Effects of enlarged perivascular space in Parkinson’s disease and related cognitive decline

Abstract

AbstractBackgroundThe glymphatic system plays a key role in brain toxics clearance. Many studies demonstrated that disrupted glymphatic system is responsible for insufficient clearance of Aβ and tau protein in Alzheimer’s disease. Its contribution in Parkinson’s disease (PD) and related cognitive function decline has not been fully studied. Enlarged perivascular space (PVS) may be a sign of glymphatic function decline, hence leading to PD pathology and PD‐related cognitive function decline. Our objective was to study the PVS in PD and related cognitive function decline.MethodHigh‐resolution T1‐weighted and T2‐weighted MRI data were acquired from 60 PD patients and 58 age‐ and sex‐matched controls. The PVS from the centrum semiovale of the white matter (CS), striatum (ST) and midbrain (MB) of the basal ganglia were segmented using the enhanced images from T1‐ and T2‐weighted images. Total intracranial volumes (TIV) were obtained to account for individual head sizes. Montreal Assessment of Cognition (MoCA) was used to quantify cognitive function. MDS‐UPDRS III scores were obtained for motor function deficits. ANCOVA was used to compare PVS metrics between PD patients and controls adjusted for age, sex, and TIV. Multiple regression was used to corelate PVS metrics and MoCA in PD patients with age, sex, MDS‐UPDRS III score and TIV as covariates.ResultCompared to controls, PD patients had enlarged PVS in MB (p = 0.0028), but not in CS and ST. PVS metrics were strongly associated with age (p < 0.0001 for CS, p < 0.0001 for ST, and p = 0.0092 for MB), but only PVS in MB was associated sex (p = 0.0001). In PD patients, the MoCA was associated with the PVS in CS (p = 0.0132), MB (p = 0.0275) and total PVS (p = 0.0088) but only trending with PVS in ST (p = 0.0737). There is no association between MoCA and PVS metrics in controls.ConclusionOur findings suggested that PD patients have enlarged PVS in the midbrain, and their cognitive function is associated with enlarged PVS in both CS and MB. The enlarged PVS might be an etiological factor for PD pathology and related cognitive decline.