Cognitive deficits and striato-frontal dopamine release in Parkinson's disease

doi:10.1093/brain/awn054

Brain Advance Access originally published online on March 24, 2008
Brain 2008 131(5):1294-1302; doi:10.1093/brain/awn054

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Cognitive deficits and striato-frontal dopamine release in Parkinson's disease

Nobukatsu Sawamoto¹^,*, Paola Piccini¹, Gary Hotton¹, Nicola Pavese¹, Kris Thielemans² and David J. Brooks¹^,2

¹Division of Neuroscience and MRC Clinical Sciences Centre, Imperial College School of Medicine and ²Hammersmith Imanet, GE Healthcare, Hammersmith Hospital, London W12 0NN, UK

Correspondence to: Nobukatsu Sawamoto, MD, PhD, Neurology Group, MRC Cyclotron Building, Division of Neuroscience and MRC Clinical Sciences Centre, Imperial College School of Medicine, Hammersmith Hospital, London W12 0NN, UK E-mail: nobukatsu.sawamoto{at}csc.mrc.ac.uk or sawa{at}kuhp.kyoto-u.ac.jp

Idiopathic Parkinson's disease (PD) is often accompanied bya pattern of executive deficits similar to those found in patientswith frontal lobe lesions. We investigated whether such cognitivedeficits are attributable to frontal lobe dysfunction as a directconsequence of impaired mesocortical dopaminergic transmissionor an indirect consequence of impaired nigrostriatal dopaminergicfunction. For this purpose, changes in synaptic dopamine levelsduring task performance were monitored using a marker of dopamineD2-receptor availability ¹¹C-raclopride (RAC) PET. During RACPET, seven patients with early symptomatic PD and seven age-matchedhealthy controls performed two types of behavioural task, aspatial working memory task (SWT) and a visuomotor control task(VMT). The SWT involves an executive process which is knownto be impaired by both frontal lobe lesions and PD while theVMT is a control test for the visuomotor component of the SWT.Parametric images of RAC binding potential during performanceof each task were generated, and compared between the tasksusing voxel-based statistical parametric mapping as well asregion of interest analysis. In controls, RAC binding was reducedin the dorsal caudate during performance of the SWT comparedwith the VMT, compatible with increased levels of endogenousdopamine release due to the executive process. In PD patients,this RAC binding reduction was not observed. In contrast, RACbinding in the anterior cingulate cortex within the medial prefrontalcortex was reduced by a comparable level during the SWT bothin controls and PD patients. Statistical comparisons betweencontrols and PD patients confirmed significantly attenuateddopamine release in the dorsal caudate in PD, but preservedlevels of medial prefrontal dopamine release. Our data suggestthat executive deficits in early patients with PD are associatedwith impaired nigrostriatal dopaminergic function resultingin abnormal processing in the cortico-basal ganglia circuit.In contrast, mesocortical dopaminergic transmission appearswell preserved in early PD patients.

Key Words: spatial working memory; dopamine D2-receptor; ¹¹C-raclopride positron emission tomography; dorsal caudate; anterior cingulate cortex

Abbreviations: MRI, Magnetic resonance imaging; ROI, region of interest; SWT, spatial working memory task; VMT, visuomotor control task

Received November 19, 2007. Revised February 21, 2008. Accepted February 25, 2008.

*Present address: Human Brain Research Center, Kyoto UniversityGraduate School of Medicine, Shogoin, Sakyo-ku, Kyoto 606-8507,Japan

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