White matter lesions impair frontal lobe function regardless of their location

White matter lesions impair frontal lobe function regardless of their location

M. Tullberg, MD, E. Fletcher, PhD, C. DeCarli, MD, D. Mungas, PhD, B. R. Reed, PhD, D. J. Harvey, PhD, M. W. Weiner, MD, H. C. Chui, MD and W. J. Jagust, MD

From the Department of Neurology, School of Medicine (Drs. Tullberg, Fletcher, DeCarli, Mungas, Reed, and Jagust), and Division of Biostatistics, Department of Epidemiology and Preventive Medicine (Dr. Harvey), University of California, Davis; Veterans Administration Northern California Health Care System (Drs. Mungas, Reed, and Jagust); Departments of Psychiatry (Dr. Weiner) and Radiology, School of Medicine, University of California, San Francisco, and Magnetic Resonance Unit, Department of Veterans Affairs Medical Center, San Francisco; Department of Neurology (Dr. Chui), School of Medicine, University of Southern California; and Institute of Clinical Neuroscience (Dr. Tullberg), Sahlgrenska University Hospital, Göteborg University, Sweden.

Address correspondence and reprint requests to Dr. Mats Tullberg, Institute of Clinical Neuroscience, Sahlgrenska University Hospital, SE 413 45 Göteborg, Sweden; e-mail: mats.tullberg{at}neuro.gu.se

Objective: To analyze the effect of white matter lesions indifferent brain regions on regional cortical glucose metabolism,regional cortical atrophy, and cognitive function in a samplewith a broad range of cerebrovascular disease and cognitivefunction.

Methods: Subjects (n = 78) were recruited for a study of subcorticalischemic vascular disease (SIVD) and Alzheimer disease (AD)contributions to dementia. A new method was developed to definevolumes of interest from high-resolution three-dimensional T1-weightedMR images. Volumetric measures of MRI segmented white mattersignal hyperintensities (WMH) in five different brain regionswere related to regional PET glucose metabolism (rCMRglc) incerebral cortex, MRI measures of regional cortical atrophy,and neuropsychological assessment of executive and memory function.

Results: WMH was significantly higher in the prefrontal regioncompared to the other brain regions. In all subjects, higherfrontal and parietal WMH were associated with reduced frontalrCMRglc, whereas occipitotemporal WMH was only marginally associatedwith frontal rCMRglc. These associations were stronger and morewidely distributed in nondemented subjects where reduced frontalrCMRglc was correlated with WMH for all regions measured. Incontrast, there was no relationship between WMH in any brainregion and rCMRglc in either parietal or occipitotemporal regions.WMHs in all brain regions were associated with low executivescores in nondemented subjects.

Conclusions: The frontal lobes are most severely affected bySIVD. WMHs are more abundant in the frontal region. Regardlessof where in the brain these WMHs are located, they are associatedwith frontal hypometabolism and executive dysfunction.

Received October 10, 2003. Accepted in final form March 2, 2004.

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