Cerebral microstructural alterations in Post-COVID-condition are related to cognitive impairment, olfactory dysfunction, and fatigue

Description

Methods

In this prospective monocentric study, we analyzed clinical and (micro-)structural MRI data from a cohort of 89 patients who fulfilled the WHO diagnosis criteria for PCC (49, IQR [23] years; 55 females; 85% mild course of COVID-19 infection) and underwent MRI approximately nine months (254, IQR [209] days) after a positive PCR test result for SARS-CoV-2. Due to PCC symptoms (i.e. impaired attention, multitasking, and memory, word-finding difficulties, disturbed olfaction/gustation, and fatigue), 53% of patients could not return to their previous level of independence or employment. Cognitive performance, as measured by the MoCA test, was impaired in 41% of patients (26, IQR [4] points, cut-off value: < 26/30). Olfactory performance was impaired in 74% of patients (9, IQR [4] items identified, < 11/12 is the cut-off value). The WEIMuS questionnaire indicated the presence of fatigue in 78% of patients (43, IQR [17] points, > 33/68 is the cut-off value). PCC patients were compared to matched healthy controls (Healthy non-COVID, HNC; n = 46) as well as controls that had contracted COVID-19 without an ensuing PCC (Unimpaired Post-COVID, UPC; n = 38). Conventional MRI sequences yielded age-appropriate results without signs of gray matter atrophy or changes in cortical morphometry (FreeSurfer-based). Analysis of whole-brain DMI data revealed a volume shift from the membrane-enclosed compartment into the free-water fraction in the gray matter, which was positively associated with the severity of initial COVID-19 infection (P = 0.007). However, voxel-based inter-group comparisons of DMI parameters allowed an even more distinguishable view of the COVID-19-related effect: Whereas a marked decrease in the volume of the membrane-enclosed compartment occurred in neocortical gray matter and thalamus, an increase was observed within the corpus callosum, internal capsule, cerebellum, and brainstem. Moreover, PCC patients could be distinguished from UPC patients based on the different emphasis of this pattern. To further determine the microstructural correlates of PCC-associated symptoms after COVID-19, voxel-based associations of DMI parameters with clinical scores were performed. Here, symptom-specific networks emerged that were significantly correlated with impaired MoCA- or olfactory performance and fatigue. In summary, DMI revealed microstructural changes after COVID-19 infection, with different patterns in patients with or without PCC. Expression of PCC symptoms was associated with affection of specific cerebral networks, suggesting a pathophysiological basis for this syndrome.