Brain Volume Changes after COVID-19 Compared to Healthy Controls by Artificial Intelligence-Based MRI Volumetry.

Cohort studies that quantify volumetric brain data among individuals with different levels of COVID-19 severity are presently limited. It is still uncertain whether there exists a potential correlation between disease severity and the effects of COVID-19 on brain integrity. Our objective was to assess the potential impact of COVID-19 on measured brain volume in patients with asymptomatic/mild and severe disease after recovery from infection, compared with healthy controls, using artificial intelligence (AI)-based MRI volumetry. A total of 155 participants were prospectively enrolled in this IRB-approved analysis of three cohorts with a mild course of COVID-19 (n = 51, MILD), a severe hospitalised course (n = 48, SEV), and healthy controls (n = 56, CTL) all undergoing a standardised MRI protocol of the brain. Automated AI-based determination of various brain volumes in mL and calculation of normalised percentiles of brain volume was performed with mdbrain software, using a 3D T1-weighted magnetisation-prepared rapid gradient echo (MPRAGE) sequence. The automatically measured brain volumes and percentiles were analysed for differences between groups. The estimated influence of COVID-19 and demographic/clinical variables on brain volume was determined using multivariate analysis. There were statistically significant differences in measured brain volumes and percentiles of various brain regions among groups, even after the exclusion of patients undergoing intensive care, with significant volume reductions in COVID-19 patients, which increased with disease severity (SEV > MILD > CTL) and mainly affected the supratentorial grey matter, frontal and parietal lobes, and right thalamus. Severe COVID-19 infection, in addition to established demographic parameters such as age and sex, was a significant predictor of brain volume loss upon multivariate analysis. In conclusion, neocortical brain degeneration was detected in patients who had recovered from SARS-CoV-2 infection compared to healthy controls, worsening with greater initial COVID-19 severity and mainly affecting the fronto-parietal brain and right thalamus, regardless of ICU treatment. This suggests a direct link between COVID-19 infection and subsequent brain atrophy, which may have major implications for clinical management and future cognitive rehabilitation strategies.

Possible autoimmune pediatric encephalitis following COVID-19 infection with focal cerebral dysfunction in a young female: A case report

Introduction: Post-COVID-19 autoimmune encephalitis is a rare manifestation following COVID-19. Most cases have not demonstrated solid evidence regarding their pathogenesis. Some believe it to be an immune process. Case presentation: In this case report, we present a case of a young female who presented to our emergency department with visual, auditory, and olfactory hallucinations after successfully treating COVID-19 two weeks prior to this visit. On examination, her vital signs were stable, but she was agitated, distressed, and hallucinating. Neurological examinations were normal. Laboratory investigations, including autoimmune profiles, were all negative. Magnetic resonance imaging of the brain showed non-specific changes in the bilateral frontal area. Electroencephalography (EEG) showed lateralized rhythmic delta activity (LRDA) arising more from the right occipital lobes. Autoimmune psychosis was suspected due to psychosis, abnormal imaging, and abnormal EEG findings. She was given corticosteroids and antipsychotic medication. Her symptoms improved within ten days. On follow-up, she remained well without any return of psychosis. Conclusion(s): Possible autoimmune pediatric encephalitis following COVID-19 is a rare entity that has scarcely been reported. The majority of the cases were reported to have been related to stress following the infection. To establish the correct diagnosis, an extensive workup, including an autoimmune profile, lumbar puncture, magnetic resonance imaging, and electroencephalography, is recommended.Copyright © 2022 The Author(s)

Effects of COVID-19 on Synaptic and Neuronal Degeneration.

Neurons are the basic building blocks of the human body's neurological system. Atrophy is defined by the disintegration of the connections between cells that enable them to communicate. Peripheral neuropathy and demyelinating disorders, as well as cerebrovascular illnesses and central nervous system (CNS) inflammatory diseases, have all been linked to brain damage, including Parkinson's disease (PD). It turns out that these diseases have a direct impact on brain atrophy. However, it may take some time after the onset of one of these diseases for this atrophy to be clearly diagnosed. With the emergence of the Coronavirus disease 2019 (COVID-19) pandemic, there were several clinical observations of COVID-19 patients. Among those observations is that the virus can cause any of the diseases that can lead to brain atrophy. Here we shed light on the research that tracked the relationship of these diseases to the COVID-19 virus. The importance of this review is that it is the first to link the relationship between the Coronavirus and diseases that cause brain atrophy. It also indicates the indirect role of the virus in dystrophy.

Multiple sclerosis as a model to investigate SARS-CoV-2 effect on brain atrophy.

