Long-Term Efficacy and Safety of Chronic Globus Pallidus Internus Stimulation in Different Types of Primary Dystonia

Background: Deep brain stimulation (DBS) of the globus pallidus internus (GPi) offers a very promising therapy for medically intractable dystonia. However, little is known about the long-term benefit and safety of this procedure. We therefore performed a retrospective long-term analysis of 18 patients (age 12-78 years) suffering from primary generalized (9), segmental (6) or focal (3) dystonia (minimum follow-up: 36 months). Methods: Outcome was assessed using the Burke-Fahn-Marsden (BFM) scores (generalized dystonia) and the Tsui score (focal/segmental dystonia). Follow-up ranged between 37 and 90 months (mean 60 months). Results: Patients with generalized dystonia showed a mean improvement in the BFM movement score of 39.4% (range 0 68.8%), 42.5% (range -16.0 to 81.3%) and 46.8% (range-2.7 to 83.1%) at the 3- and 12-month, and long-term follow-up, respectively. In focal/ segmental dystonia, the mean reduction in the Tsui score was 36.8% (range 0-100%), 65.1% (range 16.7-100%) and 59.8% (range 16.7-100%) at the 3- and 12-month, and long-term follow-up, respectively. Local infections were noted in 2 patients and hardware problems (electrode dislocation and breakage of the extension cable) in 1 patient. Conclusion: Our data showed Gpi-DBS to offer a very effective and safe therapy for different kinds of primary dystonia, with a significant long-term benefit in the majority of cases. Copyright (c) 2008 S. Karger AG, Base

Effects of deep brain stimulation on prehensile movements in PD patients are less pronounced when external timing cues are provided

It has been repeatedly demonstrated that the movements of patients with Parkinson's disease (PD) are less impaired when external timing cues are provided. This suggests that the basal ganglia, which are impaired in PD, are less involved in the control of externally timed movements. In the present study, we tested this hypothesis by contrasting the effect of deep brain stimulation (DBS) in the basal ganglia (more precisely, the internal globus pallidum) on internally versus externally timed movements. Our first movement task was a standard prehensile task involving a reach-to-grasp movement. In the externally-timed condition, the target object was moving rapidly away from the subject; in the internally-timed condition, the target object was stationary. We found, that for most aspects of the prehensile movement the effect of DBS was less pronounced in the externally than in the internally timed condition. A similar reduction of the DBS effects in the externally-timed condition was also found for a second movement task, which required an isolated grasping movement. We conclude that the basal ganglia are significantly less involved in the control of externally timed movements