key: cord-0916796-cflpsm9w
authors: Roncati, Luca; Manenti, Antonio; Manco, Gianrocco; Farinetti, Alberto; Mattioli, Annavittoria
title: The COVID-19 Arterial Thromboembolic Complications: From Inflammation to Immunothrombosis Through Antiphospholipid Autoantibodies
date: 2020-12-30
journal: Ann Vasc Surg
DOI: 10.1016/j.avsg.2020.12.006
sha: bb40d9ee5d17a01e360b61f65a274b18a5385636
doc_id: 916796
cord_uid: cflpsm9w

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The COVID-19 Arterial Thromboembolic Complications: From Inflammation to Immunothrombosis Through Antiphospholipid Autoantibodies

Patients with severe SARS-CoV-2 infection are at risk for acute arterial thromboembolic complications: the interesting clinical study by Indes et al. about arterial thromboembolic complications in COVID-19 patients merits some pathophysiological observations. 1 First, the endothelial cells suffer from a hyperinflammatory injury, as proven by the presence of exfoliated circulating elements. 2,3 On this basis, a ''lymphocytic endotheliitis'' may occur 4 ; however, in some circumstances, the vessel condition can seriously complicate toward a ''leukocytoclastic vasculitis'', 5 consisting in a neutrophils infiltration inside the tunica media and adventitia, accompanied by fibrinoid necrosis (Fig. 1A and B ). In fact, after activation of B lymphocytes into plasma cells, polyclonal immune complexes, mostly IgG but also IgA and IgM, can be deposited at the level of vascular walls, together with C3 complement fraction, unleashing a proper type III hypersensitive reaction. 5, 6 This sequence can affect medium to large caliber vessels too, causing an increased risk of thrombosis, in which newly generated platelets play an important co-role. Recruited to repair endothelia, they finalistically implement a mechanism of ''covercytosis'' against the virions, in consonance with their myeloid lineage inherited from the megakaryocytic progenitors. 7 Meanwhile, the ''cytokine storm'', through its key cytokines, the interleukin-6, endowed of megakaryocytopoietic activity, stimulates megakaryocytopoiesis, as testified by the high number of naked-megakaryocyte-nuclei in the bone marrow and lungs of critical COVID-19 patients. 8 Nakedmegakaryocyte-nuclei are the expression of megakaryocytes cytoplasm consumption to produce neoplatelets, then released in the microcirculation with prothrombotic effects. This phenomenon can be dramatically amplified by the appearance of antiphospholipid antibodies (lupus anticoagulant, anticardiolipin, anti-b2glycoprotein), able to generate an antiphospholipid syndrome secondary to SARS-CoV-2 infection. 9,10 These autoantibodies bind to phospholipids of platelets membranes, increasing their power of adhesion to endothelia phospholipids and to fibrin filaments (Fig. 1C and D) ; at the same time, they induce platelets aggregation, reciprocal and with other immune cells, such as neutrophils, monocytes, and lymphocytes. All these lead to the COVID-19 hypercoagulative state characterized by an ''abnormal immunothrombosis''. Interestingly, the cascade of events so far illustrated can affect also medium/large-sized vessels, in particular if involved by endothelial dysfunctions, or hemodynamically predisposed for a turbulent blood stream, as along atherosclerotic arteries or in those vessels submitted to previous surgery. Medium-sized arteries can develop a complete thrombotic obstruction (Fig. 1A) , while a mural thrombosis can affect large-sized arteries, such as the aorta: the subsequent risk of peripheral embolization, always present, seems reduced by the strong adhesion among the aforementioned hyperactivated platelets. 11 In perspective, this pathological cascade is not the unique possible because endothelial ulcerations and necrotic-inflammatory lesions of the tunica media could produce an ''intramural hematoma'', further complicating with an arterial dissection, if not bordered on by the prompt action of procoagulants. 12 Contrariwise, direct connections between ''inflammatory'' aneurysms and COVID-19 remain uncertain, although the breakdown of collagen structures, cytokines-related, together with occlusive microthromboses of vasa vasorum (Fig. 1C ) are promoting factors.

Modena, Italy E-mail: antonio.manenti@unimore.it 

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