At a glance
ClinicalIndex Comparison RecordStandardized by ClinicalIndex from the ClinicalTrials.gov record · verify against the source.
Supraspinal Mechanisms Involved in Voiding Dysfunction.
In Brief
A clinical study evaluating Transcranial Rotating Permanent Magnet Stimulator (TRPMS) for Neurogenic Bladder and 2 related conditions. Completed, enrolled 11 participants across 1 site.
Detailed Summary
The goal of this study is to identify brain centers specifically associated with "initiation of voiding" in patients with neurogenic bladder dysfunction. Currently there is no study that has evaluated brain centers involved in initiation of voiding in patients with neurogenic voiding dysfunction. Patients with neurogenic bladder secondary to etiologies such as Multiple Sclerosis, Parkinson's disease, and Cerebrovascular accidents will be recruited in this study. Patients will be categorized into 2 groups, those who have trouble emptying their bladder and those who urinate appropriately. Our existing and unique functional magnetic resonance imaging (fMRI)/ urodynamics (UDS) platform is an ideal platform to identify brain regions involved in bladder emptying disorders as seen in patients with neurogenic bladder dysfunction and will be used for this study. After characterizing brain regions involved in bladder emptying, the investigator propose to use noninvasive transcutaneous magnetic stimulation in a subset of patients with voiding dysfunction in aim 3.
Study Details
Timeline
Interventions
TRPMS is a wearable non-invasive transcranial rotating permanent magnet stimulator. It has been determined to be a Non Significant Risk device by the FDA. The amount and frequency of therapy are prescribed by the physician, and the device is custom configured to the patient to deliver the required amount of treatment. The device does not turn on until it is time for the treatment. It consists of three main parts: Neoprene cap with microstimulator(s), stimulator console (device controller box) and the tablet with TRPMS app which activates the console. The neoprene cap prevents the microstimulator(s) from coming in direct contact with the scalp. Microstimulators deliver the magnetic stimulation to the brain based on a prescription program uploaded in the stimulator controller.