key: cord-0816109-n2rec4i8 authors: Varatharaj, Aravinthan; Thomas, Naomi; Ellul, Mark A; Davies, Nicholas W S; Pollak, Thomas A; Tenorio, Elizabeth L; Sultan, Mustafa; Easton, Ava; Breen, Gerome; Zandi, Michael; Coles, Jonathan P; Manji, Hadi; Al-Shahi Salman, Rustam; Menon, David K; Nicholson, Timothy R; Benjamin, Laura A; Carson, Alan; Smith, Craig; Turner, Martin R; Solomon, Tom; Kneen, Rachel; Pett, Sarah L; Galea, Ian; Thomas, Rhys H; Michael, Benedict D title: Neurological and neuropsychiatric complications of COVID-19 in 153 patients: a UK-wide surveillance study date: 2020-06-25 journal: Lancet Psychiatry DOI: 10.1016/s2215-0366(20)30287-x sha: 3ba4f93c24ed5b0c2274e947d1ba90f09d228ccd doc_id: 816109 cord_uid: n2rec4i8 BACKGROUND: Concerns regarding potential neurological complications of COVID-19 are being increasingly reported, primarily in small series. Larger studies have been limited by both geography and specialty. Comprehensive characterisation of clinical syndromes is crucial to allow rational selection and evaluation of potential therapies. The aim of this study was to investigate the breadth of complications of COVID-19 across the UK that affected the brain. METHODS: During the exponential phase of the pandemic, we developed an online network of secure rapid-response case report notification portals across the spectrum of major UK neuroscience bodies, comprising the Association of British Neurologists (ABN), the British Association of Stroke Physicians (BASP), and the Royal College of Psychiatrists (RCPsych), and representing neurology, stroke, psychiatry, and intensive care. Broad clinical syndromes associated with COVID-19 were classified as a cerebrovascular event (defined as an acute ischaemic, haemorrhagic, or thrombotic vascular event involving the brain parenchyma or subarachnoid space), altered mental status (defined as an acute alteration in personality, behaviour, cognition, or consciousness), peripheral neurology (defined as involving nerve roots, peripheral nerves, neuromuscular junction, or muscle), or other (with free text boxes for those not meeting these syndromic presentations). Physicians were encouraged to report cases prospectively and we permitted recent cases to be notified retrospectively when assigned a confirmed date of admission or initial clinical assessment, allowing identification of cases that occurred before notification portals were available. Data collected were compared with the geographical, demographic, and temporal presentation of overall cases of COVID-19 as reported by UK Government public health bodies. FINDINGS: The ABN portal was launched on April 2, 2020, the BASP portal on April 3, 2020, and the RCPsych portal on April 21, 2020. Data lock for this report was on April 26, 2020. During this period, the platforms received notification of 153 unique cases that met the clinical case definitions by clinicians in the UK, with an exponential growth in reported cases that was similar to overall COVID-19 data from UK Government public health bodies. Median patient age was 71 years (range 23–94; IQR 58–79). Complete clinical datasets were available for 125 (82%) of 153 patients. 77 (62%) of 125 patients presented with a cerebrovascular event, of whom 57 (74%) had an ischaemic stroke, nine (12%) an intracerebral haemorrhage, and one (1%) CNS vasculitis. 39 (31%) of 125 patients presented with altered mental status, comprising nine (23%) patients with unspecified encephalopathy and seven (18%) patients with encephalitis. The remaining 23 (59%) patients with altered mental status fulfilled the clinical case definitions for psychiatric diagnoses as classified by the notifying psychiatrist or neuropsychiatrist, and 21 (92%) of these were new diagnoses. Ten (43%) of 23 patients with neuropsychiatric disorders had new-onset psychosis, six (26%) had a neurocognitive (dementia-like) syndrome, and four (17%) had an affective disorder. 18 (49%) of 37 patients with altered mental status were younger than 60 years and 19 (51%) were older than 60 years, whereas 13 (18%) of 74 patients with cerebrovascular events were younger than 60 years versus 61 (82%) patients older than 60 years. INTERPRETATION: To our knowledge, this is the first nationwide, cross-specialty surveillance study of acute neurological and psychiatric complications of COVID-19. Altered mental status was the second most common presentation, comprising encephalopathy or encephalitis and primary psychiatric diagnoses, often occurring in younger patients. This study provides valuable and timely data that are urgently needed by clinicians, researchers, and funders to inform immediate steps in COVID-19 neuroscience research and health policy. FUNDING: None. In December, 2019, WHO was notified by clinicians in Wuhan, China, of a novel and severe respiratory virus, later called severe acute respiratory syndrome corona virus 2 (SARSCoV2). COVID19, the disease caused by SARSCoV2, was recognised as a substantial global public health emergency and SARSCoV2 was declared a pandemic on March 11, 2020 . The neurological com munity were alerted to the high prevalence of anosmia and dysgeusia in early reports. 