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Longitudinal microstructural alterations surrounding subcortical ischemic stroke lesions detected by free-water imaging.

Felix Leonard NägeleMarvin PetersenCarola MayerMarlene BönstrupRobert SchulzChristian GerloffGötz ThomallaBastian Cheng
Published in: Human brain mapping (2024)
In this study we explore the spatio-temporal trajectory and clinical relevance of microstructural white matter changes within and beyond subcortical stroke lesions detected by free-water imaging. Twenty-seven patients with subcortical infarct with mean age of 66.73 (SD 11.57) and median initial NIHSS score of 4 (IQR 3-7) received diffusion MRI 3-5 days, 1 month, 3 months, and 12 months after symptom-onset. Extracellular free-water and fractional anisotropy of the tissue (FA T ) were averaged within stroke lesions and the surrounding tissue. Linear models showed increased free-water and decreased FA T in the white matter of patients with subcortical stroke (lesion [free-water/FA T , mean relative difference in %, ipsilesional vs. contralesional hemisphere at 3-5 days, 1 month, 3 months, and 12 months after symptom-onset]: +41/-34, +111/-37, +208/-26, +251/-18; perilesional tissue [range in %]: +[5-24]/-[0.2-7], +[2-20]/-[3-16], +[5-43]/-[2-16], +[10-110]/-[2-12]). Microstructural changes were most prominent within the lesion and gradually became less pronounced with increasing distance from the lesion. While free-water elevations continuously increased over time and peaked after 12 months, FA T decreases were most evident 1 month post-stroke, gradually returning to baseline values thereafter. Higher perilesional free-water and higher lesional FA T at baseline were correlated with greater reductions in lesion size (rho = -0.51, p = .03) in unadjusted analyses only, while there were no associations with clinical measures. In summary, we find a characteristic spatio-temporal pattern of extracellular and cellular alterations beyond subcortical stroke lesions, indicating a dynamic parenchymal response to ischemia characterized by vasogenic edema, cellular damage, and white matter atrophy.
Keyphrases
  • white matter
  • multiple sclerosis
  • atrial fibrillation
  • high resolution
  • computed tomography
  • magnetic resonance
  • acute coronary syndrome
  • cross sectional
  • left ventricular
  • coronary artery disease