Clinical observation suggests that the aging process affects gyrification, with the brain appearing more 'atrophic' with increasing age. Empirical studies of tissue type indicate that gray matter volume decreases with age while cerebrospinal fluid increases. Quantitative changes in cortical surface characteristics such as sulcal and gyral shape have not been measured, however, due to difficulties in developing a method that separates abutting gyral crowns and opens up the sulci -- the 'problem of buried cortex'. We describe a quantitative method for measuring brain surface characteristics that is reliable and valid. This method is used to define the gyral and sulcal characteristics of atrophic and non-atrophic brains and to examine changes that occur with aging in a sample of 148 normal individuals from a broad age range. The shape of gyri and sulci change significantly over time, with the gyri becoming more sharply and steeply curved, while the sulci become more flattened and less curved. Cortical thickness also decreases over time. Cortical thinning progresses more rapidly in males than in females. The progression of these changes appears to be relatively stable during midlife and to begin to progress some time during the fourth decade. Measurements of sulcal and gyral shape may be useful in studying the mechanisms of both neurodevelopmental and neurodegenerative changes that occur during brain maturation and aging.
Although brain atrophy is a common neuroradiologic and pathologic finding in patients with HIV-1 infection, especially those with HIV-1-associated dementia complex, it is not clear whether specific regions of the brain are differentially responsible for tissue loss. In this study, we measured volumes of basal ganglia structures on MRIs for three groups: HIV-1-infected homosexual men with HIV-1-associated dementia complex (HIV+ demented), HIV-1-infected homosexual men without HIV dementia (HIV+ nondemented), and noninfected homosexual men. All groups were comparable on age and years of education, and the HIV+ groups were comparable on level of immunosuppression. Total brain volume was smaller in the HIV+ nondemented patients in comparison with HIV- control subjects; the HIV+ demented patients demonstrated even smaller brain volumes than the HIV+ nondemented patients. Smaller basal ganglia volumes, after corrections for intracranial volume, distinguished HIV+ demented patients from the other two groups; there were no differences between the HIV+ nondemented and HIV- groups on basal ganglia volumes. This study suggests that HIV infection causes generalized brain atrophy, but that the clinical features of HIV dementia develop with selective basal ganglia atrophy, consistent with the characterization of HIV dementia as subcortical.
Automated identification of training classes for discriminant analysis was clearly superior to a method that required operator intervention. A sharp (discrete) classification into three tissue types was also slightly superior to one that used "fuzzy" classification to produce continuous measurements to correct for partial voluming. This multispectral automated discriminant analysis method produces a computationally efficient, reliable, and valid method for classifying brain tissue into GM, WM, and CSF. It corrects some of the problems with reliability and computational inefficiency previously observed for operator-dependent approaches to segmentation.
Previous investigations using linear CT measures found no evidence of caudate atrophy in asymptomatic persons who have the DNA haplotype linked to the Huntington's disease (HD) gene. We measured volumes of the caudate, putamen, and globus pallidus on MRIs of 10 gene marker-positive and 18 gene marker-negative asymptomatic at-risk persons. The volumes of all basal ganglia structures were significantly reduced in the marker-positive group, even after controlling for age, total brain volume, and minor neurologic signs. Discriminant function analysis using basal ganglia volumes and age as predictor variables correctly identified genetic status in 86% of subjects. These results indicate that basal ganglia volume is reduced before individuals become symptomatic with HD.
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