1, 2, 3 Some of these early cohorts also featured nonspecific neurological symp toms, such as dizziness and headache. 1 However, severe neurological and neuro psychiatric presentations asso ciated with COVID19 have become increasingly apparent, including a patient with encephalitis in China in whom SARSCoV2 was identified in cerebrospinal fluid (CSF), 4 a patient with acute necrotising ence phalopathy in Japan, 5 and cases of cerebrovascular disease. 1, 6 During other pandemics of respiratory pathogens, including severe acute respiratory syndrome, Middle East respiratory syndrome, and H1N1 influenza, there were similar reports of patients with neurological compli cations, 7, 8 either during the acute phase, thought to reflect direct viral cytopathy or a parainfectious cytokine storm, or later as a postinfectious, probably cellular immune or antibodymediated phenomenon, classically manifested as GuillainBarré syndrome. 9 Additionally, occasional neuro psychiatric and psychiatric presentations have been reported in severe coronavirus infections, 10 although such presentations could reflect broader socioeconomic implications of the pandemic on mental health. These complications are relatively uncommon, but such patients are often the most severely affected, neces sitating protracted intensive care admis sion and often resulting in poor outcomes. 7 Most published reports on the neurological compli cations of COVID19 are limited to individual cases or small case series. 1, 4, 5 A few studies showed the benefits of identifying patients with neurological complications across centres. 1, 11 However, these studies have largely been limited to two or three hospitals and are restricted by both geography and specialty, therefore not assessing the neurological and neuropsychiatric complications of COVID19 across the clinical spectrum of neurology, stroke or acute medicine, psychiatry, and intensive care. Consequently, many important questions remain for neurologists and psychiatrists. How common are neurological and psychiatric complications in patients with COVID19? What proportion of neurological and psychiatric complications affect the CNS versus the peripheral nervous system, and are novel syndromes emerging? And who is most at risk? The breadth of early clinical presentations has not been represented in the literature, at least in part because Evidence before this study We searched PubMed on Jan 1, 2020, and May 11, 2020, with no language restrictions, using the search terms "COVID-19 or SARS-CoV2" with "neurological or psychiatric" and identified 133 publications and 371 publications, respectively. A focus on publications that reported data for the onset of new neurological or psychiatric diagnoses in hospitalised patients with confirmed or probable COVID-19 identified a more restricted subset of baseline data. From a neurological perspective, these publications included case reports or series (with less than ten patients) of stroke (six publications), encephalitis (five publications), seizures (one publication), cranial neuropathies (two publications), and posterior reversible encephalopathy syndrome (one publication). A larger series of 214 patients from Wuhan reported neurological symptoms in 78 patients. However, many of these symptoms were vague-for example, dizziness or headache-although a subset of 13 patients had a cerebrovascular diagnosis. A study from France reported patients with COVID-19-related acute respiratory distress syndrome, of whom eight had neurological manifestations, including two with strokes. We identified many publications that addressed the mental health effects of COVID-19 on the general population, health-care workers, and those with pre-existing psychiatric diagnoses. However, cases of new-onset psychiatric diagnoses in hospitalised patients with confirmed or probable COVID-19 were limited to a few case reports. In the large Wuhan study, acute psychiatric diagnoses were not described. In the French study, although a dysexecutive syndrome was reported in 14 patients and 26 were described as confused, little information was available with regard to what the psychiatric diagnoses were, and this cohort represented only the severe end of the respiratory spectrum. By working across the clinical neuroscience communities of neurology, psychiatry, stroke, and neurointensive care, we identified acute presentations of new-onset complications of COVID-19, reflecting the spectrum of the burden of disease. Ischaemic stroke was common in our cohort of 153 patients (most of whom were confirmed to have COVID-19). We identified