Hyperkinetic movement disorders following SARS-CoV-2 infection and vaccination - an update.

The aim of this review was to summarise current knowledge regarding hyperkinetic movement disorders related to SARS-CoV-2 infection and vaccination in terms of phenomenology, epidemiology, pathogenesis and treatment. After a thorough review of the PubMed and Google Scholar databases (2020-2022), we identified myoclonus and ataxia sometimes accompanied by opsoclonus (AMS) as the two most frequent COVID-19 sequelae, with chorea, tremor and dystonia being very rare. The pathogenesis seems to be variable, but in the majority of AMS cases it was autoimmunological, with good response and recovery after corticosteroids or intravenous immunoglobulins infusions. Vaccination may be complicated by hyperkinetic movement disorders (e.g. tremor, dystonia), but this is very rare. Patients with Deep Brain Simulation depletion should not be postponed due to lockdowns as this may result in fatal outcomes.

The COVID-19 pandemic impact on continuity of care provision on rare brain diseases and on Ataxia, Dystonia and PKU. A scoping review protocol (preprint)

One of the most relevant challenges for healthcare providers during the COVID-19 pandemic has been assuring the continuity of care to patients with complex health needs such as people living with rare diseases (RDs). The COVID-19 pandemic accelerated the healthcare sector's digital transformation agenda. The delivery of telemedicine services instead of many face-to-face procedures has been expanded and, many healthcare services not directly related to COVID-19 treatments shifted online remotely. Many hospitals, specialist centres, patients and families started to use telemedicine because they were forced to. This trend could directly represent a good practice on how care services could be organized and continuity of care could be ensured for patients. If done properly, it could boast improved patient outcomes and become a post COVID-19 major shift in the care paradigm. There is a fragmented stakeholders spectrum, as many questions arise on: how is e-health interacting with 'traditional' healthcare providers; about the role of the European Reference Networks (ERNs); if can remote care retain a human touch and stay patient centric. Here, we outline a protocol for a scoping review that investigates this topic, focusing on continuity of care and novel methods (e.g., digital approaches) used to reduce the care disruption. This scoping review protocol was designed according to the Preferred Reporting Items for Systematic Reviews and Meta-Analyses extension for scoping reviews (PRISMA-ScR) standards and will culminate in a narrative synthesis of evidence.

Alterations in Cortisol and Interleukin-6 Secretion in Patients With COVID-19 Suggestive of Neuroendocrine-Immune Adaptations (preprint)

Purpose: The beneficial effect of glucocorticoids in coronavirus disease (COVID-19) is established, but whether adrenal cortisol secretion is impaired in COVID-19 is not fully elucidated. In this case-control study we investigated the diurnal free bioavailable salivary cortisol secretion in COVID-19 patients. Methods: : Fifty-two consecutive COVID-19 patients -before dexamethasone treatment- recruited between April 15 th -June15 th -2021, (NCT04988269) at Laikon Athens University-Hospital, and 33 healthy age- and sex-matched controls were included. Diurnal salivary cortisol (8am, 12, 6, and 10pm), plasma adrenocorticotropin (ACTH) and aldosterone, and serum interleukin-6 (IL-6) and C-reactive protein (CRP) levels were assessed. Diurnal salivary dehydroepiandrosterone (DHEA) and IL-6 were also assessed in subgroups of patients. Results: Median CRP and IL-6 measurements were about 6-fold higher in patients than controls (both p<0.001) Morning salivary cortisol levels did not differ between the two groups, but patients exhibited higher median levels of evening and nocturnal salivary cortisol compared to controls [0.391(0.054, 0,663) vs. 0.081(0.054, 0.243)μg/dl, p<0.001 and 0.183(0.090, 0.834) vs. 0.054(0.054, 0.332)μg/dl, p<0.001, respectively], resulting in higher time-integrated area under the curve (AUC) (4.81±2.46 vs. 2.75±0.810, respectively, p<0.001 ). Circulating ACTH, DHEA, and aldosterone levels were similar in patients and controls. Serum IL-6, but not ACTH levels, WAS strongly correlated with nocturnal cortisol salivary levels (rho=0.555, p<0.001 ) in patients. Conclusion: Increased evening and nocturnal but not morning cortisol secretion occur in even clinically mild COVID-19. In the context of acute viral infection (Covid-19), IL-6 may partially replace ACTH as a stimulus of the glucocorticoid-secreting adrenal zona-fasciculata without influencing the secretion of DHEA and aldosterone.

COVID-19-related delays of botulinum toxin injections have a negative impact on the quality of life of patients with dystonia and spasticity: a single-center ambulatory care study.

