Internal tremors and vibrations in long COVID: a cross-sectional study.

BACKGROUND: Internal tremors and vibrations are symptoms previously described as part of neurologic disorders but not fully described as a part of long COVID. This study compared pre-pandemic comorbidities, new-onset conditions, and long COVID symptoms between people with internal tremors and vibrations as part of their long COVID symptoms and people with long COVID but without these symptoms. METHODS: The Yale Listen to Immune, Symptom and Treatment Experiences Now (LISTEN) Study surveyed 423 adults who had long COVID between May 12, 2022 and June 1, 2023. The exposure variable was long COVID symptoms of internal tremors and vibrations. The outcome variables were demographic characteristics, pre-pandemic comorbidities, new-onset conditions, other symptoms, and quality of life. RESULTS: Among study participants with long COVID, median age was 46 years [IQR, 38-56]), 74% were female, 87% were Non-Hispanic White, and 158 (37%) reported "internal tremors, or buzzing/vibration" as a long COVID symptom. The 2 groups reported similar pre-pandemic comorbidities, but people with internal tremors reported worse health as measured by the Euro-QoL visual analogue scale (median: 40 points [IQR, 30-60] vs. 50 points [IQR, 35-62], P = 0.007) and had higher rates of new-onset mast cell disorders (11% [95% CI, 7.1-18] vs. 2.6% [1.2-5.6], P = 0.008) and neurologic conditions (22% [95% CI, 16-29] vs. 8.3% [5.4-12], P = 0.004). CONCLUSIONS: Among people with long COVID, those with internal tremors and vibrations had different conditions and symptoms and worse health status compared with others who had long COVID without these symptoms.

Virology, ecology, epidemiology, pathology, and treatment of eastern equine encephalitis.

Eastern equine encephalitis (EEE) was one of the first-recognized neuroinvasive arboviral diseases in North America, and it remains the most lethal. Although EEE is known to have periodic spikes in infection rates, there is increasing evidence that it may be undergoing a change in its prevalence and its public health burden. Numerous factors shape the scope of EEE in humans, and there are important similarities with other emergent viral diseases that have surfaced or strengthened in recent years. Because environmental and ecological conditions that broadly influence the epidemiology of arboviral diseases also are changing, and the frequency, severity, and scope of outbreaks are expected to worsen, an expanded understanding of EEE will have untold importance in coming years. Here we review the factors shaping EEE transmission cycles and the conditions leading to outbreaks in humans from an updated, multidomain perspective. We also provide special consideration of factors shaping the virology, host-vector-environment relationships, and mechanisms of pathology and treatment as a reference for broadening audiences.

Plasmapheresis Versus Intravenous Immunoglobulin in Patients With Autoimmune Neuromuscular and Neuro-immunological Conditions.

OBJECTIVES: Plasmapheresis (PLEX) and intravenous immunoglobulin (IVIg) are commonly used to treat autoimmune neuromuscular disorders, including myasthenia gravis, acute inflammatory demyelinating polyradiculoneuropathy, chronic inflammatory demyelinating polyradiculoneuropathy, and other autoimmune neurological disorders. The side effect profiles of these therapies vary, and concern has been raised regarding the safety of PLEX in the elderly population. In this study, we have examined the pattern of PLEX and IVIg use for autoimmune neurological disorders at a single facility and in a national database, focusing on the complications in elderly patients. METHODS: We performed a retrospective chart review of adult patients at our institution receiving PLEX or IVIg for any autoimmune neuromuscular or neuro-immunological disease. Next, we analyzed the National Inpatient Sample database to confirm the trend in IVIg and PLEX use from 2012 to 2018 for a set of neuromuscular and neuro-immunological primary diagnoses. RESULTS: IVIg was overall favored over PLEX. The adverse effects were similar among elderly patients (age ≥65 years) compared with younger patients (<65 years) in our institution, even after adequate matching of patients based on age, sex, and medical history. We examined the National Inpatient Sample dataset and noted increasingly higher frequency of IVIg use, consistent with the findings from our institution or facility. CONCLUSIONS: Both PLEX and IVIg are safe therapeutic choices in adult patients with autoimmune neuromuscular disorders and other neuro-immunological diseases and can be safely administered in the appropriate clinical setting.

