Abstract Details

Title White Matter Hyperintensities and Hippocampal Atrophy in Relation to Cognition: The 90+ Study

Topic Aging, Dementia, and Behavioral Neurology

Presentation(s) S34 - Aging and Dementia: Risk Factors, Biomarkers, and Neuropathology (1:44 PM-1:55 PM)

Poster/Presentation
Number 005

Background Cognitive functioning in individuals aged 90 years and older (the oldest-old) is determined by multiple factors. The association between cognitive impairment and individual pathologies seems to become weaker at older ages. It remains however unknown how these different pathologies interact in the oldest-old.

Objective

To study the interactive effect of white matter hyperintensities (WMH) and hippocampal atrophy on cognition in the oldest-old.

Design/Methods Participants were 141 individuals (94 cognitively normal and 47 cognitively impaired). Each participant completed a brain MRI scan. Cognitive testing was performed every six months with a mean follow-up of 2.0 years and included the following tests: Mini-Mental State Examination (MMSE), modified MMSE (3MS), California Verbal Learning Test (CVLT) immediate recall over four trials and delayed recall, Digit Span Backward, Animal Fluency, Trail Making Test (TMT) A, B and C. One linear mixed model was used for each cognitive test to study the baseline and longitudinal association of WMH and hippocampal volume with cognition. Models were adjusted for age, gender and education.

Results Mean age of the study sample was 94.3 (SD=3.2) years. At baseline, higher WMH volumes were associated with worse scores on the 3MS, CVLT immediate and delayed recall and TMT B. Lower hippocampal volumes were associated with worse baseline scores on all cognitive tests, except for the Digit Span Backward. Longitudinally, higher WMH and lower hippocampal volumes were associated with faster decline in the 3MS and MMSE and lower hippocampal volume was also associated with faster decline in the CVLT immediate recall. There was no association between WMH and hippocampal volume and no interaction between WMH and hippocampal volume in their association with baseline cognition or cognitive decline.

Conclusions

The research shows that WMH and hippocampal atrophy have an independent, and not synergistic, negative effect on cognition in the oldest-old.

Authors/Disclosures
Dana E. Greenia, RN, MS (University of California, Irvine) PRESENTER	No disclosure on file
	No disclosure on file
	No disclosure on file
	No disclosure on file
Charles S. DeCarli, MD, FAAN (UC Davis Health - Dept of NeurologyAlzheimer's Disease Research Center)	Dr. DeCarli has received personal compensation in the range of $5,000-$9,999 for serving on a Scientific Advisory or Data Safety Monitoring board for Novartis. The institution of Dr. DeCarli has received research support from NIH.
Claudia Kawas, MD (University of California, Irvine)	The institution of Dr. Kawas has received research support from NIH.
Maria Corrada, PhD (University of California Irvine)	The institution of Dr. Corrada has received research support from NIH.

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