BACKGROUND: Botulinum toxin A (BoNT-A) is considered a safe and effective treatment for spasticity and dystonia. Individual interinjection intervals are critical for the maintenance of the effect. In Austria, BoNT outpatient clinics were shutdown from November to December 2020 during COVID-19 control measures, leading to rescheduling of BoNT-A injections. This survey aimed at investigating the influence of injection delays on symptoms, physical functioning, and quality of life (QoL) of the affected patients. METHODS: Between April and July 2021, 32 outpatients (21 females, mean age: 63.4 ± 12.1 years) treated ≥ 12 months at the BoNT outpatient clinic Horn-Allentsteig (Austria) and experienced ≥ 2 week injection delays, completed a structured face-to-face questionnaire. RESULTS: Indications were dystonia (34%), spasticity (63%), and hyperhidrosis (3%). Injections were delayed by 10 weeks (median, range: 2-15). Muscle cramps increased in 95% of patients with spasticity, muscle twitches in 91% of those with dystonia, and pain in 9% and 60% for dystonia and spasticity, respectively. Overall, 75% reported functional worsening, and deterioration in QoL by 62.6% ± 16.8 (mean ± SD). The impact on QoL correlated with the subjective global improvement induced by BoNT-A (Rs: 0.625; p < 0.001). For 75%, long-term assurance of BoNT-A therapy was very important, and 81% felt their patient rights not respected. CONCLUSIONS: COVID-19-related delays in BoNT-A injections illustrate the importance of this therapy for symptom relief, functional outcome, and QoL in patients suffering from involuntary muscle hyperactivity. BoNT-A therapy is essential and has to be guaranteed even in circumstances such as the COVID-19 pandemic.

Battery for deep brain stimulation depletion in Parkinson's Disease and dystonia patients - a systematic review.

INTRODUCTION: Deep brain stimulation (DBS) therapy for Parkinson's Disease (PD) and dystonia is associated with the possibility of both minor and major complications. One possible side effect is the depletion of implantable pulse generator (IPG) battery and the associated sudden recurrence of PD or dystonia symptoms, which can be potentially life-threatening. Delayed or postponed outpatient visits due to COVID -19 may be a risk factor of battery end-of-life consequences. OBJECTIVE: To analyse the clinical outcomes in reported PD and dystonia patients treated with DBS, who, as a result of the sudden depletion of the neurostimulator battery, developed life-threatening symptoms. MATERIALS AND METHODS: The databases of PubMed, Scopus, EMBASE and Google Scholar were searched using pre-established criteria. RESULTS: A total of 244 articles was found, of which 12 met the adopted criteria. Selected papers presented a total of 17 case reports of DBS-treated patients - 11 with PD, and six with dystonia - who had depleted IPG batteries and due to rapid worsening of PD/dystonia symptoms required urgent hospital admission. IPG battery replacement was the only effective treatment in the majority of cases. CONCLUSIONS: IPG battery depletion can result in fatal outcomes. Sudden recurrence of PD or dystonia symptoms in patients treated by DBS can be potentially life-threatening, so scheduling the replacement of a discharged IPG battery should not be postponed. The COVID-19 pandemic should alert staff at emergency, neurology and movement disorders wards not to postpone the visits of patients with an implanted DBS system.

High frequency of cerebrospinal fluid autoantibodies in COVID-19 patients with neurological symptoms (preprint)

COVID-19 intensive care patients occasionally develop neurological symptoms. The absence of SARS-CoV-2 in most cerebrospinal fluid (CSF) samples suggests the involvement of further mechanisms including autoimmunity. We therefore determined whether anti-neuronal or anti-glial autoantibodies are present in eleven consecutive severely ill COVID-19 patients presenting with unexplained neurological symptoms. These included myoclonus, cranial nerve involvement, oculomotor disturbance, delirium, dystonia and epileptic seizures. Most patients showed signs of CSF inflammation and increased levels of neurofilament light chain. All patients had anti-neuronal autoantibodies in serum or CSF when assessing a large panel of autoantibodies against intracellular and surface antigens relevant for central nervous system diseases using cell-based assays and indirect immunofluorescence on murine brain sections. Antigens included proteins well-established in clinical routine, such as Yo or NMDA receptor, but also a variety of specific undetermined epitopes on brain sections. These included vessel endothelium, astrocytic proteins and neuropil of basal ganglia, hippocampus or olfactory bulb. The high frequency of autoantibodies targeting the brain in the absence of other explanations suggests a causal relationship to clinical symptoms, in particular to hyperexcitability (myoclonus, seizures). While several underlying autoantigens still await identification in future studies, presence of autoantibodies may explain some aspects of multi-organ disease in COVID-19 and can guide immunotherapy in selected cases.