key: cord-0743701-lqro7t7a authors: Tan, Eng-King; Albanese, Alberto; Chaudhuri, K. Ray; Opal, Puneet; Wu, Vincent Yun-Cheng; Chan, Christine Hui-Shan; Jeon, Beomseok; Truong, Daniel; Poewe, Werner; Tan, Louis; Pal, Pramod; Colosimo, Carlo; Lim, Shen-Yang; Jinnah, H.A.; Cardoso, Francisco title: Neurological research & training after the easing of lockdown in countries impacted by COVID-19 date: 2020-08-24 journal: J Neurol Sci DOI: 10.1016/j.jns.2020.117105 sha: f4f1c78e582027736bf99b6b22e2c415bef66147 doc_id: 743701 cord_uid: lqro7t7a nan With the easing of lockdown restrictions following declining rates of COVID-19 infections, the biggest challenge for neurologists and neuroscientists in the most severely affected countries is likely to be the protracted transition to a new normal. While the neurological impact of COVID-19 is now well recognized, especially among healthcare workers and vulnerable groups [1, 2] the challenges of restarting clinical and laboratory research, and allowing clinical study coordinators and laboratory staff back on-site are enormous and deserve greater attention ( Table 1 ). The first practical consideration is the need to maintain social distancing between staff members to deter and curb the spread of COVID-19. Most institutions will have to operate with reduced staff numbers who will function under staggered work schedules. As the roadmap to ease restrictive measures may also vary between different institutions and between collaborating countries involved in any given project, the slow and stepwise nature of return to normalcy will inevitably impede the work of the scientific community as a whole. The opening of non-COVID-19 related clinical trials brings forth its own challenges. In many countries such as the United Kingdom, Italy, USA, China, and Singapore, non-COVID-19 trials were suspended during the acute phase of COVID-19 lockdown and are being restarted in various nation-specific "recovery" programmes. However, staff capacity remains an issue specifically where investigators have been deployed to COVID-19 studies while older and more vulnerable researchers are assigned to non-clinical support facilities. Delays in starting new trials therefore is inevitable given that such trials will be only prioritized after the large number of "suspended" studies are re-opened with newly implemented safety protocols. For acute interventional trials such as in stroke patients, there may be a need to modify protocols to facilitate prompt clinical assessment while continuing all existing precautionary measures that mitigate COVID-19 risk for both patients and staff. Research workflow should incorporate important considerations raised by relevant scientific bodies on the optimal measures for stroke and dementia care or treatment modalities for various neurological conditions during COVID-19, with an emphasis on maintaining smooth care delivery while taking into account safety, ethical and logistic issues [3] [4] [5] . Unless community spread of COVID-19 is totally eradicated, patients with mild to moderate COVID-19 infection burden can present initially with symptoms ranging from common neurological signs to rarer neurological syndromes such as hyposmia and ageusia [6] . Furthermore, common neurological conditions for clinical trials may themselves represent risk factors for mortality in COVID-19-affected patients [7] and long-term neurological consequences caused by COVID-19 are still unknown. It is likely that such symptoms may add to those of chronic or degenerative neurological conditions, contributing to enrich or complicate the picture. Specific examples include the observation that dementia subjects infected with COVID-19 may present atypically [7] and that recent onset hyposmia, anxiety or fatigue which are well recognized symptoms of Parkinson's disease may masquerade as COVID-19 infection [8] . Hence the recruitment of prospective subjects for research in any field in the post-COVID-19 world will need a higher level of vigilance and a heightened index of suspicion. COVID-19-induced restrictions have led to a rapid emergence of telemedicine in clinical consultations. In patients who are not mentally competent to give consent, remote consent taken from an authorized representative may be a necessary alternative. This is especially critical in endovascular stroke trials where time is of the essence and subjects are often not able to give written consent in the nick of time. Another option would be to geographically limit the studies to certain locales or settings, thereby minimizing movement to and from acute hospitals. This has been demonstrated for certain dementia studies that are being conducted primarily in nursing homes or other community housing facilities with medical care where investigators focus manpower and expertise on a specific location to reduce the number of study visits of subjects to hospitals [5] . However, examination of patients for delivery of scale-based assessments may be difficult without face-to-face attendance and therefore, in many setups, additional ethical and clinical validation of scales delivered virtually will need to be obtained. For training, PhD students who lost precious experimental data during the lockdown may face significant impediments in progressing toward earning their degrees. Even earlier in the J o u r n a l P r e -p r o o f pipeline, students who have been accepted into graduate schools are having to postpone entry into their programs. Uncertainty about research scholarships and career choices looms large. In some universities, courses are being rebranded for online delivery but acceptance among students needs to be determined. Budding clinical-investigators in MD-PhD students share the same concerns where delayed and out-of-phase clinical residency trainings could pose a major problem in their career advancement. In addition, loss of revenue for universities in some countries and shrinking economic forecasts will affect students and teachers alike. Global mobility restrictions bear an understated yet significant impact on cross-country fellowship training, delaying the entry and return of existing fellows. Earlycareer scientists including postdoctoral or pre-tenure positions, will all need to face the insecurities associated with the application of grants, fellowships and jobs post-COVID-19 [9] . Neurology residents and clinical fellows have faced a substantial decrease of contact with patients resulting in a negative impact on their training. It may be necessary to postpone or delay residency-related research activities and possibly even waive certain academic requirements. On a positive note, many participants who registered for free (among 42000 attendees) at the recent European Academy of Neurology meeting in May 2020 were residents, fellows and students [10] , suggesting that free access to international academic teaching and research meetings for trainees is likely to be a norm in the near future. Until a vaccine for COVID-19 becomes available, researchers will have to recognize the challenges, and explore possible solutions (Table 1) . However, details in efforts to address the obstacles will be highly dependent on the prevalence of infections and other local and geopolitical factors and constraints and the economic stimulatory measures in the respective countries. What is certain though is that neurological research and training will never be the same in the post-COVID era and hopefully the evolving changes will augment the ability of the medical community to better handle the next pandemic. J o u r n a l P r e -p r o o f • Governments to strengthen their commitment to fund biomedical research ecosystems especially non-COVID-19 neurological programmes • Governments to ease financial barriers (such as lifting restrictions of regional insurance coverage by the state/city or allowing global coverage) • Joint international research funding initiatives Prevalence of depression, anxiety, and insomnia among healthcare workers during the COVID-19 pandemic: A systematic review and meta-analysis COVID-19 pandemic and mental health consequences: Systematic review of the current evidence Guidelines for TMS/tES clinical services and research through the COVID-19 pandemic Preserving stroke care during the COVID-19 pandemic: Potential issues and solutions Dementia care during COVID-19 Central nervous system manifestations of COVID-19: A systematic review Clinical Presentation of COVID19 in Dementia Patients. The journal of nutrition Outcome of Parkinson's Disease Patients Affected by COVID-19. Movement disorders : official journal of the Movement Early-career scientists at critical career junctures brace for impact of COVID-19 6th Congress of the European Academy of Neurology