a large group of patients with altered mental status, reflecting both neurological and psychiatric diagnoses, such as encephalitis and psychosis. Altered mental status was identified across all age groups, and many younger patients had this presentation. Our work highlights the importance of interdisciplinary work in the clinical neurosciences field in the COVID-19 era. Clinicians should be alert to the possibility of patients with COVID-19 developing these complications and, conversely, of the possibility of COVID-19 in patients presenting with acute neurological and psychiatric syndromes. These findings should direct future research to establish the role of viral neurotropism, host immune responses, and genetic factors in the development of such complications so that clinical management strategies can be developed. patients could be primarily managed by physicians with various clin ical specialties, including neurologists, stroke or acute medical physicians, psychiatrists, or intensive care physicians. More comprehensive and integrated epidemi o logical characterisation is crucial to under standing the mechanisms that underlie these presen tations, without which it will be impossible to rationally select, evaluate, and use appropriate therapies. We aimed to collate data through a largescale, national, dynamic, crossspecialty collaborative structure, to both inform best practice management guidelines and to direct research priorities. During the exponential phase of the pandemic, we developed an online network of secure rapidresponse case report notification portals (CoroNerve platforms) comprising the Association of British Neurologists (ABN) Rare Diseases Ascertainment and Recruitment (RaDAR), 12 the British Association of Stroke Physicians (BASP), 13 and the Royal College of Psychiatrists (RCPsych), 14 in collabo ration with the British Paediatric Neurology Association (BPNA), 15 the Neuro Anaesthesia and Critical Care Society (who used the ABN portal), the Intensive Care Society, and key stakeholders. Reporting portals for fully anonymised details were hosted on the web platforms of these collaborating professional bodies and via a novel web portal. Members of these professional organisations were emailed weekly to remind them of the surveillance programmes and were invited to notify the central CoroNerve Group at CoroNerve.com of any cases of COVID19 associated with any of the clinical case definitions that they had seen through these portals. Because of the clinical demands of the pandemic, we identified minimum clinical datasets that could be completed in under 5 min to reflect the crucial data required to determine the confidence in the diagnosis of COVID19, demography, geography, and the nature of the clinical syndrome. Physicians were encouraged to report cases prospectively and we also permitted recent cases to be notified retrospectively when assig ned a confirmed date of admission or initial clinical assess ment, allowing identification of cases that occur red before notification portals were available. Patients were not randomly assigned. Awareness of the study and notification portals was increased through social platforms during the peak of the pandemic, including professional webinars, recorded online presentations, and social media. The ABN portal was launched on April 2, 2020, the BASP portal on April 3, 2020, and the RCPsych portal on April 21, 2020. Data lock for this report was on April 26, 2020. Given the propensity for hospitalisation with COVID19 for older demographic groups, older patients were defined as those aged 60 years or older and younger patients as those less than 60 years old. For a full list of participating hospitals and the number of cases they notified see the appendix (pp 2-3). Evidence of SARSCoV2 infection was defined as confirmed COVID19 if PCR of respiratory samples (eg, nasal or throat swab) or CSF was positive for viral RNA or if serology was positive for antiSARSCoV2 IgM or IgG. Cases were defined as probable COVID19 if a chest radiograph or chest CT was consistent with COVID19 but PCR and serology were negative or not done. Cases were defined as possible COVID19 if the disease was suspected on clinical grounds by the notifying clinician but PCR, serology, and chest imaging were negative or not done. Broad clinical syndromes associated with COVID19 were classified as a cerebrovascular event (defined as an acute ischaemic, haemorrhagic, or thrombotic vascular event involving the brain parenchyma or subarach noid space), altered mental status (defined as an acute alteration in personality, behaviour, cognition, or consciousness), 16 peri pheral neurology (defined as involving nerve roots, peripheral nerves, neuromuscular junction, or muscle), or other (with free text boxes for those not meeting these syndromic presentations). Data were collected on the specific