Brain metabolic subtypes in Long Covid individuals from a Brazilian cohort

Abstract

Background: The Coronavirus disease 2019 (COVID-19), caused by SARS-CoV-2, is one of the biggest health concerns of the century. Long COVID is one of the major sequelae from the infection and include persistent neurological manifestations. Brain images study suggest that Long COVID patients present distinct brain metabolic alterations. However, whether brain subtypes of Long COVID exist remains unclear. Here, we aimed to evaluate metabolic patterns in FDG-PET imaging in a Brazilian cohort of individuals presenting with Long COVID. Method: A total of 37 adult Brazilian individuals presenting with Long COVID symptoms were scanned with FDG positron emission tomography (FDG-PET) and its standardized uptake value ratio (SUVr normalized by the whole brain) was obtained. Then, 89 volumes of interest (VOIs) were extracted and used as input features for a principal component analysis (PCA).Average silhouette method was used to determine the optimal number of clusters. K-means clustering was used to split the dataset into a set of K groups. We employed ANCOVA and Tukey tests to compare the groups. Statistical analysis was made in the R environment, significance set at p <0.05. Result: PCA analysis identified three different FDG-PET subtypes: C1 (n=4), C2 (n=6), and C3 (n=27). In the ANCOVA comparison, the regions with the highest increase in the mean regional SUVr were left lingual gyrus for C1 compared to C2 and C3, and corpus callosum for C2 against C3. Conversely, the greatest regional decrease observed were: left caudate nucleus for C1 compared to C2 and right globus pallidus for C1 and C2 compared to C3. Conclusion: These preliminary findings suggest that Long COVID individuals present a predominant metabolic signature (C3) but at least two variants. Our results corroborate that Long COVID is a heterogeneous condition that affects individuals in a different manner. More studies are needed to understand the regional brain vulnerability to Long COVID.