Cerebral Hemodynamics in CADASIL Before and After Acetazolamide Challenge Assessed With MRI Bolus Tracking

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Stroke. 2000;31:1904-1912

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(Stroke. 2000;31:1904.)
© 2000 American Heart Association, Inc.

Original Contributions

Cerebral Hemodynamics in CADASIL Before and After Acetazolamide Challenge Assessed With MRI Bolus Tracking

H. Chabriat, MD, PhD; S. Pappata, MD; L. Ostergaard, PhD; C. A. Clark, PhD; M. Pachot-Clouard, PhD; K. Vahedi, MD; A. Jobert, BSc; D. Le Bihan, MD, PhD M. G. Bousser, MD

From the Department of Neurology (H.C., K.V., M.G.B.), CHU Lariboisière, Université Paris VII, France; UNAF Service Hospitalier Frédéric Joliot (H.C., C.A.C., M.P.-C., D. Le B.), CEA, Orsay, France; INSERM U334 (S.P., A.J.), Orsay, France; and Aarhus University (L.O.), Aarhus, Denmark.

Correspondence to Dr H. Chabriat, Service de Neurologie, Hôpital Lariboisière, 2 rue Ambroise Paré, 75010 Paris, France. E-mail chabriat{at}ccr.jussieu.fr

Background—White matter lesions in cerebral autosomaldominant arteriopathy with subcortical infarcts and leukoencephalopathy(CADASIL) are underlaid by severe ultrastructural changes ofthe arteriolar wall. Although chronic ischemia is presumed tocause the tissue lesions, the pattern of perfusion abnormalitiesand hemodynamic reserve in CADASIL, particularly within thewhite matter, remains unknown.

Methods—We used the MRI bolus tracking method in 15 symptomaticpatients with CADASIL (5 with dementia) and 10 age-matched controlsubjects before and 20 minutes after the intravenous injectionof acetazolamide (ACZ, 17 mg/kg). Cerebral blood flow (CBF),blood volume (CBV), and mean transit time (MTT) were calculatedboth in the cortex and in the white matter according to thesingular value decomposition technique. Perfusion parameterswere obtained in regions of hyperintensities and within thenormal-appearing white matter as observed on T2-weighted images.Analysis was performed with both absolute and relative (region/wholebrain) values.

Results—A significant reduction in absolute and relativeCBF and CBV was found within areas of T2 hyperintensities inwhite matter in the absence of significant variations of MTT.This reduction was more severe in demented than in nondementedpatients. No significant change in absolute CBF and CBV valueswas observed in the cortex of patients with CADASIL. A decreasein relative CBF and CBV values was detected in the occipitalcortex. After ACZ administration, CBF and CBV increased significantlyin both the cortex and white matter of affected subjects, butthe increase in absolute CBF was lower within areas of increased signalon T2-weighted images in patients than in the white matter of controlsubjects.

Conclusions—In CADASIL, both basal perfusion and hemodynamicreserve are decreased in areas of T2 hyperintensities in thewhite matter. This hypoperfusion appears to be related to theclinical severity. The significant effect of ACZ on CBF andCBV suggests that cerebral perfusion might be increased using pharmacologicalvasodilation in CADASIL.

Key Words: acetazolamide • CADASIL • magnetic resonance imaging • leukoaraiosis • perfusion

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