key: cord-0826540-3fyul3k2 authors: Kolikonda, Murali Krishnan; Jandrasupalli, Kranthi Kumar; Lippmann, Steven title: Association of Coronavirus Disease 2019 and Stroke: A Rising Concern date: 2020-08-13 journal: Neuroepidemiology DOI: 10.1159/000510134 sha: 890e1e2f2ac12c3d626ae7c024c1055c0051b464 doc_id: 826540 cord_uid: 3fyul3k2 The severe acute respiratory syndrome coronavirus 2 (SARS-Cov-2) causes the coronavirus disease 2019 (COVID-19). It quickly became pandemic, and so did a new concern about COVID-19 infections increasing the risk for cerebrovascular diseases. There is an association between COVID-19 illness in people and acute stroke. Several chemical, mechanical, and/or inflammatory central nervous system pathologies are proposed to explain how this viral infection might induce acute cerebrovascular disease. Timely available evaluation and/or intervention is imperative for patients with concerns about acute cerebrovascular issues. The severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) causes the coronavirus 2019 (COVID- 19) disease, which quickly became a pandemic [1] . CO-VID-19 induces significant mortality and is currently without a specific treatment or vaccine. Beyond knowing that bacteria and viruses can be risk factors for cerebrovascular ischemia, the impact of this novel coronavirus on emergency medical issues like acute ischemic stroke remains to be clarified [2] . Stroke accounts for 1 of every 20 fatalities in the USA, is a leading cause of long-term disability, and is the second most common cause of death [3] . During this COVID-19 pandemic period, there were reports of decreased stroke presentation patients and emergency stroke diagnoses [4] . Where are all these people? Is there a true decrease in stroke incidence? Is our COVID-19-focused health care system and media currently providing less attention to other serious conditions and emergencies like acute stroke? Medical facilities are encountering unusually long delays before patients seek attention for acute emergencies [5] . Recently, there has been 39% decrease in the timeliness of people receiving acute stroke evaluations based on a review of neuroimaging databases from the RAPID software platform (iSchemaView) [6] . Newly diagnosed stroke rates have declined by 38% during this COVID period, while the proportion of new large vessel occlusions doubled in a retrospective single-center study [4] . An association between COVID-19 and large vessel occlusion was reported in 5 young patients [7] . Among 221 Chinese patients hospitalized for COVID-19, 11 evidenced an acute ischemic stroke [8] . The median time from SARS- CoV-2 infection to detection of cerebrovascular disease was about 12 days. A retrospective hospital study documented 4 people with SARS-CoV-2 confirmed diagnoses and imaging-proven acute stroke [9] . These observations raise concern about a potential link of COVID-19 to acute stroke. Although the exact mechanism of SARS-CoV-2 causing cerebrovascular pathology is unclear, there might be a neuroinvasive potential that increases the incidence of stroke, thromboses, and related neuropsychiatric conditions [10] [11] [12] . A viral invasion into the tissues is described via angiotensin-converting enzyme 2 and evident in the subfornical organ, paraventricular nucleus, rostral ventrolateral medulla, and nucleus of the tractus solitarius [13] . A possible nasal invasion to the olfactory bulb through the trans-synaptic route is the proposed mechanism of central nervous system penetration [14] [15] [16] . The viral invasion of mechano-and chemoreceptors in the medulla can lead to respiratory failure [17] (Fig. 1) . Coronavirus induces a systemic inflammatory cytokine cascade, which can cause severe coagulopathies, leading to thrombocytopenia; elevation of C-reactive protein, d-di- mer, fibrin, or fibrinogen degradation products; and fibrinogen [18] [19] [20] . The alternative renin-angiotensin pathway system in the brain contributes to effects that are antihypertensive, angiogenic, antithrombotic, antiatherosclerotic, neuroprotective, and antioxidant. These might be disrupted due to coronavirus infection, potentiating the increased incidence of cerebrovascular events [21] (Fig. 2) . A comorbid COVID-19 infection with an ischemic stroke worsens the prognoses [22] . Following COVID-19 infection control measures, an increasing number of people defer requests for medical care. Self-quarantined, they sometimes delay seeking help to avoid contagion in emergency departments. Such postponements have occurred more often during this pandemic. These COVID-19 control concerns are yielding the unintended consequence of people with a possible stroke, delaying their emergent presentation and resulting in more complications [23, 24] . This, too, can overload hospital capacities. Inevitable delays from hospital response systems may follow whenever staff is consumed more than usual with precautionary measures to prevent SARS-CoV-2 exposures. Compounding these hospital and patient factors would lead delay treatment. This delay in stroke care results in prolonged hospitalizations, more disabilities, and additional acquired infections, including COVID-19. Such circumstances could further overwhelm health care systems, yielding suboptimal resource allocation. Timely stroke intervention and corona testing of appropriate patients is crucial. While coronavirus precautions are being relaxed, acknowledging COVID-19 associations to cerebrovascular disease helps plan health care services and should improve clinical outcomes. Education about SARS-CoV-2 and what to do about COVID-19 infections is beneficial. Although an association between COVID-19 and stroke has gained recent attention, current evidence does not establish causality. Although there have been published reports on decline in stroke presentations during the COVID-19 pandemic, there could be a surge of acute cerebrovascular pathologies with growing emergence of association between COVID-19 and stroke [25] . Maintaining the availability of timely evaluation and/or intervention for patients with acute cerebrovascular diseases is imperative. No potential conflicts of interests for all authors. The authors did not receive any funding. 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