White matter microstructural damage in chronic ischemic stroke affecting the left inferior frontal gyrus: Association with cognitive functions

Abstract

Brain ischemia affects the integrity of local white matter and regions that are distant to the primary lesion location. In this study, we analyzed the patterns of white matter microstructural damage and the cognitive performance of 22 patients with left hemisphere stroke. Patients were divided in two groups: one with target lesion affecting the left inferior frontal gyrus (left inferior frontal gyrus, LIFG, n = 11) and the other without ischemic lesion in this region (non-left inferior frontal gyrus, NLIFG, n = 11). Each group was compared with 11 matched healthy controls. Tract-Based Spatial Statistics was used to assess differences in diffusion tensor indices between the groups and for the association of white matter structure with cognitive performance. When compared to Controls, the LIFG showed extensive intra- and interhemispheric disconnection, with surrogate markers for tissue loss with demyelination in the corpus callosum, and microstructural changes that are independent of gross tissue loss in the contralateral hemisphere. The NLIFG group presented discrete alterations in white matter from the ipsilateral hemisphere, with surrogate markers for tissue loss with axonal injury. When LIFG is compared to NLIFG, white matter abnormalities with no gross tissue loss were observed in the corpus callosum and in the contralateral hemisphere. In addition LIFG had worse performance on cognitive functions. In conclusion, our results identify different diffusion profiles for LIFG and NLIFG groups, suggesting more extensive and pronounced white matter damage in the commissural and interhemispheric connections in the LIFG group, in addition to more pronounced cognitive impairment.