INTRODUCTION: Data on structural brain changes after infection with SARS-CoV-2 is sparse. We postulate multiple sclerosis as a model to study the effects of SARS-CoV-2 on brain atrophy due to the unique availability of longitudinal imaging data in this patient group, enabling assessment of intraindividual brain atrophy rates. METHODS: Global and regional cortical gray matter volumes were derived from structural MRIs using FreeSurfer. A linear model was fitted to the measures of the matching pre-SARS-CoV-2 images with age as an explanatory variable. The residuals were used to determine whether the post-SARS-CoV-2 volumes differed significantly from the baseline. RESULTS: Fourteen RRMS patients with a total of 113 longitudinal magnetic resonance images were retrospectively analyzed. We found no acceleration of brain atrophy after infection with SARS-CoV-2 for global gray matter volume (p = 0.17). However, on the regional level, parahippocampal gyri showed a tendency toward volume reduction (p = 0.0076), suggesting accelerated atrophy during or after infection. CONCLUSIONS: Our results illustrate the opportunity of using longitudinal MRIs from existing MS registries to study brain changes associated with SARS-CoV-2 infections. We would like to address the global MS community with a call for action to use the available cohorts, reproduce the proposed analysis, and pool the results.

45th Annual Meeting of the American Society of Neuroimaging

The proceedings contain 31 papers. The topics discussed include: brain abscess appearing 20 years post craniotomy;postoperative diffusion restriction in the proximal optic nerve: optic neuropathy or central retinal artery occlusion?;magnetic resonance imaging as a prognostic disability marker in clinically isolated syndrome: a systematic review;bilateral internuclear ophthalmoplegia caused by unilateral infarction;neuroaspergillosis in a patient with chronic lymphocytic leukemia as progressively worsening ischemic infarct;neuroimaging in mitochondrial short-chain enoyl-coa hydratase 1 deficiency: a progressive encephalomyelopathy starting in utero;childhood-onset neurodegeneration with brain atrophy: imaging findings of a rare diagnosis;multiple sclerosis associated with Balo-like lesions post-coronavirus disease 2019;and within-subject reproducibility of quantitative proton density mapping.

COVID-19 AS A CAUSE OF COMA IN ADULT ONSET VANISHING WHITE MATTER DISEASE

A 34 year old female presented with fever, diarrhoea, confusion, and a decline in mobility, having recently tested positive for COVID-19. Her medical history included patent foramen ovale, primary ovarian failure and leukoencephalopathy which had been investigated in her 20s leading to a clinical diagnosis of Vanishing White Matter disease (VWM). On admission she deteriorated rapidly with decreased GCS requiring frequent critical care review. MRI demonstrated mild progression of the cerebral atrophy and slight increase in the 'cystic' changes in the white matter. Lumbar puncture was unremarkable. EEG demonstrated widespread cerebral dysfunction with frontotemporal emphasis but without seizure activity. She was managed with supportive care recovering to her baseline function within days. VWM is a leukodystrophy caused by recessive mutations in eukaryotic initiation factor 2B (eIF2b) complex. Adult onset presentations have been described which have a slowly progressive course. Patients with VWM are known to rapidly decline with fever, and mild head injury occasionally resulting in coma. Our case high-lights the potentially devastating effects of a neurotropic virus such as COVID-19 in VWM, and the need to consider rare genetic disorders in adult patients presenting with extensive white matter abnormalities on MRI and premature ovarian failure.

Relationships between the Fear of COVID-19 Scale and regional brain atrophy in mild cognitive impairment.

BACKGROUND: Several studies have reported that the pandemic of coronavirus disease 2019 (COVID-19) influenced cognitive function in the elderly. However, the effect of COVID-19-related fear on brain atrophy has not been evaluated. In this study, we evaluated the relation between brain atrophy and the effect of COVID-19-related fear by analysing changes in brain volume over time using magnetic resonance imaging (MRI). METHODS: Participants were 25 Japanese patients with mild cognitive impairment (MCI) or subjective cognitive decline (SCD), who underwent 1.5-tesla MRI scan twice, once before and once after the pandemic outbreak of COVID-19, and the Fear of Coronavirus Disease 2019 Scale (FCV-19S) assessment during that period. We computed regional brain atrophy per day between the 1st and 2nd scan, and evaluated the relation between the FCV-19S scores and regional shrinkage. RESULTS: There was significant positive correlation between the total FCV-19S score and volume reduction per day in the right posterior cingulate cortex. Regarding the subscales of FCV-19S, we found significant positive correlation between factor 2 of the FCV-19S and shrinkage of the right posterior cingulate cortex. CONCLUSIONS: There was positive correlation between the FCV-19S score and regional brain atrophy per day. Although it is already known that the psychological effects surrounding the COVID-19 pandemic cause cognitive function decline, our results further suggest that anxiety and fear related to COVID-19 cause regional brain atrophy.