Neurological sequelae of vaccines.

IMPORTANCE: Vaccines are a safe and efficacious way to prevent a variety of infectious diseases. Over the course of their existence, vaccines have prevented immeasurable morbidity and mortality in humans. Typical symptoms of systemic immune activation are common after vaccines and may include local soreness, myalgias, nausea, and malaise. In the vast majority of cases, the severity of the infectious disease outweighs the risk of mild adverse reactions to vaccines. Rarely, vaccines may be associated with neurological sequela that ranges in severity from headache to transverse myelitis, acute disseminated encephalomyelitis, and Guillain-Barre syndrome (GBS). Often, a causal link cannot be confirmed, and it remains unclear if disease onset is directly related to a recent vaccination. OBSERVATIONS: This review serves to summarize reported neurologic sequelae of commonly used vaccines. It will also serve to discuss potential pathogenesis. It is important to note that many adverse events or reactions to vaccines are self-reported into databases, and causal proof cannot be obtained. CONCLUSIONS AND RELEVANCE: Recognition of reported adverse effects of vaccines plays an important role in public health and education. Early identification of these symptoms can allow for rapid diagnosis and potential treatment. Vaccines are a safe option for prevention of infectious diseases.

Ischemic Stroke, Inflammation, and Endotheliopathy in COVID-19 Patients.

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RETRACTED: Remission of Subacute Psychosis in a COVID-19 Patient With an Antineuronal Autoantibody After Treatment With Intravenous Immunoglobulin.

Retraction notice to: "Remission of Subacute Psychosis in a COVID-19 Patient With an Antineuronal Autoantibody After Treatment With Intravenous Immunoglobulin" by Lindsay S. McAlpine, Brooke Lifland, Joseph R. Check, Gustavo A. Angarita, Thomas T. Ngo, Samuel J. Pleasure, Michael R. Wilson, Serena S. Spudich, Shelli F. Farhadian, and Christopher M. Bartley (Biol Psychiatry 2021; 90:e23-e26); https://doi.org/10.1016/j.biopsych.2021.03.033. This article has been retracted at the request of corresponding author Christopher Bartley, with agreement from all authors and with approval from Biological Psychiatry Editor John H. Krystal, M.D. See Elsevier Policy on Article Withdrawal (http://www.elsevier.com/locate/withdrawalpolicy). After this article was published, the authors determined that two cerebrospinal fluid (CSF) samples were inadvertently confused, resulting in publication of the wrong COVID-19 patient's immunostaining data. The authors determined that the two CSF samples came from COVID-19 patients with sequential case identifiers (i.e., one identifier ended in a "5" and the other in a "6"). To determine whether the published immunostaining results were produced by CSF from another COVID-19 patient, the authors reperformed the mouse brain immunostaining experiments using additional aliquots of stored CSF from the two research participants in question, as well as with the remaining CSF that had been used in the publication. After repeating the immunostaining with these CSF samples, two blinded raters were able to state unequivocally that the CSF samples from the two COVID-19 patients had been confused. Therefore, while the clinical features of the case report are accurate and unaffected, the research data belong to another COVID-19 research participant, not the one described in the published case report. The authors voluntarily informed the Journal of this honest error upon its discovery. All authors agree to retract this paper and sincerely apologize for having allowed the incorrect images to be published with this case report. To avoid misinterpretation of the research findings, both the editors and authors concur that the only proper course of action was to retract this version of the paper. However, this COVID-19 psychosis case remains of clinical interest because of the patient's clear response to immunotherapy. Therefore, the authors are revising the paper, which the Journal will consider further for publication.

Isolated Encephalopathy Without Severe Disease in a COVID-19 Patient: Case Presentation and Workup Strategies.

