key: cord-0937672-m168pl0l authors: Uidhir, Fionn Mag; Bathula, Raj; Sivagnanaratnam, Aravinth; Abdul-Saheb, Mudhar; Devine, Joseph; Cohen, David L. title: Impact of COVID-19 on stroke caseload in a major HyperAcute Stroke Unit date: 2020-10-06 journal: J Stroke Cerebrovasc Dis DOI: 10.1016/j.jstrokecerebrovasdis.2020.105383 sha: d6b5cc7b78120dc3577281c3ba0f2cc40bbc8369 doc_id: 937672 cord_uid: m168pl0l Northwick Park Hospital in London, United Kingdom (UK) is one of the busiest stroke units in the country and is located in one of the areas most heavily affected by the COVID-19 pandemic in the first half of 2020. Admissions to the stroke unit and changes during the peak of COVID-19 were reviewed. Compared with the previous year, mean 96 patients were admitted with suspected stroke during April and May 2020 compared with mean 116 per month in non-COVID periods, ratio 0.82, P=0.01. This reduction involved both strokes and mimics and was unlikely to have occurred by chance. Numbers of patients thrombolysed and of patients referred for thrombectomy decreased dramatically during this time. Mechanisms by which the COVID-19 pandemic and the March lockdown may have affected admissions to the unit are discussed. Reduced admissions to the stroke unit allowed it to contribute its resources to the care of patients with COVID-19 during the peak of admissions. COVID-19 has presented a major challenge to healthcare systems worldwide. In the UK, this has led to the National Health Service (NHS) focusing on the provision of front-line acute care and critical care capacity (1) . The Northwick Park HyperAcute Stroke Unit (HASU) is one of the busiest in the UK, admitting approximately 1,400 acute strokes per annum (2) . The catchment area of the Unit is generally stable with no marked seasonal variation. The Unit is the nearest stroke unit to London's major airport but this rarely results in more than two admissions of air travellers per month. Northwick Park Hospital was affected early and severely by the COVID-19 pandemic, treating approximately 1500 confirmed COVID-19 cases between February and May 2020 (3) . Throughout this, the HASU maintained its service including acute admissions, thrombolysis, assessment and referral for thrombectomy, and transient ischaemic attack (TIA) assessments. Some practice modifications were made to reduce COVID-19 transmission risk, include telephone consultations for TIA, a new thrombolysis route for non-respiratory cases, altered referral pathways and telephone follow up. As part of the Hospital's response to the crisis, 16 of the 34 stroke unit beds were repurposed as a COVID-19 ward. The incidence of stroke and myocardial infarction has been reported to have reduced during the lock down measures insti gated by the UK government (4), which has allowed some reprieve to the NHS. Similar experiences have been described internationally (5) . We have studied this phenomenon. Weekly stroke admission numbers for the first six months of 2020 were reviewed and compared with corresponding weeks in 2019. Admissions were recorded as stroke, TIA or stroke mimic. We used the definitions of the Sentinel Stroke National Audit Programme (SSNAP), a comprehensive real-time audit of stroke admission data with diagnoses based on full physician-based assessment including imaging results rather than discharge coding. Throughout the time period studied, the Hospital's stroke service remained fully operational. Sufficient beds were available for the HASU admissions and normal medical and nursing staffing levels were maintained. All eligible patients received thrombolysis and were referred for thrombectomy. Monthly admissions in the COVID-19 period, defined as April and May 2020, was compared with the non-COVID-19 period, being the remainder of the first half of 2020 and the first half of 2019. The number of admissions was assumed to follow the Poisson distribution, a commonly assumed data distribution for measurements which count the number of occurrences of an outcome. To take into account the assumed distribution of the measurements, the analysis was performed using Poisson regression. Two different analyses were performed. The first analysis was simple (unadjusted) comparison of the number of admissions between the two time groups. A second analysis additionally adjusted for the month of measurement (as defined by months from Jan 19), which would account for any underlying trends in terms of number of admissions. The numbers and final diagnosis of patients admitted to the HASU are shown in the Table. The unadjusted analysis showed mean 116 ± standard deviation (SD) 4 admissions during non-COVID-19 periods falling to 96 ± SD 4 during the COVID-19 period, a ratio of 0.82 (95% CI 0.71, 0.95) P=0.01. After adjustment for the underlying time trend the ratio was 0.83 (95% CI 0.71, 0.98) P=0.03. These indicate that the lower number of admissions during the COVID-19 period was unlikely to have occurred by chance. Mean weekly admissions for March and April 2020 were 15% lower than in March and April 