clinical case definitions within these broad pre sentations, as follows: a cerebrovascular event (ischaemic stroke, intracerebral or subarachnoid haemorrhage, cerebral venous sinus thrombosis, or cerebral vasculitis); altered mental status (encephalopathy, encephalitisdefined as ence phalo pathy with evidence of inflammation in the CNS [CSF white cell count >5 cells per µL, protein >0·45 g/dL, or MRI consistent with inflammation], seizures [clinical or elec tro enceph alo graphic evidence], and neuropsychi atric syn dromes notified through psychi atrists or neuro psychiatrists [psychosis, neuro cognitive dementialike syndrome, personality change, catatonia, mania, anxiety or depres sion, chronic fatigue synd rome, and posttraumatic stress disorder]); and peri pheral neurology (GuillainBarré syndrome, Miller Fisher synd rome, brachial neuritis, myasthenia gravis, peripheral neuro pathy, myopathy, myositis-defined as myopathy with evidence of inflammation [eg, by MRI or biopsy of muscle with elevated creatine kinase], and critical illness neuro myopathy). When patients met more than one specific clinical case definition (eg, seizures and encephalitis), the underlying causal diagnosis was considered primary and compli cations of that diagnosis considered secon dary features (eg, encephalitis would be con sidered primary and seizures secondary). Where there were discrepancies in classification, these were resolved through discussion with senior authors (BDM, IG, and RHT). By asking reporting physicians to submit their contact details at the time of notification (including a National Health Service email address), we established confir mation of the veracity of the data and created a log for subsequent sample collection and longitudinal followup studies, through linkage with existing plat forms including corecruitment into the International Severe Acute Respiratory and Emerging Infection Consor tium (ISARIC) Clinical Characterisation Protocol, which was also recorded. 17 Data collected were compared with the geographical, demographic, and temporal presentation of overall cases of COVID19 as reported by national government public health bodies representing each of the regions of the UK (Public Health England, Health Protection Scotland, Public Health Wales, and the Public Health Agency [Northern Ireland]). The UK Health Research Authority formally confirmed this approach was compliant with regulations regarding anonymised surveillance of routine clinical practice in pandemic conditions, as initiated by the local attending clinician. There was no funding source for this study. The corresponding author had full access to all the data in the study and had final responsibility for the decision to submit for publication. In the first 3 weeks of the submission portals accepting notifications (April 2-26, 2020), the CoroNerve study platforms received notification of 153 unique cases that met the clinical case definitions by clinicians in the UK. Patients were geographically dispersed across the UK, as were overall laboratoryconfirmed cases of patients with COVID19 reported by government public health bodies during the same time period (appendix p 1). Data from the admitting medical units were available for 152 (99%) of 153 patients. 26 (17%) of 152 patients were from tertiary care hospitals, 125 (82%) were from secondary care hospitals, and one (1%) was from primary care. Overall, 75 (49%) of 153 cases were notified through the BASP portal, 53 (35%) through ABN or CoroNerve.com, and 25 (16%) through the RCPsych portal. Cases were reported retrospectively for 24 (16%) of 153 patients and the remainder were reported prospectively. The BPNA surveillance network was not available for notifications, as the portal was not live during the study period. Data on reporting physician specialty were available for 150 patients: 61 (41%) were stroke physicians, 39 (26%) were neurologists, 26 (17%) were psychiatrists or neuro psychiatrists, 23 (15%) were acute medicine or other physicians, and one (1%) was a general practitioner. Complete clinical datasets were available for 125 (82%) of 153 patients. Dates of admission or initial clinical assessment were available for 112 (90%) of 125 patients and correlated with the national case identification data of all laboratoryconfirmed patients with COVID19 reported by government public health bodies over the same time period, reflecting the exponential phase of infection ( figure 1) . Data on the sex and age of notified patients are reported in the table. Overall, the median age of 71 years (range 23-94; IQR 58-79) was similar to national data collected through UK Government public health bodies over the same time period, although for some centiles an older population could be overrepresented within the study cohort (figure 2). Data were available for sex for 117 (76%) of 153 patients as this question was not included in the original ABN RaDAR web portal, representing 28 (19%) cases, and this question was not answered in the other portals in eight (5%) cases. Therefore, data regarding sex were available for 117 (94%) of 125 patients for whom these data were requested. 