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Brain Advance Access published online on October 24, 2005
Brain, doi:10.1093/brain/awh649

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© The Author (2005). Published by Oxford University Press on behalf of the Guarantors of Brain. All rights reserved. For Permissions, please email: journals.permissions@oxfordjournals.org
Received March 10, 2005
Revised May 20, 2005
Accepted September 5, 2005

Article

Factors affecting the clinical outcome after neural transplantation in Parkinson's disease

Paola Piccini ¹, Nicola Pavese ¹, Peter Hagell ², Jan Reimer ³, Anders Björklund ⁴, Wolfgang H. Oertel ⁵, Niall P. Quinn ⁶, David J. Brooks ¹, and Olle Lindvall ^3*

¹ MRC Clinical Sciences Centre and Division of Neuroscience, Faculty of Medicine, Imperial College, Hammersmith Hospital, London, UK
² Section of Restorative Neurology, University Hospital, Lund, Sweden; Department of Health Sciences, Lund University, Lund, Sweden
³ Section of Restorative Neurology, University Hospital, Lund, Sweden
⁴ Division of Neurobiology, Lund University, Lund, Sweden
⁵ Department of Neurology, University of Marburg, Marburg, Germany
⁶ Sobell Department of Motor Neuroscience and Movement Disorders, London, UK

^* To whom correspondence should be addressed.
Olle Lindvall, E-mail: Olle.Lindvall{at}neurol.lu.se

	Abstract

Intrastriatal grafts of embryonic mesencephalic tissue can survive in the brains of patients with Parkinson's disease, but the degree of symptomatic relief is highly variable and some cases develop troublesome dyskinesias. Here we explored, using clinical assessment and ¹⁸F-dopa and ¹¹C-raclopride PET, factors which may influence the functional outcome after transplantation. We observed increased ¹⁸F-dopa uptake in the grafted putamen, signifying continued survival of the transplanted dopaminergic neurons, in parallel with a progressive reduction of ¹⁸F-dopa uptake in non-grafted regions for the whole patient group. The patients with the best functional outcome after transplantation exhibited no dopaminergic denervation in areas outside the grafted areas either preoperatively or at 1 or 2 years post-operatively. In contrast, patients with no or modest clinical benefit showed reduction of ¹⁸F-dopa in ventral striatum prior to or following transplantation, which may have limited graft-induced improvement. We obtained no evidence that dyskinesias were caused by abnormal dopamine (DA) release from the grafts. As has been observed for intrinsic dopaminergic neurons, there was a significant correlation between ¹⁸F-dopa uptake and methamphetamine-induced change of ¹¹C-raclopride binding (as a measure of DA release) in the putamen containing the graft. Furthermore, we observed no correlation between ¹¹C-raclopride binding in anterior, posterior or entire putamen under basal conditions or after methamphetamine, and dyskinesia severity scores in the contralateral side of the body. Withdrawal of immunosuppression at 29 months after transplantation caused no reduction of ¹⁸F-dopa uptake or worsening of UPDRS motor score, indicating continued survival and function of the graft. However, patients showed increased dyskinesia scores, which might have been caused either by growth of the graft or worsening of a low-grade inflammation around the graft. These findings indicate that poor outcome after transplantation is associated with progressive dopaminergic denervation in areas outside the grafts, a process which may have started already before surgery. Also, that the development of dyskinesias after transplantation is not associated with excessive DA release from the grafts. Finally, our data provide evidence that long-term immunosuppression can be withdrawn without interfering with graft survival or the motor recovery induced by transplantation.

Keywords: Parkinson's disease; neural transplantation; dopamine; dyskinesias; positron emission tomography.
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