2019. All diagnoses showed decreased numbers which continued through May 2020. Interestingly, there was an increase in admissions between 20 th April and 3 rd May, but admissions subsequently dropped again. The numbers during that two-week period did not exceed normal levels of activity. The cause for this increase is not clear as there were no clear antecedents identifiable in the preceding three weeks, such as changes to social isolation guidelines. Neither of our two nearest hospitals, which do not usually admit acute stroke, reported any significant increase in stroke admissions during the study period. Stroke mimics showed the greatest proportional reduction. Usually about a quarter of HASU admissions are coded as mimics. For the four weeks starting from 23 rd March 2020 when the UK lockdown began, 14% of HASU admissions were mimics. From April through June 2020 there continued to be fewer mimics than usual. We found no differences in median age (75 years Some patients were clearly admitted with COVID-19, but in other cases it is not as clear. UK guidance during the peak of the pandemic was that only patients who were admitted with respiratory symptoms were tested for COVID-19. Some patients may have had COVID-19 with no respiratory symptoms and not been tested until they developed them later and some may have contracted the virus in hospital. There is mounting evidence that COVID-19 causes prothrombotic effects (6) and may cause ischaemic (and also possibly haemorrhagic) strokes. For those who tested positive within a few days of presentation, COVID-19 may have been a causative factor, whereas a positive test later in a prolonged inpatient stay is more likely to suggest inpatient infection. If COVID-19 contributed to any of the strokes admitted to our HASU, these did not result in an increase in the overall caseload, as their impact was overwhelmingly reduced by the overall reduction in stroke presentations and admissions. During the months affected by COVID, time between symptom onset and arrival at hospital was longer. This is not surprising as the ambulance service was very stretched and response times were increased. We are also not surprised that arrival time to first CT and consequently door-to-needle time for thrombolysis were prolonged: it was not possible to use the CT scanner in our emergency room and patients had to be taken to the main radiology department, a journey of about ten minutes. However, there was no evidence of a change in the severity of strokes, nor other measures of quality of care. Whilst the reason for the reduced admissions we have experienced is not clear, the cause is likely to be multifactorial. Patients who had strokes may simply have stayed at home because of fear of coming to hospital. We are the main stroke centre for the catchment area and have seen no evidence of this in increasing telephone consultations, referrals to outpatient services or requests for advice by family practitioners but it remains a possibility. There are documented links between stroke incidence and seasonal temperatures (7, 8) , air pollution (9) and stress levels (10) . There have been changes to these during the lockdown, with unseasonably warm weather through much of April and May 2020 and reductions in air pollution. Stress, a risk factor for both strokes and functional presentations, is much harder to analyse, and may have been affected in a variety of ways by the socioeconomic effects of the lockdown. The lockdown in the UK starting 23 rd March 2020, may have played a part in the decrease in stroke presentations. However, numerous measures had already been put in place before lockdown to combat viral spread and at least some of the above-mentioned factors may already have been affecting stroke presentations. We describe the effects on stroke admission numbers of the COVID-19 pandemic in a HASU in London. The drop in stroke case numbers allowed valuable resources to be re-tasked to deal with COVID-19. Resurgences in COVID-19 may occur in the future and may or may not be associated with a similar reduction in stroke admissions. COVID resurgence coinciding with the usual increase in stroke in winter months would increase pressure on health services. Challenges for NHS hospital s during covid-19 epidemic Clinical characteristics and outcomes of immunosuppressed patients hospitalized with COVID-19: experience from London Covid-19: A&E visits in England fall by 25% in week after lockdown Likely increase in the risk of death or disability from stroke during the COVID-19 pandemic -European Stroke Organisation European Stroke Organisation COVID-19 and its implications for thrombosis and anticoagulation Weather, season, and daily stroke admissions in Hong Kong Effect of seasonal and monthly variation in weather and air pollution factors on stroke incidence in Seoul Short term exposure to air pollution and stroke: systematic review and meta-analysis Risk factors for ischaemic and intracerebral haemorrhagic stroke in 22 countries (the INTERSTROKE study): a case controlled study