Effects of Pallidal Deep Brain Stimulation Location on Motor Impairment in Parkinson's Disease; Udall Project 2 Aims 1 & 2
概览
- 阶段
- 不适用
- 干预措施
- Deep Brain Stimulation
- 疾病 / 适应症
- Parkinson's Disease
- 发起方
- University of Minnesota
- 入组人数
- 24
- 试验地点
- 1
- 主要终点
- Changes in the combined elastic, viscous and inertial resistance across conditions will be assessed by integrating the resistive torque
- 状态
- 招募中
- 最后更新
- 3个月前
概览
简要总结
This protocol will characterize the effects of deep brain stimulation (DBS) location (both adverse and beneficial) on motor signs in people with Parkinson's disease (PD). This information can be used to inform future DBS protocols to tailor stimulation to the specific needs of a patient. If targeted dorsal GP stimulation is shown to significantly improve motor features that are typically resistant to dopamine replacement therapy, these experiments will likely have major impact on clinical practice by providing a potential strategy to these medically intractable symptoms.
研究者
Colum MacKinnon
Principal Investigator
University of Minnesota
入排标准
入选标准
- •diagnosis of idiopathic PD
- •have undergone neurosurgery to implant deep brain stimulators in the globus pallidus (GP DBS) or subthalamic nucleus (STN)
- •Existing 7T brain imagery
排除标准
- •history of musculoskeletal disorders that significantly affect movement of the upper or lower limbs
- •other significant neurological disorder
- •history of dementia or cognitive impairment as found with UBACC (or MacCAT-CR)
- •post-operative complications or adverse effects
研究组 & 干预措施
Parkinson's disease with DBS
Participants will have a diagnosis of idiopathic PD and have undergone/will undergo neurosurgery to implant deep brain stimulators in the globus pallidus (GP DBS) or subthalamic nucleus (STN)
干预措施: Deep Brain Stimulation
结局指标
主要结局
Changes in the combined elastic, viscous and inertial resistance across conditions will be assessed by integrating the resistive torque
时间窗: 3 weeks
Average movement rate and amplitude for each tone rate-movement amplitude interval. The amount of variability in angular displacement and velocity will be calculated using the root mean square of the zero mean signal. The structure of the variability will be calculated using the sample entropy function. In addition, we will quantify the number and duration of movement festination or freezing episodes.