalard et al⁸ recently published their experience of thrombectomy in patients with COVID-19 in a high-volume center in Paris, France. They treated 10 patients positive for COVID-19, representing 27% of the total 37 thrombectomies performed during the study period; most patients (70%) had mild or no respiratory signs at the time of stroke. These findings are comparable with the results in our cohort.

With regard to clinical outcomes, despite the obvious limitations pertaining to the small sample size and short follow-up, out initial results suggest an increase in the in-hospital mortality rate (15.3%) and a high rate of thrombotic complications during hospitalization (23.0% with deep vein thrombosis, 7.6% with pulmonary embolism, and 7.6% with early arterial re-occlusion). In the cohort of Escalard et al,⁸ these rates were even higher; 40% of cases had early cerebral re-occlusion and 60% mortality. This finding is concordant with recent reports indicating a hypercoagulable state in patients with COVID-19. Multiple groups have observed high levels of thrombosis and inflammation serum markers such as D-dimers, fibrinogen, and C-reactive protein.^9⇓-11 Similarly, a recent study¹² found that pulmonary embolism is frequent and is seen in almost 1 of 4 patients with severe clinical features of COVID-19 infection.

Given this physiopathologic evidence, we should be seeing an increase in the incidence of ischemic stroke. Initial reports seem to point in the opposite direction: Two centers in northern Italy^13,14 observed a reduction in the number of acute presentations, stroke admissions, and the proportion of patients treated with intravenous thrombolysis or mechanical thrombectomy. In our region, compared with the same period in 2019, between March 1 and 31, 2020, there were 39.6% fewer stroke alerts and 33.3% fewer acute revascularization treatments (intravenous thrombolysis and/or mechanical thrombectomy), with a relatively stable number of stroke unit admissions (−0.6%).¹⁵ This finding suggests that the overall stroke incidence remained the same, but fewer patients presented within the therapeutic time window and were thus eligible for intravenous thrombolysis or mechanical thrombectomy.

The incidence of ischemic stroke among patients with COVID-19 remains unknown. In our center,¹⁶ brain MR imaging was performed in 13 patients hospitalized in the intensive care unit with severe COVID-19 infection and acute respiratory distress syndrome. Three cases (23%) had evidence of acute or subacute ischemic stroke. Of note, these patients did not have focal signs suggestive of stroke; they underwent MR imaging because of unexplained encephalopathic features. These findings suggest that ischemic stroke might be frequent in patients with severe COVID-19 infection, but a large proportion of cases are not detected because clinical symptoms are masked by the severity of respiratory features and sedation.

The main limitations of this study are the small sample size and the absence of a comparative cohort. However, the aim of this study was primarily to describe our initial experience of stroke thrombectomy in this particular context and discuss possible implications for clinical practice.