期刊
JOURNAL OF NEUROLOGY
卷 268, 期 2, 页码 701-706出版社
SPRINGER HEIDELBERG
DOI: 10.1007/s00415-020-10212-y
关键词
Parkinson's disease; Deep brain stimulation; Pallidum; PET
The study confirmed that GPi-DBS is an effective treatment for patients with Parkinson's disease, mainly through improving metabolic changes in the areas involved in motor execution. Patients showed significant improvement in motor status after surgery, with no changes in cognitive and psychiatric status, and no significant metabolic changes in the limbic circuit.
Introduction Internal globus pallidus (GPi) deep brain stimulation (DBS) is a safe and effective alternative treatment in Parkinson's disease (PD) for patients with cognitive impairment. However, no study has yet investigated metabolic changes within a large series of patients undergoing GPi stimulation. Objective We assessed motor, cognitive and psychiatric changes, as well as modifications in brain glucose metabolism measured with FDG-PET, before and after bilateral GPi-DBS. Methods In the same week, 32 patients with PD underwent a motor, cognitive and psychiatric assessment and a resting-state FDG-PET scan, 4 months before and 4 months after GPi-DBS surgery. For the voxelwise metabolic change assessment, thepvalue was controlled for multiple comparisons using the family wise error rate. Results After GPi-DBS surgery, patients showed a significant overall improvement in motor status. No cognitive or psychiatric changes were observed after surgery. Nor were any clusters with significantly relative metabolic changes found in the limbic circuit after surgery. Clusters with significantly relative metabolic changes were observed in the left and right Brodmann area (BA) 6, the right BA 9, the right and left BA 39 and the left BA 17. Conclusion The present study confirmed that GPi-DBS is an effective treatment in patients with advanced PD, owing to metabolic changes in the areas involved in motor execution. The absence of relative metabolic decrease in the limbic circuit and the few changes affecting the associative circuit could explain why GPi-DBS is cognitively safe.
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