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- Title
Association Between Cerebellar Gray Matter Volumes, Gait Speed, and Information-Processing Ability in Older Adults Enrolled in the Health ABC Study.
- Authors
Nadkarni, Neelesh K.; Nunley, Karen A.; Aizenstein, Howard; Harris, Tamara B.; Yaffe, Kristine; Satterfield, Suzanne; Newman, Anne B.; Rosano, Caterina
- Abstract
Background. The cerebellum plays an important role in mobility and cognition. However, it is unclear which regions of the cerebellum are associated with gait speed and information-processing ability in older adults without overt brain damage. Methods. Cross-sectional associations between cerebellar gray matter volumes (GMV), gait speed, and information-processing ability were explored in 231 community-dwelling adults (mean age: 83 years, 48% black, 58% female). We measured gait speed on an automated walkway and information-processing ability on the Digit Symbol Substitution test (DSST). Total and regional cerebellar GMV was measured on 3T-magnetic resonance imaging. Lobar GMV of the cerebellum, obtained by an automated parcellation process, were aggregated based on the cognitive (lobules VI, VII, VIII and crus I, II), sensorimotor (lobules II, IV, V), and vestibular (lobules IX and X) functions ascribed to the cerebellar regions. Results. Larger cerebellar GMV correlated with faster gait speed and superior DSST scores (both p < .001) independent of age, gender, atrophy, and small vessel disease. After adjusting for age, gender, and atrophy, larger cognitive cerebellar GMV correlated with both faster gait speed (p = .04) and higher DSST scores (p < .001), larger sensorimotor cerebellar GMV correlated significantly with DSST alone (p = .02), and the vestibular cerebellar GMV with neither. The association between cognitive cerebellar GMV and gait speed was no longer significant after adjusting for DSST score in the linear regression models. Conclusions. The relationship between gait speed and cerebellar GMV is influenced by information-processing ability, and this relationship is stronger in subregions ascribed to cognitive than vestibular or sensorimotor functions.
- Subjects
HUMAN information processing in older people; COGNITION in old age; GAIT in humans; PERIAQUEDUCTAL gray matter; BRAIN; AGING; BRAIN imaging; INFLUENCE of age on ability
- Publication
Journals of Gerontology Series A: Biological Sciences & Medical Sciences, 2014, Vol 69, Issue 8, p996
- ISSN
1079-5006
- Publication type
Article