31 Clinical Trials for Various Conditions
The target population of this study is children with primary or secondary daytime urinary incontinence, who have failed to improve adequately despite compliance with at least 6 months of standard medical therapy. The study hypothesis is that patients who under go cutting the filum terminale - the string-like lower end of the spinal cord - will have improved bladder function at 6-month follow up. Bladder function and its effects on quality of life will be measured before surgery and at 6-month follow up.
This is a first-in-human, Phase 1b/2a, open-label, dose-escalation study of a single treatment course consisting of multiple intradetrusor injections of EG110A in male and female adult participants with Neurogenic Detrusor Overactivity (NDO)-related incontinence following Spinal Cord Injury (SCI), who have persistent incontinence after standard of care therapy and who perform Clear Intermittent Catheterization (CIC) on a regular basis.
This study will evaluate the long-term safety and efficacy of onabotulinumtoxinA (botulinum toxin Type A; BOTOX®) for the treatment of urinary incontinence due to neurogenic detrusor overactivity in participants who successfully completed Study 191622-120 (NCT01852045).
This study will evaluate the 3 doses of onabotulinumtoxinA (botulinum toxin Type A) for the treatment of urinary incontinence due to neurogenic detrusor overactivity in pediatric participants between the ages of 5 to 17 years to determine if 1 or more doses were safe and effective.
This study will evaluate the safety and efficacy of OnabotulinumtoxinA (BOTOX®) for the treatment of urinary incontinence due to NDO in non-catheterizing patients with MS.
The purpose of this study is to provide confirmatory evidence of the safety and efficacy of two Dysport® (AbobotulinumtoxinA) doses (600 units \[U\] and 800 U), compared to placebo in reducing urinary incontinence (UI) in adult subjects treated for neurogenic detrusor overactivity (NDO) due to spinal cord injury (SCI) or multiple sclerosis (MS).
Subjects with non-neurogenic over-active bladder will be enrolled. The hypothesis is that augmentation cystoplasty using an autologous neo-bladder construct will increase functional capacity and thereby reduce the number of micturition episodes per day in subjects with non-neurogenic over active bladder and urge predominant incontinence.
Bowel issues occur in nearly all people after spinal cord injury (SCI) and one major complication is fecal incontinence (accidents). This complication has been repeatedly highlighted by people living with SCI as particularly life-limiting and in need of more options for interventions. This study will test the effect of genital nerve stimulation (GNS), with non-invasive electrodes, on the activity of the anus and rectum of persons after SCI. Recording anorectal manometry (ARM) endpoints tells us the function of those tissues and our study design (ARM without stim, ARM with stim, ARM without stim) will allow us to conclude the GNS effect and whether it is likely to reduce fecal incontinence. The study will also collect medical, demographic, and bowel related functional information. The combination of all of these data should help predict who will respond to stimulation, what will happen when stimulation is applied, and if that stimulation is likely to provide an improvement in fecal continence for people living with SCI.
Incontinence associates with military service and post-traumatic stress disorder in both male and female Veterans. Neurogenic detrusor overactivity (NDO) is caused by spinal cord injury or disorder, or peripheral neurodegenerative conditions, and causes urine leakage at low volumes. NDO is disproportionately experienced by Veterans and treatment effectiveness varies greatly between individuals. This project will demonstrate the feasibility of a new type of nerve stimulation-triggered sacral neuromodulation-to treat NDO in Veterans. A wireless bladder sensor will be inserted into the bladder to transmit a feedback signal enabling stimulation from a percutaneous lead. The wireless sensor will also measure NDO symptoms during simulated activities of daily living without catheters. Catheter-free detection of bladder activity will improve the outcomes of neuromodulation evaluations for Veterans with NDO. Future work could use the triggered neuromodulation system to study other methods of nerve stimulation to treat bladder, bowel, or sexual dysfunction.
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 basic nerve deficit of Parkinson's disease (PD) leads to lower urinary tract symptoms of frequency, urgency and urge urinary incontinence. Lower urinary tract symptoms tend to occur at more advanced stages of PD. In the over-65 year old age group, where 1% of men suffer from this disease, they are also prone to development of benign prostatic hyperplasia (BPH) and consequent associated lower urinary tract dysfunction. Similarly the over 65-year age group develop spontaneous overactive bladder up to a prevalence of 30% of both men and women. The urologic disorder is exceedingly devastating in reducing the quality of life in these individuals due to the lower urinary tract symptoms and ultimate urinary incontinence in a high proportion of patients. While attempts at pharmacologic treatment are partially satisfactory many patients are intolerant of oral drugs. Botulinum-A neurotoxin (BTX-A) has been shown in pilot trials to be quite effective in reducing overactive bladder symptoms and is specifically beneficial for a wide-variety of neurogenic bladder causes of over activity . The treatment procedure of injecting the detrusor muscle of the bladder with BTX-A is quite simple, does not impose significant risks to the patient, and can be performed as an office urologic procedure. This pilot clinical trial intends to demonstrate the safety and efficacy of low-dose Botox-A injections into the bladder to improve urinary symptoms in 20 patients.
