Abnormal Regional Cerebral Blood Flow in Cognitively Normal Elderly Subjects With Hypertension

doi:10.1161/STROKEAHA.107.495457

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Stroke. 2008;39:349-354
Published online before print January 3, 2008, doi: 10.1161/STROKEAHA.107.495457

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(Stroke. 2008;39:349.)
© 2008 American Heart Association, Inc.

Original Contributions

Abnormal Regional Cerebral Blood Flow in Cognitively Normal Elderly Subjects With Hypertension

Weiying Dai, PhD; Oscar L. Lopez, MD; Owen T. Carmichael, PhD; James T. Becker, PhD; Lewis H. Kuller, MD H. Michael Gach, PhD

From the Departments of Computer Sciences (W.D.), Neurology (O.L.L., J.T.B.), Psychiatry (O.L.L., J.T.B.), Epidemiology (L.H.K.), and Radiology and Bioengineering (W.D., J.T.B.), University of Pittsburgh School of Medicine, Pittsburgh, Pa; the Departments of Neurology and Bioengineering (O.T.C.), University of California, Davis, Calif; the MR Research Imaging Facility (H.M.G.), Nevada Cancer Institute, Las Vegas, Nev; and the Departments of Health Physics and Internal Medicine (H.M.G.), University of Nevada School of Medicine, Las Vegas, Nev.

Correspondence to Oscar L. Lopez, MD, 3501 Forbes Avenue, Suite 830, Pittsburgh, PA 15213. E-mail lopezol{at}upmc.edu

Background and Purpose— The purpose of this study wasto examine regional cerebral blood flow (rCBF) in normal cognitive-performingsubjects with hypertension (HTN) using continuous arterial spin-labeledMRI. The most common explanation for the effect of blood pressureon cognition is that HTN increases the risk of cerebrovasculardisease, and it may increase the risk for Alzheimer diseasepossibly through small vessel disease, ischemia, oxidative stress,and inflammation. However, few studies to date have examinedthe rCBF of cognitively normal subjects with HTN in population-basedcohorts, and none have used continuous arterial spin-labeledMRI. This is a noninvasive technique that does not require eitherinjections or ionizing radiation and can measure absolute rCBFrates over the entire brain.

Methods— rCBF was measured at 1.5 T using continuous arterialspin-labeled MRI in 41 cognitively normal subjects who wereparticipating in the Cardiovascular Health Study Cognition Study.A deformable atrophy-corrected registration method was usedto warp the rCBF maps to the standard colin27 brain space. Imageand cluster-based statistical analyses were performed betweensubject groups.

Results— Cognitively normal subjects with HTN (n=19) haddecreased rCBF in the putamen, globus pallidus, bilaterally,and in the left hippocampus compared with normotensives (n=22).In addition, decreased rCBF was observed in the right and leftanterior cingulate gyrus with extension to the subcallosal region,left posterior cingulate gyrus and medial precuneus, left lateralinferior and superior frontal, and inferior parietal, left orbitofrontal,and left superior temporal cortices.

Conclusions— rCBF is affected in normal subjects withHTN, not only in the subcortical regions, but also in limbicand paralimbic structures. We hypothesize that the HTN createsa vulnerability state for the development of neurodegenerativedisorders, especially Alzheimer disease.

Key Words: CASL • cerebral blood flow • cognition • hypertension • MRI

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