Jorge Gonzalez-Martinez
Jorge Gonzalez-Martinez
In this study the investigators aim to enroll patients scheduled to undergo deep brain stimulation (DBS) implantation for movement disorders for intra-operative testing. In addition to standard-of-care surgical procedure to implant deep brain stimulation electrode leads, participants will also be stimulated and recorded from cortical areas by a temporary strip electrode (1X6) in the subdural space. The electrodes will be connected to external stimulators and a series of experiments will be performed to assess effects of the DBS on movement quality and electrophysiology measures. Results of this study will elucidate the biological mechanisms related to deep brain stimulation in modulating motor and speech function in patients with abnormal movement disorders.
Movement Disorders (Incl Parkinsonism)
Stroke
Traumatic Brain Injury
Brain Diseases
Parkinson Disease
Essential Tremor, Movement Disorders
Direct cortical stimulation and deep brain stimulation of motor thalamus
NA
In this study the investigators aim to enroll patients for intra-operative testing. Specifically, the investigators will recruit patients already undergoing DBS implantation for movement disorders. In addition to standard-of-care subcortical mapping using micro-electrode recording (MER) and macro-stimulation mapping during DBS placement, cortical local field potentials (LFPs) will be simultaneously recorded from primary motor (M1) and somatosensory (S1) cortical areas by placement of a temporary strip electrode (1X6) in the subdural space. Appropriate localization of this grid over M1 and S1 will be confirmed by the so-called phase-reversal of somatosensory evoked potentials (SSEPs). Once M1 is localized, the strip electrode over M1 will be used to produce motor evoked potentials to contralateral hand muscles from direct cortical stimulation (DCMEPs). The stimulation threshold of the DCMEPs will be used as a direct measure of the excitability of the cortical spinal tract and compared with and without stimulation of the VOP/VIM nuclei. Cortical and subcortical LFPs will be obtained alongside electromyographic (EMG) data while the patient performs contralateral upper extremity movement tasks measuring velocity, grip strength, and strength modulation and while the patient perform a variety of articulation exercises. Along with the DCMEP stimulation thresholds, these parameters of motor output will be obtained both with and without VOP/VIM stimulation to assess for stimulation induced potentiation of motor output.
| Study Type : | INTERVENTIONAL |
| Estimated Enrollment : | 60 participants |
| Masking : | NONE |
| Primary Purpose : | BASIC_SCIENCE |
| Official Title : | VOP/VIM Direct Electrical Stimulation Increases Motor Cortex Excitability and Motor Output |
| Actual Study Start Date : | 2022-12-16 |
| Estimated Primary Completion Date : | 2026-12-31 |
| Estimated Study Completion Date : | 2030-12-31 |
Information not available for Arms and Intervention/treatment
| Ages Eligible for Study: | 18 Years to 75 Years |
| Sexes Eligible for Study: | ALL |
| Accepts Healthy Volunteers: |
Want to participate in this study, select a site at your convenience, send yourself email to get contact details and prescreening steps.
RECRUITING
University of Pittsburgh
Pittsburgh, Pennsylvania, United States, 15213