1. Alleviation of off-period dystonia in Parkinson disease by a microlesion following subthalamic implantation
- Author
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Didier Hannequin, Michelle Desbordes, David Maltête, Nathalie Chastan, Emmanuel Gerardin, Romain Lefaucheur, and Stéphane Derrey
- Subjects
Dystonia ,0303 health sciences ,medicine.medical_specialty ,business.industry ,General Medicine ,Disease ,Neurological disorder ,medicine.disease ,nervous system diseases ,Surgery ,Central nervous system disease ,03 medical and health sciences ,Subthalamic nucleus ,0302 clinical medicine ,Degenerative disease ,Rating scale ,medicine ,In patient ,business ,030217 neurology & neurosurgery ,030304 developmental biology - Abstract
Object A collision/implantation or microlesion effect is commonly described after subthalamic nucleus (STN) implantation for high-frequency stimulation, and this is presumed to reflect disruption of cells and/or fibers. Off-period dystonia, a frequent cause of disability in patients with advanced Parkinson disease, can lead to the need for surgical treatment. The authors assessed the early effect of this microlesion on off-period dystonia. Methods The authors assessed 30 consecutive patients with the advanced levodopa-responsive form of Parkinson disease. The patients' symptoms were Hoehn and Yahr Scale score ≥ 3, the mean duration of their disease was 11.4 ± 3.5 years, and they had undergone bilateral implantation of electrodes within the STN for high-frequency stimulation between February 2004 and December 2006. The microlesion effect was defined by the clinical improvement (Unified Parkinson's Disease Rating Scale [UPDRS] Part III score, UPDRS Part IV, item 35) assessed the morning of the 3rd day following STN implantation, after at least a 12-hour withdrawal of dopaminergic treatment and before the programmable pulse generator was switched on (off-drug/off-stimulation mode). Results Compared with baseline (off state), the microlesion effect improved the motor score (UPDRS Part III) by 27%. Subscores for tremor, rigidity, and bradykinesia respectively improved by 42, 37, and 25%. Nineteen patients (63%) suffered from off-period dystonia before surgery. Twelve (41%) reported complete relief of their symptoms in the immediate postoperative period and remained free of painful off-period dystonia throughout the 6-month follow-up period. Conclusions The author postulated that off-period dystonia alleviation may reflect both a microsubthalamotomy and micropallidotomy effect. They hypothesize, moreover, that the microlesion could play a role in the 6-month postoperative outcome.
- Published
- 2010