6 Clinical Trials for Various Conditions
The purpose of this study is to determine the influence of intravesical (bladder) electrical stimulation and intraurethral electrical stimulation on bothersome symptoms and bladder function in neurologically-intact adult women with underactive bladder. The investigators hypothesize that electrical stimulation will decrease bothersome urinary symptoms relative to baseline and increase voided percentage during pressure-flow studies compared to their routine clinical exam.
Millions of Americans are suffering from underactive bladder (UAB). The impact of severe UAB, i.e. non-obstructive urinary retention (NOUR) on quality of life is significant because current treatment for non-obstructive urinary retention requires intermittent self-catheterization or an indwelling suprapubic catheter. Currently an effective drug for non-obstructive urinary retention does not exist. It is a therapeutic challenge for clinicians to successfully treat non-obstructive urinary retention. Sacral neuromodulation has been approved by the FDA since 1999 to treat non-obstructive urinary retention. It achieves \>50% improvement in bladder emptying (reducing the frequency of self-catheterization or increasing voided volume) in just over half of the patients. Sacral neuromodulation requires surgical implantation of a stimulator and a lead with 4 electrodes. The surgery and implant are invasive and expensive, preventing a broad application of this effective therapy to many non-obstructive urinary retention patients. The goal of this study is to develop a novel non-invasive neuromodulation therapy for non-obstructive urinary retention as an alternative. Specifically, the investigators will explore the possibility to translate into humans a recent discovery in cats of an excitatory reflex from the superficial peroneal nerve to the bladder to treat non-obstructive urinary retention. Therefore, in this study the investigators propose to develop a non-invasive, transcutaneous neuromodulation therapy for non-obstructive urinary retention that can be administered at home.
This is a prospective, open-label, Phase 1, single center study evaluating the safety and efficacy of Autologous Muscle Derived Cells as a treatment for chronic Underactive Bladder.
This study seeks to examine the response of the bladder to different pudendal nerve stimulation frequencies, by studying patients who have been previously-implanted with pudendal nerve neurostimulators.
This study is to map the pudendal nerve. In this study the researchers will examine subjects who are already receiving an implanted stimulator at their pudendal nerve as part of their normal clinical care.
Deep brain stimulation (DBS) is a neurosurgical procedure using a device that improves motor symptoms of specific neurological and movement disorders such as Parkinson's disease or Essential Tremor. As part of the patient's care, the DBS is implanted when symptoms cannot be satisfactorily controlled with medications or conventional therapies. Lower urinary tract symptoms are common in patients who have underlying neurological or movement disorders and control over lower urinary tract function is poorly understood. In this study investigators are evaluating the effects of DBS on lower urinary tract function.