An eye to the future: Acute and long-term neuro-ophthalmological and neurological complications of COVID-19.

COVID-19 has had a significant impact on the global population and has produced compelling evidence of non-pulmonary organ dysfunction, including the nervous system. It is vital that specialists in ophthalmology and neurology are informed of the potential complications of COVID-19 and gain a deeper understanding of how COVID-19 can cause diseases of the nervous system. In this review we detail four possible mechanisms by which COVID-19 infection may result in neurological or neuro-ophthalmological complications: (1) Toxic and metabolic effects of severe pulmonary COVID-19 disease on the neural axis including hypoxia and the systemic hyper-inflammatory state, (2) endothelial dysfunction, (3) dysimmune responses directed again the neuroaxis, and (4) direct neuro-invasion and injury by the virus itself. We explore the pathological evidence for each of these and how they may link to neuro-ophthalmological disorders. Finally, we explore the evidence for long-term neurological and neuro-ophthalmological complications of COVID-19, with a focus on neurodegeneration.

Neurological implications of COVID-19: a review of the science and clinical guidance.

COVID-19 is a significant global health burden. The pulmonary morbidity and mortality of COVID-19 is well described, however, there is mounting evidence of neurological manifestations of SARS-CoV-2, which may be of prognostic significance. This paper summarises the available evidence in order to provide clinicians with a concise summary of the peripheral and central neurological manifestations of COVID-19, discusses specific issues regarding the management of chronic neurological disease in the context of the pandemic, and provides a summary of the thrombotic implications of the disease for the neurologist.

Fast and safe: Optimising multiple sclerosis infusions during COVID-19 pandemic.

BACKGROUND: The COVID-19 pandemic challenges multiple sclerosis services to be innovative in delivering infusible therapies. To reduce time in clinical settings, and potential staff or space losses, we implemented rapid infusion protocols for selected patients. OBJECTIVE: To analyse the rate of infusion related reactions and patient experience of rapid infusions of natalizumab and ocrelizumab. To document time reduction patients spent in clinical settings during the COVID-19 pandemic. METHODS: Patients with prior exposure to at least three natalizumab or two 300mg ocrelizumab infusions were approved for rapid protocols. A retrospective audit and survey were completed. RESULTS: We analysed 269 rapid natalizumab infusions and 100 rapid ocrelizumab infusions. Infusion related reactions during the natalizumab or ocrelizumab infusions occurred in two patients (1.52%) and eight patients (8%), respectively. All infusion related reactions were mild to moderate and did not require infusion discontinuation. No infusion reactions occurred during the post-infusion observation. Patient experience was positive. CONCLUSION: Frequency or severity of infusion related reactions in rapid infusions were no different compared to published data. In the setting of COVID-19, pandemic rapid infusion protocols could potentially save hospital resources and limit patient exposure to a high-risk clinical setting while still maintaining ongoing treatment of multiple sclerosis.

Neurological, neuropsychiatric and neurodevelopmental complications of COVID-19.

Although COVID-19 is predominantly a respiratory disease, it is known to affect multiple organ systems. In this article, we highlight the impact of SARS-CoV-2 (the coronavirus causing COVID-19) on the central nervous system as there is an urgent need to understand the longitudinal impacts of COVID-19 on brain function, behaviour and cognition. Furthermore, we address the possibility of intergenerational impacts of COVID-19 on the brain, potentially via both maternal and paternal routes. Evidence from preclinical models of earlier coronaviruses has shown direct viral infiltration across the blood-brain barrier and indirect secondary effects due to other organ pathology and inflammation. In the most severely ill patients with pneumonia requiring intensive care, there appears to be additional severe inflammatory response and associated thrombophilia with widespread organ damage, including the brain. Maternal viral (and other) infections during pregnancy can affect the offspring, with greater incidence of neurodevelopmental disorders, such as autism, schizophrenia and epilepsy. Available reports suggest possible vertical transmission of SARS-CoV-2, although longitudinal cohort studies of such offspring are needed. The impact of paternal infection on the offspring and intergenerational effects should also be considered. Research targeted at mechanistic insights into all aspects of pathogenesis, including neurological, neuropsychiatric and haematological systems alongside pulmonary pathology, will be critical in informing future therapeutic approaches. With these future challenges in mind, we highlight the importance of national and international collaborative efforts to gather the required clinical and preclinical data to effectively address the possible long-term sequelae of this global pandemic, particularly with respect to the brain and mental health.

MSCOVID19: Using social media to achieve rapid dissemination of health information.

BACKGROUND AND OBJECTIVE: The global COVID-19 pandemic creates an obvious acute health care resourcing and response problem. The different timing of pandemic peak in geographically distinct locations creates a short window of response opportunity. Rapid dissemination of medical information from early affected areas to later ones is therefore crucial to optimise planning. Formulating the best system response for at-risk patient populations is especially complex. People with multiple sclerosis (pwMS) are exposed to long-term immunosuppressive disease modifying treatments (DMTs) and, in theory, could be at increased risk of contracting the virus and developing complications. Social media, such as Twitter, can provide a global platform to rapidly share information and individual experiences. METHODS AND RESULTS: This report summarizes the case experience of pwMS with COVID-19 infection in the first month of the pandemic as reported on Twitter using the #MSCOVID19 hashtag. 26 individual cases of COVID-19 in pwMS were reported from Europe and the United States of America. The cases involved a combination of relapsing and progressive MS phenotypes treated with a range of DMT (5 anti CD20 therapy, 4 cladribine, 4 fingolimod, 4 injectables, 3 alemtuzumab, 2 dimethyl fumarate, 2 untreated, 1 teriflunomide, 1 natalizumab). The cases shared present the earliest reported data on outcomes of COVID-19 infection in pwMS. Whilst limited, the cautiously reassuring nature of these early cases assisted in clinical management by allowing neurologists to continuously reassess their approach to DMT management.