14 Clinical Trials for Fecal Incontinence
This study evaluates the efficacy and safety of a single injection of iltamiocel (300 x 10\^6 cells) compared to a placebo in the reduction of fecal incontinence episode frequency in adult female participants with chronic fecal incontinence and a history of obstetric anal sphincter injury. Half of the participants will receive iltamiocel (injections with cells) and the other half will receive placebo.
Biofeedback therapy is an effective treatment for the management of patients with dyssynergic defecation and constipation, urinary incontinence (UI), and fecal incontinence (FI). It is labor-intensive, costly, requires multiple office or hospital visits, is not easily available to the vast majority of patients in the community, and is not covered by many insurance companies. The purpose of this study is to 1. Evaluate home biofeedback therapy for patients with either constipation and dyssynergic defecation or urinary leakage or stool leakage by assessing the efficacy and safety of a wireless anorectal biofeedback device, and a cellphone app-based and voice guided home biofeedback training system 2. To compare the efficacy and safety of home biofeedback therapy system with the standard of care, office biofeedback therapy 3. To assess the cost-effectiveness of home biofeedback therapy.
The objective is to determine the length-tension properties of the anal sphincters using Fecobionics in normal subjects and FI patients during anal distension and during simulated evacuation. Fecobionics has the consistency and shape of normal stool and can record pressures, cross-sectional area, orientation and viscoelastic properties of the anorectum and can map the geometric profiles during evacuation, and thereby provides multi-dimensional measurements of pressures, deformability, and topographic changes. Fecobionics combines several existing tests to provide novel insight into anorectal function. The purpose for the development was to overcome the technological controversies and disagreement between various tests and unphysiological test conditions. The aim was to imitate defecation as much as possible to the natural process. Fecobionics was developed to simulate stool and to provide the driving pressure and resulting deformations of stool along with a measure of an objective anorectal angle during defecation in a single examination. Fecobionics makes it possible to describe objectively, without disturbing the defecation process, the opening characteristics and pressure signatures during initial entry into the relaxing anal canal. The overall goal is to provide mechanistic understanding of defecation in health and defecatory disorders. It exceeds previous attempts to make artificial stool for evaluation of defecation (BET and FECOM) and integrates other technologies as well. It was designed to have a consistency and deformability of Type 4 (range type 3-5) on the Bristol stool form scale. The range from types 3-5 is found in 70% of normal subjects. A major novelty is that Fecobionics measures pressures in axial direction; i.e., in the flow direction.
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.
To regenerate functional anal sphincter muscle using muscle fiber fragments that contain muscle precursor cells (MPCs)
Fecal Incontinence (FI) affects 40 million Americans, predominantly women and elderly. It is a major health care burden, significantly impairs quality of life and psychosocial function. FI is characterized by multifactorial dysfunction including lumbosacral neuropathy, anorectal sensori-motor dysfunction, and abnormal pelvic floor-brain innervation. A critical barrier to progress in the treatment of FI is the lack of RCTs, absence of mechanistically based non-invasive therapies that modify disease, and a lack of understanding on how treatments affect pathophysiology of FI. Consequently, most current remedies remain ineffective. Our long-term goal is to address the problem of lack of effective treatments for FI by investigating treatments that modulate neuronal perturbations and thereby improve sensory and motor control, and to understand the neurobiologic basis of these treatments. Our central hypothesis is that a novel, non-invasive treatment consisting of Translumbosacral Neuromodulation Therapy (TNT), using repetitive magnetic stimulation, will significantly improve FI in the short-term and long-term, by enhancing neural excitability and inducing neuroplasticity. Our approach is based on compelling pilot study which showed that TNT at 1 Hz frequency, significantly improved FI, by enhancing bidirectional gut- brain signaling, anal sphincter strength and rectal sensation compared to 5 or 15 Hz. Our objectives are to 1) investigate the efficacy, safety and optimal dose of a new treatment, TNT, in a sham controlled, randomized dose-dependent study in 132 FI patients; 2) determine the mechanistic basis for TNT by assessing the efferent and afferent pelvic floor-brain signaling, and sensori-motor function; 3) identify the durability of treatment response and effects of TNT, and whether reinforcement TNT provides augmented improvement, by performing a long-term, sham controlled randomized trial. Our expected outcomes include the demonstration of TNT as a durable, efficacious, safe, mechanistically based, non-invasive, and low risk treatment for FI. The impact of our project includes a novel, disease modifying, non-invasive treatment, a scientific basis for this treatment, and improved understanding of the pathophysiology of FI and how TNT modifies bidirectional gut and brain axes and anorectal function. Ultimately, the knowledge generated by this project will provide new avenues for the development of innovative, evidence-based therapies for FI.
