STEELE-RICHARDSON-OLSZEWSKI SYNDROME: BRAIN ENERGY METABOLISM, BLOOD FLOW AND FLUORODOPA UPTAKE MEASURED BY POSITRON EMISSION TOMOGRAPHY

doi:10.1093/brain/111.3.615

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Brain, Vol. 111, No. 3, 615-630, 1988
© 1988 Guarantors of Brain

research-article

STEELE-RICHARDSON-OLSZEWSKI SYNDROME

BRAIN ENERGY METABOLISM, BLOOD FLOW AND FLUORODOPA UPTAKE MEASURED BY POSITRON EMISSION TOMOGRAPHY

K. L. LEENDERS¹^,, R. S. J. FRACKOWIAK¹^,2 and A. J. LEES²

¹From the MRC Cyclotron Unit and Department of Neurology, Hammersmith Hospital Queen Square, London ²From the National Hospital for Nervous Diseases Queen Square, London

Correspondence to: Correspondence to: Dr K. L. Leenders, MRC Cyclotron Unit, Hammersmith Hospital, Ducane Road London W12 0HS, UK.

Brain function was measured in 5 patients with clinically diagnosedSteele-Richardson-Olszewski syndrome using positron emissiontomography and tracers of dopamine metabolism, blood flow andoxygen metabolism. A global decrease in blood flow and oxygenutilization compared with normal values was found but the decreasewas more marked in the frontal regions. The degree of impairmentin oxygen utilization in the frontal region paralleled roughlythe duration of the disease. Blood flow was impaired to a greaterextent than oxygen utilization, resulting in raised oxygen extraction.This can partially be explained by a lower pCO₂ in the patients.Alternatively it may imply involvement of brain vasculaturein the pathophysiology of the disease in addition to neuronaldegeneration. Striatal dopamine formation and storage, as indicatedby L-(¹⁸F)fluorodopa uptake, was significantly decreased comparedwith control values. The severity of this decrease paralleledthe degree of reduction in frontal cerebral blood flow. Theresults suggest that the impairment of cerebral function inSteele-Richardson-Olszewski syndrome is determined to a largeextent by brainstem pathology.

Received October 14, 1986. Revised July 31, 1987. Accepted October 21, 1987.

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