NXT Urodynamics System Post-Market Clinical Follow-up Clinical Investigation to Confirm Ongoing Safety and Performance in Urodynamic Patient Sub-Populations
Individuals with spinal cord injury (SCI) develop neurogenic detrusor overactivity (NDO), resulting in urinary incontinence, decreased bladder capacity, and reduced quality of life. Current treatments incompletely address the problem and have unwanted side effects. Therefore, an alternative approach is needed. Electrical stimulation of the genital nerves (GNS) can inhibit NDO, improving bladder capacity and urinary continence. However, an automated closed-loop bladder feedback system, which currently does not exist, is necessary for individuals with SCI and NDO to utilize this therapy. The researchers have developed a custom algorithm to detect bladder contractions in real time, which requires only a bladder pressure signal. Our collaborators have developed a wireless, catheter-free bladder pressure sensor, called the UroMonitor, that was recently approved for testing in human participants. The goal of this project is to evaluate the potential feasibility and effectiveness of automated closed-loop GNS to inhibit unwanted bladder contractions using our custom algorithm and the wireless UroMonitor sensor. This project represents the next logical step toward improving or restoring bladder control using existing or emerging approaches to meet an important need for individuals with SCI. Successful completion of this project will motivate advancing a closed-loop approach using our custom algorithm and wireless bladder pressure sensor.
This observational research study aims to build a multinational electronic patient-reported outcomes (ePRO) registry of adult end users in outpatient and community settings using intermittent catheter(s) to void via the urethra to manage urinary retention and incomplete bladder emptying. Research participants will be asked to self-report on various attributes of their currently prescribed intermittent catheters and other various aspects of using an intermittent catheter.
This study will incorporate critical cross viscero-visceral intersystem interactions to 1) investigate in a controlled laboratory setting and then with mobile at-home monitoring the extent, severity, and frequency of occurrence of autonomic dysreflexia with respect to daily bladder and bowel function, in conjunction with identifying potential underlying mechanisms by examining urinary biomarkers for several specific vasoactive hormones, and 2) to regulate cardiovascular function therapeutically as part of bladder and bowel management using spinal cord epidural stimulation.
Bladder spasms after spinal cord injury (SCI) can result in incontinence, urinary tract infections, kidney damage, trigger dangerous increases in blood pressure and decrease independence and quality of life. The investigators' long-term goal is to develop and provide a "bladder pacemaker" able to restore bladder continence for Veterans with SCI. Electrical stimulation of sensory nerves can stop bladder spasms during a doctor visit. However, this approach has not been tested during long term home use. This proposal will 1) determine how well sensory stimulation reduces incontinence and improves quality of life for Veterans with SCI during 1 year of home use, and 2) produce an effective take home system that can be used by more Veterans and other VAs.
The investigators goal is to create a better understanding of patient reported outcomes for bladder management strategies (clean intermittent catheterization (CIC), indwelling catheter (IDC) and bladder surgery.
There is a surgical procedure to help children with intractable fecal incontinence gain continence for stool through construction of a tube that connects the abdominal wall to the colon near or through the appendix. This tube allows easy administration of enema solution into the first part of the colon. Putting enema solution through that tube into the colon is called an antegrade continence enema (ACE) and has been shown to work well in helping some but not all children prevent stool accidents. The purpose of this study is to compare a large volume ACE flush using a salt water solution called normal saline with a small volume ACE flush using liquid glycerin. The aims of this study are to: 1) find the most effective dose and flush frequency of each solution needed to prevent stool accidents; 2) compare which solution given at the best dose has the least side effects and 3) to determine if administration of either of the ACE flushing solutions causes electrolyte abnormalities or affects colon health.
This is a two-part study in which Part A will assess the effects of GW679769 after 1 dose on the function of the nerves that supply the bladder. The technique for measuring the nerves function is called Neurometry. Part B will assess the effect of repeat doses of GW679769 on the bladder nerve function. Part B will also assess the effects of the drug on overactive bladder symptoms using a three-day patient diary.
The purpose of our study is to evaluate the efficacy and safety of different volumes of bladder-numbing medication for pain relief at the time of office bladder Botox injections. This is a randomized prospective, double-blind superiority trial comparing 200 ml 2% lidocaine versus 30 ml 2% lidocaine for office Botox injections.
To determine a lower effective dose of neostigmine to induce bowel evacuation by transcutaneous administration by iontophoresis.