The overall objective of this study is to determine the effect of posterior tibial nerve stimulation (PTNS) on children with constipation due to pelvic floor dyssynergia. Our main hypothesis is that PTNS effectively treats children with constipation secondary to pelvic floor dyssynergia through modulation of anorectal function. We will perform a single-center, randomized controlled pilot study comparing PTNS to sham stimulation in children with constipation secondary to pelvic floor dyssynergia.
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.
Multicenter, prospective, non randomized, single arm evaluation of patients with overactive bladder (OAB) and/or fecal incontinence (FI) employing the Axonics recharge free SNM System.
Develop a registry (list of patients) with accurate clinical motility diagnosis. This registry will help the doctors to identify the patients with specific disease conditions. It will also help in promoting future research in gastroenterology motility disorders
Obstetric anal sphincter injuries (OASIS) cause significant morbidity and are well known risk factors for sexual dysfunction, urinary and anal incontinence. Postpartum and breastfeeding are relative hypoestrogenic states with risk factors for dyspareunia and vaginal atrophy. Estrogen deficiency results in changes in the vaginal epithelium and poor tissue quality which results in poor wound healing. For postmenopausal women with vaginal atrophy undergoing surgery for pelvic organ prolapse, early administration of topical vaginal E2 therapy resulted in improved markers of tissue quality. Currently, there are limited studies to reference for proposed treatment modalities to improve sexual function and incontinence in this population. In this proposed randomized, placebo-controlled trial, women who sustain OASIS will be recruited and randomized to begin intravaginal estrogen therapy or placebo at their 2-week follow-up visit after hospital discharge. Participants will complete validated questionnaires relating to sexual function and pelvic floor disorders (urinary and anal incontinence) symptom distress and impact. The primary outcome of this study will be sexual dysfunction symptom severity measured by the female sexual function index (FSFI) at 6 months postpartum. Secondary outcomes will be urinary and anal incontinence distress and impact measured by St. Mark's score and the fecal incontinence quality of life (FIQOL) questionnaire for anal incontinence and urogenital distress inventory (UDI-6) for urinary incontinence. The objective of this study is to determine if intra-vaginal estrogen therapy improves sexual function and incontinence symptom distress and impact for postpartum women after OASIS.
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.
The purpose of this study is to test whether electrical stimulation of the skin in the pelvic area (near the genitals) can reduce the reflexes that cause bowel accidents in people with spinal cord injuries. Current bowel treatments either involve diet and medications or surgery. This study will evaluate whether electrical stimulation can be an alternate option for bowel management. Researchers will: * Use an FDA approved Transcutaneous Electrical Nerve Stimulation (TENS) device off-label * Compare a target stimulation level to a placebo stimulation level Participants will: * Use electrical stimulation on the skin in the pelvic area for 6-8 hours each day for 4 weeks at home * Visit the research center 3 times to participate in exams and answer questions * Keep a daily diary of their bowel symptoms and stimulation times
This is a multi-center, randomized single-blind nonsurgical trial conducted in approximately 216 primiparous postpartum women at high risk for prolonged/sustained pelvic floor disorders with symptomatic, bothersome urinary incontinence (UI) amenable to nonsurgical treatment. TULIP is a 3-Arm trial with two active interventions (Arms 1 and 2) and a Patient Education control arm (Arm 3). Arm 1 consists of pelvic floor muscle training (PFMT). Arm 2 uses a home biofeedback device (leva®). The primary outcome will be assessed at 6 months postpartum by blinded outcomes assessors, and follow-up will continue until 12 months postpartum.