114 (92%) of 125 patients with complete notification data met the criteria for confirmed SARSCoV2 infection, five (4%) met the criteria for probable SARSCoV2 infection, and five (4%) met the criteria for possible SARSCoV2 infection. 77 (62%) of 125 patients presented with the broad clinical syndrome of a cerebro vascular event, of whom 57 (74%) had an ischaemic stroke and nine (12%) an intracerebral haemorrhage. A clinical diagnosis of CNS vasculitis was reported in one (1%) patient with an unusual and otherwise unexplained infarct of the corpus callosum and imaging appearances sug gestive of vasculitis; however, the full angiographic report and pathological confirmation were not provided ( figure 3) . Beyond cerebrovascular events, 39 (31%) of 125 patients presented with altered mental status, Figure 3 : Number of broad and specific clinical case definitions notified in the dataset, including evidence for severe acute respiratory syndrome coronavirus 2 within each grouping, according to the clinical case definition *One patient with opsoclonus-myoclonus syndrome, one patient with sixth nerve palsy, and one patient with seizures. †Two patients with cerebral venous thrombosis, two patients with transient ischaemic attack, one patient with subarachnoid haemorrhage, and five unspecified. ‡1 case with missing SARS-CoV2 data. §One patient with brachial neuritis and one patient with myasthenic crisis. ¶Three patients with depression, two patients with personality change, one patient with catatonia, and one patient with mania. Age data were available for 74 (96%) of 77 patients with cerebrovascular events and 37 (95%) of 39 patients with altered mental status. 18 (49%) of 37 patients with altered mental status were younger than 60 years and 19 (51%) were older than 60 years, whereas 13 (18%) of 74 patients with cerebrovascular events were younger than 60 years versus 61 (82%) patients older than 60 years (figure 4). To our knowledge, this is the first systematic, nationwide UK surveillance study of the breadth of acute compli cations of COVID19 in the nervous system, undertaken through rapid mobilisation of UK professional bodies representing neurology, stroke or acute medicine, psychi atry, and intensive care. Cases notified by the professional membership of these bodies were obtained from across the UK, and an exponential rise in cases of neurological and psychiatric complications of COVID19 occurred during the exponential rise in overall COVID19 cases reported by UK Government public health bodies. Future studies on neurological complications of COVID19, particularly those assessing genetic and associated risk factors, would benefit from obtaining notification of all cases of infection admitted to every hospital as a denominator, or a cohort of COVID19 patients without neurological or psychiatric compli cations as a control group. However, given the time pressure on busy clinical teams during the pandemic, we focused our notification structure on patients with neurological or psychiatric complications of infection. Cases were reported from physicians who spanned various specialties, and almost all cases met the case definition of confirmed SARSCoV2 infection. Cerebrovascular events in patients with COVID19, which have been well described elsewhere, 1, 9 were also identified as a major group within our cohort. However, we identified a large proportion of cases of acute alteration in mental status, comprising neuro logical syndromic diagnoses such as ence phalo pathy and encephalitis and primary psychiatric synd romic diagnoses, such as psychosis. Although cerebro vascular events and altered mental status were identified across all age groups, our cohort confirms that cerebrovascular events pre dominate in older patients; however, these early data identify that acute alterations in mental status were disproportionately overrepresented in younger patients in our cohort. Our rates of neurological and psychiatric complications of COVID19 cannot be extrapolated to mildly affected patients or patients with asymptomatic infection, espe cially those in the com munity, but give a broad national perspective on complications severe enough to require hospitalisation. Our approach to case ascertainment has the potential for reporting bias and requires validation through detailed prospective clinicoepidemiological data collec tion. Plans for such studies should be developed in advance of future pandemics, so that they can be mobilised early during disease spread. A more engaged professional membership or those more used to sub mitting data to surveillance studies through this approach could potentially be over represented in our results. However, this study was the first major national investigation to use a data surveillance approach for clinicians, who notified a large proportion of our cohort (ie, BASP and RCPsych). Additionally, the present study included a priori consider ations to deter mine the strength of the evidence for SARSCoV2 infection, and data collection was informed by clear clinical case definitions. Moreover, in this cohort, we conclude that this study is unlikely to have had systematic over ascertainment bias for psychiatric or neuropsychiatric presentations. 