Dopamine Cell Implantation in Parkinson's Disease: Long-Term Clinical and 18F-FDOPA PET Outcomes

We have previously reported the results of a 1-y double-blind, placebo-controlled study of embryonic dopamine cell implantation for Parkinson's disease. At the end of the blinded phase, we found a significant increase in putamen uptake on 18F-fluorodopa (18F-FDOPA) PET reflecting the viability of the grafts. Nonetheless, clinical improvement was significant only in younger (age ≤ 60 y) transplant recipients, as indicated by a reduction in Unified Parkinson's Disease Rating Scale (UPDRS) motor scores. Methods: We now report long-term clinical and PET outcomes from 33 of the original trial participants who were followed for 2 y after transplantation and 15 of these subjects who were followed for 2 additional years. Longitudinal changes in UPDRS motor ratings and caudate and putamen 18F-FDOPA uptake were assessed with repeated-measures ANOVA. Relationships between these changes over time were evaluated by the analysis of within-subject correlations. Results: We found that UPDRS motor ratings declined over time after transplantation (P < 0.001). Clinical improvement at 1 y was relatively better for the younger transplant recipients and for men, but these age and sex differences were not evident at longer-term follow-up. Significant increases in putamen 18F-FDOPA uptake were evident at all posttransplantation time points (P < 0.001) and were not influenced by either age or sex. Posttransplantation changes in putamen PET signal and clinical outcome were significantly intercorrelated (P < 0.02) over the course of the study. Image analysis at the voxel level revealed significant bilateral increases in 18F-FDOPA uptake at 1 y (P < 0.001) in the posterior putamen engraftment sites. PET signal in this region increased further at 2 and 4 y after engraftment. Concurrently, this analysis disclosed progressive declines in radiotracer uptake in the nonengrafted caudate and ventrorostral putamen. Clinical improvement after transplantation correlated with the retention of PET signal in this region at the preoperative baseline. Conclusion: These results suggest that clinical benefit and graft viability are sustained up to 4 y after transplantation. Moreover, the dependence of clinical (but not imaging) outcomes on subject age and sex at 1 y may not persist over the long term. Last, the imaging changes reliably correlate with clinical outcome over the entire posttransplantation time course.

[1]  C. Marsden,et al.  Recent Developments in Parkinson's Disease , 1986 .

[2]  S. Fahn Unified Parkinson's Disease Rating Scale , 1987 .

[3]  S. Fahn Members of the UPDRS Development Committee. Unified Parkinson's Disease Rating Scale , 1987 .

[4]  D. Rubin,et al.  Statistical Analysis with Missing Data. , 1989 .

[5]  Scott T. Grafton,et al.  Survival of implanted fetal dopamine cells and neurologic improvement 12 to 46 months after transplantation for Parkinson's disease. , 1992, The New England journal of medicine.

[6]  Vincent Frouin,et al.  Clinical correlates of {18F}fluorodopa uptake in five grafted Parkinsonian patients , 1995, Annals of neurology.

[7]  P R Sanberg,et al.  Neuropathological evidence of graft survival and striatal reinnervation after the transplantation of fetal mesencephalic tissue in a patient with Parkinson's disease. , 1995, The New England journal of medicine.

[8]  D. Altman,et al.  Calculating correlation coefficients with repeated observations: Part 2—correlation between subjects , 1995, BMJ.

[9]  D J Brooks,et al.  Regional changes in [18F]dopa metabolism in the striatum in Parkinson's disease. , 1996, Brain : a journal of neurology.

[10]  Björn Gustavii,et al.  Short‐ and long‐term survival and function of unilateral intrastriatal dopaminergic grafts in Parkinson's disease , 1997, Annals of neurology.

[11]  Ornella Rimoldi,et al.  Dopamine release from nigral transplants visualized in vivo in a Parkinson's patient , 1999, Nature Neuroscience.

[12]  C. Olanow,et al.  Long-term evaluation of bilateral fetal nigral transplantation in Parkinson disease. , 1999, Archives of neurology.

[13]  J. John Mann,et al.  Mixed models and multiple comparisons in analysis of human neurochemical maps , 2000, Psychiatry Research: Neuroimaging.

[14]  C. Olanow,et al.  Transplantation of embryonic dopamine neurons for severe Parkinson's disease. , 2001, The New England journal of medicine.

[15]  S Fahn,et al.  Committee. Unified Parkinson’s Disease Rating Scale. , 2001 .

[16]  V. Dhawan,et al.  Blinded positron emission tomography study of dopamine cell implantation for Parkinson's disease , 2001, Annals of neurology.

[17]  Stanley Fahn,et al.  Dyskinesia after fetal cell transplantation for parkinsonism: A PET study , 2002, Annals of neurology.

[18]  David Eidelberg,et al.  Comparative analysis of striatal FDOPA uptake in Parkinson's disease: ratio method versus graphical approach. , 2002, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.

[19]  Vesna Sossi,et al.  A double‐blind controlled trial of bilateral fetal nigral transplantation in Parkinson's disease , 2003, Annals of neurology.

[20]  Karl J. Friston,et al.  Variance Components , 2003 .

[21]  Nicole A. Lazar,et al.  Statistical Analysis With Missing Data , 2003, Technometrics.

[22]  A. Dagher,et al.  Cell type analysis of functional fetal dopamine cell suspension transplants in the striatum and substantia nigra of patients with Parkinson's disease. , 2005, Brain : a journal of neurology.

[23]  A. Björklund,et al.  Factors affecting the clinical outcome after neural transplantation in Parkinson's disease. , 2005, Brain : a journal of neurology.

[24]  V. Dhawan,et al.  Changes in network activity with the progression of Parkinson's disease. , 2007, Brain : a journal of neurology.

[25]  Elisabet Englund,et al.  Lewy bodies in grafted neurons in subjects with Parkinson's disease suggest host-to-graft disease propagation , 2008, Nature Medicine.

[26]  R. Hauser,et al.  Lewy body–like pathology in long-term embryonic nigral transplants in Parkinson's disease , 2008, Nature Medicine.