View clinical trials related to Neurogenic Bladder.
Filter by:Overactive bladder (OAB) affects 12-30% of the world's population. The accompanying urinary urgency, urinary frequency and incontinence can impair the ability to work, interact in social activities and can result in poor social functioning. Multiple treatment modalities are available for overactive bladder. However, each therapy has drawbacks that limit its application in certain patient populations. For example, oral medications have significant side effects and suffer from poor adherence. Botulinum toxin injection into the bladder wall is invasive, requires re-treatment on a regular basis and carries a risk of urinary retention. Current neuromodulatory techniques are invasive and require highly-specialized care. Therefore, a need exists for a non-invasive, well-tolerated and easily administered therapy for OAB. Transcutaneous spinal cord stimulation (TSCS) has been developed and tested in able bodied individuals to initiate locomotor function as well as in the SCI population for lower extremity and upper extremity function. More recently, we have tested this SCI patients to enable lower urinary tract function and decrease detrusor overactivity, resulting in improved continence.
The objective of this study is to evaluate the safety and essential performance of the C2P System in males with neurogenic lower urinary tract dysfunction (NLUTD), both in an acute clinical setting and an extended period of home use.
We propose to test the hypothesis that cognition will improve with substitution of mirabegron for the anticholinergic agent (AC) in elderly persons with spinal cord injury (SCI) who require neurogenic bladder (NGB) treatment.
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.
This is an interventional study examining the effects of closed diurnal indwelling catheterization (CDIC) for neurogenic bladder management.
Bladder dysfunction is one of the most important factors influencing duration and quality of life in children with spinal cord injury. Effective bladder control comprises a major aspect of a child's life with SCI and is especially challenging due to the rapid changes in a child's physical and cognitive development. Urological consequences secondary to a neurogenic bladder are responsible for many clinical complications post-spinal cord injury, including repeated urinary tract infections, autonomic dysreflexia, lifelong urologic care, and many hospitalizations. Alternative approaches to bladder management that focus on recovery of function and age-appropriate independence are needed. Prior research findings in our lab in adult participants indicate a benefit of locomotor training on bladder function. The purpose of this study is to determine with quantitative unbiased urodynamic outcome measures if locomotor training, provided to children with spinal cord injury, impacts the developing urinary system.
Patients with neurogenic bladder need periodic evaluation with urodynamic study, a invasive and uncomfortable procedure. Aim: To evaluate the accuracy of dynamic ultrasonography as a feasible and noninvasive alternative diagnostic method to identify detrusor overactivity in patients with neurogenic bladder
A non-randomized study evaluating the efficacy of intravesical gentamicin on the occurrence rate of urinary tract infections and bladder complications in patients after spinal cord injury (SCI), and to assess its effectiveness in promoting overall quality of life (QOL), community living, and participation.
The changes in bladder function after the injection of Onabotulinum toxin into the detrusor in individuals with neurogenic bladder overactivity will be investigated retrospectively. The records of all patients treated with Onabotulinum toxin injections into the detrusor since 2000 will be evaluated. The changes in the urodynamic values after the injection of 300 units of Onabotulinum toxin will be compared with the changes after the injection of 200 units. Furthermore, the differences in urinary continence, duration between injections, side effects and complications between the two groups will be investigated.
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.