Automated MRI-based volumetry of basal ganglia and thalamus at the chronic phase of cortical stroke

Purpose We aimed at assessing the potential of automated MR morphometry to assess individual basal ganglia and thalamus volumetric changes at the chronic phase after cortical stroke. Methods Ninety-six patients (mean age: 65 +/- 18 years, male 55) with cortical stroke at the chronic phase were retrospectively included. Patients were scanned at 1.5 T or 3 T using a T1-MPRAGE sequence. Resulting 3D images were processed with the MorphoBox prototype software to automatically segment basal ganglia and thalamus structures, and to obtainZscores considering the confounding effects of age and sex. Stroke volume was estimated by manual delineation on T2-SE imaging.Zscores were compared between ipsi- and contralateral stroke side and according to the vascular territory. Potential relationship betweenZscores and stroke volume was assessed using the Spearman correlation coefficient. Results Basal ganglia and thalamus volumeZscores were lower ipsilaterally to MCA territory stroke (pvalues < 0.034) while they were not different between ipsi- and contralateral stroke sides in non-MCA territory stroke (pvalues > 0.37). In MCA territory stroke, ipsilateral caudate nucleus (rho = - 0.34,p = 0.007), putamen (rho = - 0.50,p < 0.001), pallidum (rho = - 0.44,p < 0.001), and thalamus (rho = - 0.48,p < 0.001) volumeZscores negatively correlated with the cortical stroke volume. This relation was not influenced by cardiovascular risk factors or time since stroke. Conclusion Automated MR morphometry demonstrated atrophy of ipsilateral basal ganglia and thalamus at the chronic phase after cortical stroke in the MCA territory. The atrophy was related to stroke volume. These results confirm the potential role for automated MRI morphometry to assess remote changes after stroke.