key: cord-0824016-htq0k9sy
authors: Boeckh-Behrens, Tobias; Golkowski, Daniel; Ikenberg, Benno; Schlegel, Jürgen; Protzer, Ulrike; Schulz, Christian; Novotny, Julia; Kreiser, Kornelia; Zimmer, Claus; Hemmer, Bernhard; Wunderlich, Silke
title: COVID-19-associated Large Vessel Stroke in a 28-year-old Patient: NETs and Platelets Possible Key Players in Acute Thrombus Formation
date: 2021-01-29
journal: Clin Neuroradiol
DOI: 10.1007/s00062-020-00992-1
sha: 509d98610d141574682b2032ec46163dc42fd7d2
doc_id: 824016
cord_uid: htq0k9sy

nan

She had developed SARS-CoV-2 associated pneumonia 10 days prior to admission and was treated with paracetamol, pantoprazol, metamizol and levofloxacin. On the day of admission, she contacted her general practitioner with progressive dyspnea. In the ambulance heading for a nearby hospital she developed a left-sided hemiparesis and aphasia. There were no other pre-existing conditions or cardiovascular risk factors. Her medical history was positive for bronchial asthma but she did not require medication.

In the external hospital laboratory tests showed lymphopenia (20% decrease, no exact value available), elevated D-dimers (17.81 mg/l), elevated thrombocyte count (615 * 10 3 /µl), elevated liver enzymes (alanine aminotransferase [ALT] 38 U/l, aspartate aminotransferase [AST] 53 U/l), lactate dehydrogenase (LDH) (497 U/l) and C-reactive protein (CRP) (23.39 mg/dl) suggesting bacterial superinfection. Cranial computed tomography (CT) with CT angiography showed no signs of brain infarction but an occlusion of the right middle cerebral artery (MCA) and a wall-adherent thrombus formation at the distal common carotid artery (CCA) as probable stroke cause (Fig. 1a- K COVID-19-associated Large Vessel Stroke in a 28-year-old Patient was then transferred to our department, where she presented with an NIH stroke scale of 15 points. She received 67.5 mg of rtPA (recombinant tissue plasminogen activator) 3h after symptom onset. Mechanical thrombectomy in the M1 segment of the MCA using a combined approach with stentretriever, distal aspiration and proximal flow control using a ballon guide catheter (BGC) was successful 3.5 h after symptom onset (see supplemental Fig. 1 ) and the clot material could be retained for further histopathological analysis. The slight proximal thrombus residues at the distal CCA (see Fig. 1c ) were left untouched. Within 6 days the patient improved to an NIHSS of 3 points and was discharged to rehabilitation with no requirement of ventilation at any time and nearly no persisting COVID-19-related symptoms. Possible concurrent stroke causes were excluded as described in the supplement (supplemental Fig. 2) .

The PCR analysis detected no virus-specific RNA inside the thrombus material using N-gene specific primers. Morphological analysis using standard hematoxylin-eosin (HE) and immunostainings are shown and described in Fig. 1d -g. In brief, the clot had an hyperacute appearance with large amounts of platelets and erythrocytes and unusually minimal amounts of fibrin/fibrinogen. Immunofluorescence analysis showed a large number of neutrophils and neutrophil extracellular traps (NETs), a key factor of early thrombogenesis and link between excessive activation of immunological processes and thrombus formation known as immuno-thrombosis (Fig. 1h, i) . Of the thrombus neutrophils 25% were primed to produce NETs as indicated by citrullinated histone H3 (citH3) staining.

Vascular complications during the course of CoV-2 infections are possibly due to interconnected pathophysiological processes: a direct virus-associated endotheliitis [4] resulting in microcirculatory dysfunction, thrombosis and a local thromboinflammatory state, leading to a global severe hypercoagulability [5] .

However, it is still not clear which vascular structures and which parts of the blood coagulation system and the immunothrombotic link are predominantly involved. Previous reports mainly reported endothelial damage in microvascular compartments [4] . Also, a direct infection or activation of platelets by the virus via the ACE2 (angiotensin-converting enzyme 2) receptor with procoagulatory effects is discussed [6] . We here provide evidence for affection of macrovascular vessel walls, possibly representing endothelial damage leading to large vessel strokes.

The considerable NET amount, although previously described [7] , in conjunction with the low fibrinogen/fibrin amount and the predominance of platelets is unusual and hints at an endothelial damage-driven, neutrophil-platelet interaction as key process of thrombogenesis in this specific situation. The NET activity in COVID-19 patients seems also to be associated to or even trigger other critical and prognosis defining effects in the course of the disease, e.g. necessity of ventilation, increased mucus viscosity, ARDSlike changes and others [8, 9] . This notion is further supported by our findings.

The main findings and possible conclusions of the presented case can be summarized and discussed as follows:

1. Although one case description cannot provide any absolute proof, the presented case suggests, that SARS-CoV-2 related LVOs might occur also in patients without any cardiovascular risk factors and also in not severely COVID-19 affected patients. 2. In the absence of other evident etiologies, the underlying stroke cause in our case was a local arteriopathy in a highflow large artery (CCA) without any visible predamage that is compatible in principle with global endothelial inflammatory damage also in large vessels, in line with previous reports [3, 10] . As limitation, we have to take the (at least remote) possibility into consideration, that the hypercoagulable state was related to a paradoxical effect of the above described medication [11] . 3. Clot analyses direct towards a hyperacute and inflammation-linked thrombus formation, probably predominantly based on platelet-neutrophil interactions including NET formation as one underlying key process. 4. No evidence for a direct virus-mediated procoagulatory effect within the thrombus could be obtained.

Taken together, the case we report here and the molecular tissue analysis further underline the importance of further studies evaluating the most appropriate and target specific anticlotting strategies (e.g. antiplatelet agents) with a special focus on platelet function, platelet-neutrophil interaction and NETosis in the course of COVID-19.

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