41% of cases were reported by stroke physicians, and the RCPsych web portal was launched 18 days later than the other neurological, stroke, and intensive care unit or more general portals, yet we observed a large number of psychiatric or neuro psychiatric notifications. Indeed, as many patients with COVID19 are managed in intensive care units with sedative and paralytic medications, which can both mask and contribute to iatrogenic complications, our cohort might under represent the rate of neurological or psychiatric symptoms. 18 Since we specifically identified moderate to severe complications of COVID19 as they were reported for inpatient cases by neurologists and psy chiatrists, our cohort might underrepresent patients with milder outpatient symptoms, such as reduced taste or smell. Future hypothesis testing studies building on our findings to infer causal relationships between infection and neurological or neuropsychiatric presen tations should adhere to basic principles, such as the criteria for causation outlined by Bradford Hill as they pertain to pandemic respiratory infection and effects on the brain. 19 Many cerebrovascular events were identified in our study, as reported in previous cohorts and case reports of acute COVID19 complications. 1, 20, 21 The pathophysio logical mechanisms that underlie cerebrovascular events in COVID19 require further study, but there is a potential biological rationale for a vasculopathy, with a report of SARSCoV2 endothelitis in organs outside the cerebral vasculature 22 and cerebrovascular events, 23 in addition to coagulopathy, along with conventional stroke risk during sepsis. 9, 24, 25 Comprehensive studies with clear control groups, including patients hospi talised with COVID19 but without cerebrovascular events and patients with cerebrovascular events but who do not have COVID19, are required to address this issue. Confirmation of the link between COVID19 and new acute psychiatric or neuropsychiatric complications in younger patients will require detailed prospective longi tudinal studies. Understanding this association will require systematic participant evaluation, characterisation of immune host responses, exploration of genetic asso ciations, and comparison with appropriate controls (including patients hospitalised with COVID19 who do not have acute neuropsychiatric features). Altered mental status is common in patients admitted to hospital with severe infection, especially in those requiring intensive care management. However, this symptom typically predominates in older groups, and might reflect an unmasking of latent neurocognitive degenerative disease or multiple medical comorbidities, often in association with sepsis, hypoxia, and the requirement for polypharmacy and sedative medications. In this study, we observed a dis proportionate number of neuropsychiatric presentations in younger patients and a predominance of cerebrovascular complications in older patients, which might reflect the state of health of the cerebral vasculature and associated risk factors, exacerbated by critical illness in older patients. 25 The large number of patients with altered mental status might reflect increased access to neuropsychiatry or psychiatry review for younger patients, and increased attribution of altered mental status to delirium in older patients. Nevertheless, the increased recognition of acute altered mental status in patients hospitalised with COVID19 warrants study. The exclusion of iatrogenic factors, such as sedatives and antipsychotics, should be quantified in future modelling studies. In our study, although most psychiatric diagnoses were determined as new by the notifying psychiatrist or neuropsychiatrist, we cannot exclude the possibility that these were undia gnosed before the patient developed COVID19. Our study population represents a snapshot of hospi talised patients with acute neurological or psychiatric complications associated with COVID19. Larger, ideally prospective, studies should identify the broader cohort of COVID19 patients both in and outside hospitals, with capture-recapture analysis and health record linkage to determine clearer estimates of the prevalence of these complications and individuals at risk. Additionally, community