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is the virus responsible for the human coronavirus disease 2019 (COVID-19). It has been shown to cause not only respiratory disease but has manifestation in multiple organ systems. Encephalopathy has been shown to be associated with COVID-19; typically, it presents with other findings of the disease including headache, respiratory dysfunction, and fevers. We report a case of a 60-year-old man with hypertension who presented with confusion and cognitive decline concerning for encephalopathy and was found to have COVID-19. On neurologic examination, he had impaired episodic memory, attention, and comprehension with intact motor and sensory examination. Other than fatigue, the patient had no other common COVID-19 symptoms.

Coronavirus disease 2019 and neurodegenerative disease: what will the future bring?

PURPOSE OF REVIEW: Over 70 million people worldwide, including those with neurodegenerative disease (NDD), have been diagnosed with coronavirus disease 2019 (COVID-19) to date. We review outcomes in patients with NDD and COVID-19 and discuss the hypothesis that due to putative commonalities of neuropathogenesis, COVID-19 may unmask or trigger NDD in vulnerable individuals. RECENT FINDINGS: Based on a systematic review of published literature, patients with NDD, including dementia, Parkinson's disease, and multiple sclerosis (MS) make up a significant portion of hospitalized COVID-19 patients. Such patients are likely to present with altered mental status or worsening of their preexisting neurological symptoms. Patients with NDD and poor outcomes often have high-risk comorbid conditions, including advanced age, hypertension, diabetes, obesity, and heart/lung disease. Patients with dementia including Alzheimer's disease are at higher risk for hospitalization and death, whereas those with preexisting Parkinson's disease are not. MS patients have good outcomes and disease modifying therapies do not increase the risk for severe disease. Viral infections and attendant neuroinflammation have been associated with the pathogenesis of Alzheimer's disease, Parkinson's disease, and MS, suggesting that COVID-19 may have the potential to incite or accelerate neurodegeneration. SUMMARY: Since patients with Alzheimer's disease are at higher risk for hospitalization and death in the setting of COVID-19, additional precautions and protective measures should be put in place to prevent infections and optimize management of comorbidities in this vulnerable population. Further studies are needed to determine whether COVID-19 may lead to an increased risk of developing NDD in susceptible individuals.

Neuropathogenesis and Neurologic Manifestations of the Coronaviruses in the Age of Coronavirus Disease 2019: A Review.

Importance: Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) emerged in December 2019, causing human coronavirus disease 2019 (COVID-19), which has now spread into a worldwide pandemic. The pulmonary manifestations of COVID-19 have been well described in the literature. Two similar human coronaviruses that cause Middle East respiratory syndrome (MERS-CoV) and severe acute respiratory syndrome (SARS-CoV-1) are known to cause disease in the central and peripheral nervous systems. Emerging evidence suggests COVID-19 has neurologic consequences as well. Observations: This review serves to summarize available information regarding coronaviruses in the nervous system, identify the potential tissue targets and routes of entry of SARS-CoV-2 into the central nervous system, and describe the range of clinical neurological complications that have been reported thus far in COVID-19 and their potential pathogenesis. Viral neuroinvasion may be achieved by several routes, including transsynaptic transfer across infected neurons, entry via the olfactory nerve, infection of vascular endothelium, or leukocyte migration across the blood-brain barrier. The most common neurologic complaints in COVID-19 are anosmia, ageusia, and headache, but other diseases, such as stroke, impairment of consciousness, seizure, and encephalopathy, have also been reported. Conclusions and Relevance: Recognition and understanding of the range of neurological disorders associated with COVID-19 may lead to improved clinical outcomes and better treatment algorithms. Further neuropathological studies will be crucial to understanding the pathogenesis of the disease in the central nervous system, and longitudinal neurologic and cognitive assessment of individuals after recovery from COVID-19 will be crucial to understand the natural history of COVID-19 in the central nervous system and monitor for any long-term neurologic sequelae.