Persons with spinal cord injury (SCI) have neurogenic bowel disorders which is associated with significant morbidity. The negative impact of bowel complications is often at the top of the list of problems reported by persons with SCI. Despite the magnitude of the problem of bowel dysfunction in persons with SCI, and the associated reduction in quality of life, this condition has yet to be effectively treated. The investigators have developed a novel dual drug combination to elicit a safe and predictable bowel evacuation (BE). The ability to move the bowel contents along to the rectum was severely impaired primary because of poor gut contractions on the left side of the colon, as shown by our team of investigators. To address this problem, a dual medication combination (neostigmine and glycopyrrolate) was developed that safely and predictably caused the bowel to empty after delivering these drugs into a vein (intravenously) or into the muscle bed (intramuscularly). Because no one likes needles, and because of the practical limits of administering medications on a routine basis by the use of needles, especially in persons with SCI because of their other health considerations, the investigators have devised a new approach: driving these medications across the skin and into the circulation of the body by applying an electrical current that is too small to feel (iontophoresis). The proposed research project to determine the safety of positively charged compounds (e.g., vitamin B12, NEO, and GLY) administered transcutaneously by the prototype wireless ION device and to compare the pharmacokinetic profiles of transcutaneous administration of NEO and GLY by the wireless ION device to a commercially available wired ION device. The potential administration of any number of other positively charged agents by this wireless prototype may be a clinically relevant outcome of this work. The ability to use a wireless ION device is far more practical for patients to use, especially those with SCI, which will permit the self-administration of these agents in the home setting to induce a bowel evacuation.
This is a single-centered, prospective, longitudinal, observational cohort study of patients with MS who suffer from lower urinary tract symptoms (LUTS) and are refractory to two prior treatment modalities who have elected to pursue PTNS therapy for LUTS.
A group of 6 able-bodied healthy volunteers will receive Neostigmine (NEO) and Glycopyrrolate (GLY) intravenously and via 2 methods of Iontophoresis (ION): one-patch and two-patch administration, with subsequent blood draws over 1 hour in order to measure the pharmacokinetic behavior of the drugs in-vivo.
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.
The purpose of this study is to see what effects sacral neuromodulation has on bladder function and quality of life in patients with acute spinal cord injury. Within 12-weeks of injury, participants will either receive an implanted nerve stimulator (like a pace-maker for the bladder) or standard care for neurogenic bladder. Patients will be assigned to one of these groups at random and followed for one year. The hypothesis is that early stimulation of the nerves will help prevent the development of neurogenic bladder.
The purpose of this prospective research study is to evaluate higher neural changes following intradetrusor injection of Botulinum toxin-A (BTX-A) in patients with Multiple Sclerosis (MS). Concurrent Urodynamic and Functional Magnetic Resonance (fMRI) data will be recorded pre- and post- intravesical injection of BTX-A in patients with Multiple Sclerosis (MS) and neurogenic detrusor activity (NDO). Other objectives are to evaluate the role of urinary biomarkers such as brain-derived neurotropic factor (BDNF) and nerve growth factor (NGF) associated with bladder overactivity and, to determine whether the common validated urgency questionnaires correlate with fMRI findings and urinary biomarker concentration pre- and post- BTX-A injection in patients with MS and NDO.
This study aims to improve continence and voiding of patients with spinal cord injury using electrical stimulation. The Finetech Vocare Bladder System is an implantable sacral nerve stimulator for improving bladder and bowel function in patients with spinal cord injury (SCI). It has been commercially available in Britain and other countries since 1982, and has been used in thousands of patients with SCI to improve bladder, bowel and sexual function. It received FDA approval in 1998 under Humanitarian Device Exemption H980005 and H980008 for providing urination on demand and to aid in bowel evacuation. Electrical stimulation to produce bladder contraction and improve bladder voiding after spinal cord injury has usually been combined with cutting of sensory nerves to reduce reflex contraction of the bladder, which improves continence. However, cutting these nerves has undesirable side effects. This study will not cut any sensory nerve. This study is testing the use of the stimulator for inhibiting bladder contraction by stimulating sensory nerves to improve continence after spinal cord injury, and for blocking sphincter contraction to improve voiding.
The purpose of this study is to test whether using belladonna \& opiate suppositories (B\&Os) can improve patient discomfort during Onabotulinumtoxin A (BoNT) injection into the bladder for treatment of overactive bladder, neurogenic detrusor overactivity, or interstitial cystitis.
An injury to the spinal cord results in a number of secondary medical problems, including the inability to voluntarily control the bowels. Depending on the severity and location of the injury, remaining bowel function differs, and can include any combination of the following: constipation (prolonged stool retention), difficulty with evacuation (difficultly moving bowels), fecal incontinence (problems retaining stool until it is appropriate to move the bowels). Most of the current medications and treatment options address problems of constipation and difficulty with evacuation, but there are few options for individuals who suffer from incontinency. In this study, the investigators propose to study, in detail, anorectal muscle function in individuals with spinal injury - the investigators will do so using new technology called high resolution manometry - which will present the investigator with a 3 dimensional representation of the pressure profile of the anorectal muscles as the subject attempts different maneuvers. A subgroup with representatives of all levels and completeness of injury and anorectal muscle function will be enrolled to participate in six weeks of biofeedback training to see if their bowel function can be improved. During these six weeks, the subjects will be asked to visit the laboratory twice a week in order to be trained by the research team on how to improve their anorectal strength and function in response to visual cues. After the six weeks, another manometry study will be performed. Subjects will then be sent home and asked to perform a series of home exercises for another 6 weeks, after which they will asked to return for a third and final manometry study.