studies are required to identify those at risk of both COVID19 and neurological or psychiatric complications, although this strategy will require widespread serological testing. The importance of data sharing is increasingly recog nised as fundamental to facilitate rapidly responsive clinical research and is particularly crucial during an international emergency, such as the SARSCoV2 pandemic. The CoroNerve Study Group has been made possible by open collaboration between several UK institutions. We anticipate added value of sharing data more widely, across European and global partners, particularly in lowincome and middleincome countries. The Brain Infections Global COVIDNeuro Network is supporting data collection in such countries through freely available case record forms. 26 Wide collaboration is likely to be even more important for characterising rarer or novel COVID19associated neurological syndromes. These enriched populations that reflect less common, but nevertheless severe, disease must be studied in close collaboration with larger surveillance efforts, such as the ISARIC Clinical Characterisation Protocol, to identify at risk groups, determine the strength of relative risk factors, and have adequate controls for mechanistic studies. Our nationwide, clinicianreported cohort approach provides valuable and timely information that is urgently needed by clinicians, researchers, and funders to inform the immediate next steps in COVID19 neuroscience related research and health policy planning. These national data begin to characterise the spectrum of neurological and neuropsychiatric complications that need to be addressed. This multidisciplinary, coordinated approach should be emulated in detailed national mechanistic studies of COVID19 and the brain, to distinguish the role of the virus and the host inflammatory response versus the broader socioeconomic effects of the pandemic. 27 Contributors AV and BDM drafted the initial manuscript and the document was edited and approved by all coauthors. AV is a Medical Research Council (MRC) PhD fellow. MAE is an Association of British Neurologists PhD fellow. MZ reports personal fees from UCB Pharma outside the submitted work. JPC received funding from the National Institute for Health Research (NIHR) Cambridge BioMedical Research Centre during the conduct of the study. LAB reports funding from GlaxoSmithKline and Research England, outside the submitted work. AC reports personal fees from independent testimony in court on a range of neuropsychiatric topics and as a paid editor of the Journal of Neurology, Neurosurgery and Psychiatry, outside the submitted work. Additionally, AC is planning a rehabilitation trial after COVID19, which could produce an application that might be associated with intellectual property. CS has received funding from the MRC, NIHR, The Leducq Foundation, and The Stroke Association. MRT reports grants from Motor Neurone Disease Association and My Name'5 Doddie Foundation, and personal fees from Oxford University Press, Oneworld, Karger Publishing, Orphazyme, BMJ Publishing, and GLG Consulting, outside the submitted work. TS reports consultancy for GlaxoSmithKline Ebola Vaccine programme, Siemens Diagnostics Clinical Advisory Board, Siemens Healthineers Clinical Advisory Board, and the Data Safety Monitoring Committee of the GlaxoSmithKline Study to Evaluate the Safety and Immunogenicity of a Candidate Ebola Vaccine in Children GSK3390107A (ChAd3 EBOZ) vaccine, during the conduct of the study. Additionally, TS has a patent filed for a blood test for bacterial meningitis (GB 1606537.7; April 14, 2016). TS is supported by the European Union's Horizon 2020 research and innovation program ZikaPLAN (Preparedness Latin America Network; 734584). SLP has received funding from the MRC. IG has received funding from the NIHR. RHT reports personal fees from Eisai, GW Pharma, Sanofi, UCB Pharma, Zogenix, Bial, and Arvelle, outside the submitted work. RHT has received funding from the Academy of Medical Sciences (AMS) and Wellcome. BDM has received funding from the MRC, AMS, Wellcome, and the NIHR. BDM and TS are supported by the NIHR Health Protection Research Unit in Emerging and Zoonotic Infections (ISHPU111210117) and the NIHR Global Health Research Group on Brain Infections (17/63/110). All other authors declare no competing interests. The authors are committed to open science. The broader data from these studies will be made available at the end of the studies wherever possible, within the terms of participant consent and when not otherwise restricted by intellectual property rights or ongoing collaborative research. To avoid the possibility of identifying individual cases, detailed data are not given in the paper or appendix but are available on appropriate request to the corresponding author. 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