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Full-Text Articles in Rehabilitation and Therapy
Does Subthalamic Deep Brain Stimulation Impact Asymmetry And Dyscoordination Of Gait In Parkinson’S Disease?, Deepak K. Ravi, Christian R. Baumann, Elena Bernasconi, Michelle Gwerder, Niklas K. Ignasiak, Mechtild Uhl, Lennart Stieglitz, William R. Taylor, Navrag B. Singh
Does Subthalamic Deep Brain Stimulation Impact Asymmetry And Dyscoordination Of Gait In Parkinson’S Disease?, Deepak K. Ravi, Christian R. Baumann, Elena Bernasconi, Michelle Gwerder, Niklas K. Ignasiak, Mechtild Uhl, Lennart Stieglitz, William R. Taylor, Navrag B. Singh
Physical Therapy Faculty Articles and Research
Background. Subthalamic deep brain stimulation (STN-DBS) is an effective treatment for selected Parkinson’s disease (PD) patients. Gait characteristics are often altered after surgery, but quantitative therapeutic effects are poorly described. Objective. The goal of this study was to systematically investigate modifications in asymmetry and dyscoordination of gait 6 months postoperatively in patients with PD and compare the outcomes with preoperative baseline and to asymptomatic controls without PD. Methods. A convenience sample of thirty-two patients with PD (19 with postural instability and gait disorder (PIGD) type and 13 with tremor dominant disease) and 51 asymptomatic controls participated. Parkinson patients …
Gait And Balance Changes With Investigational Peripheral Nerve Cell Therapy During Deep Brain Stimulation In People With Parkinson’S Disease, Geetanjali Gera, Zain Guduru, Tritia R. Yamasaki, Julie A. Gurwell, Monica Chau, Anna Krotinger, Frederick A. Schmitt, John T. Slevin, Greg A. Gerhardt, Craig G. Van Horne, Jorge E. Quintero
Gait And Balance Changes With Investigational Peripheral Nerve Cell Therapy During Deep Brain Stimulation In People With Parkinson’S Disease, Geetanjali Gera, Zain Guduru, Tritia R. Yamasaki, Julie A. Gurwell, Monica Chau, Anna Krotinger, Frederick A. Schmitt, John T. Slevin, Greg A. Gerhardt, Craig G. Van Horne, Jorge E. Quintero
Physical Therapy Faculty Publications
Background: The efficacy of deep brain stimulation (DBS) and dopaminergic therapy is known to decrease over time. Hence, a new investigational approach combines implanting autologous injury-activated peripheral nerve grafts (APNG) at the time of bilateral DBS surgery to the globus pallidus interna. Objectives: In a study where APNG was unilaterally implanted into the substantia nigra, we explored the effects on clinical gait and balance assessments over two years in 14 individuals with Parkinson’s disease. Methods: Computerized gait and balance evaluations were performed without medication, and stimulation was in the off state for at least 12 h to best assess the …