White matter tracts involved in subcortical unilateral spatial neglect in subacute stroke

Seungwoo Cha; ByeongChang Jeong; Myungwon Choi; Sohyun Kwon; Stephanie Hyeyoung Lee; Nam-Jong Paik; Won-Seok Kim; Cheol E Han

doi:10.3389/fneur.2022.992107

White matter tracts involved in subcortical unilateral spatial neglect in subacute stroke

Front Neurol. 2022 Sep 30:13:992107. doi: 10.3389/fneur.2022.992107. eCollection 2022.

Authors

Seungwoo Cha¹, ByeongChang Jeong^{2

3}, Myungwon Choi², Sohyun Kwon¹, Stephanie Hyeyoung Lee¹, Nam-Jong Paik¹, Won-Seok Kim¹, Cheol E Han^{2

3}

Affiliations

¹ Department of Rehabilitation Medicine, Seoul National University College of Medicine, Seoul National University Bundang Hospital, Seongnam, South Korea.
² Department of Electronics and Information Engineering, Korea University, Sejong, South Korea.
³ Interdisciplinary Graduate Program for Artificial Intelligence Smart Convergence Technology, Korea University, Sejong, South Korea.

Abstract

Background: Unilateral spatial neglect (USN) is common and associated with poor motor and cognitive outcomes as well as impaired quality of life following stroke. Traditionally, the neural substrates underlying USN have been thought to be cortical areas, such as the posterior parietal cortex. However, patients with stroke involving only subcortical structures may also present with USN. While only a few studies have reported on USN in subcortical stroke, the involvement of white matter tracts related to brain networks of visuospatial attention is one possible explanation for subcortical neglect. Therefore, this study aimed to investigate which specific white matter tracts are neural substrates for USN in patients with subcortical stroke.

Methods: Twenty-two patients with subcortical stroke without cortical involvement who were admitted to the Department of Rehabilitation Medicine at Seoul National University Bundang Hospital were retrospectively enrolled. Nine subjects were subclassified into a "USN(+)" group, as they had at least two positive results on three tests (the Schenkenberg line bisection test, Albert's test, and house drawing test) and a score of 1 or higher on the Catherine Bergego scale. The remaining 13 subjects without abnormalities on those tests were subclassified into the "USN(-)" group. Stroke lesions on MRI were manually drawn using MRIcron software. Lesion overlapping and atlas-based analyses of MRI images were conducted. The correlation was analyzed between the overlapped lesion volumes with white matter tracts and the severity of USN (in the Albert test and the Catherine Bergego scale).

Results: Lesions were more widespread in the USN(+) group than in the USN(-) group, although their locations in the right hemisphere were similar. The atlas-based analyses identified that the right cingulum in the cingulate cortex, the temporal projection of the superior longitudinal fasciculus, and the forceps minor significantly overlapped with the lesions in the USN(+) group than in the USN(-) group. The score of the Catherine Bergego scale correlated with the volume of the involved white matter tracts.

Conclusion: In this study, white matter tracts associated with USN were identified in patients with subcortical stroke without any cortical involvement. Our study results, along with previous findings on subcortical USN, support that USN may result from damage to white matter pathways.

Keywords: atlas-based lesion overlapping analysis; stroke; subcortical; unilateral spatial neglect; white matter tract.