View clinical trials related to Neurogenic Bowel.
Filter by: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.
The investigators are testing the effect of electrical stimulation of the rectum on colonic motility. Most individuals with spinal cord injury develop neurogenic bowel dysfunction, which includes slowed colonic motility, which means that stools take longer than normal to pass through the colon. This slowed movement may result in chronic constipation and difficulty emptying the bowels. Individuals typically (without or without caregiver assistance) insert a gloved finger into the rectum and gently stretch it to improve colonic motility for a brief period to empty the bowels. The investigators hypothesize that electrically stimulating the rectum, instead of mechanically stretching it, will produce the same beneficial effect of improving colonic motility. Therefore, this study will compare the two methods. If electrical stimulation effectively improves colonic motility, then the investigator shall develop the approach as a therapeutic intervention in future studies.
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.
The purpose of the study is to assess the effects of exoskeleton training on neurogenic bowel disorders in spinal cord injury/ disease.
Spinal cord injury (SCI) disrupts many aspects of life, including the loss of volitional movement and involuntary control of bodily functions; both crucial functional recovery priorities for this population. Mobility impairments and secondary complications limit an individual's ability to exercise, a behavior known to have wide-ranging functional and health benefits. This trial will investigate whether activity-based therapy (ABT), using body-weight-supported treadmill training (BWSTT), can change the strength of signals from the brain that control volitional movement, leading to improvements in seated balance as well as other important involuntary bodily (i.e. cardiovascular, urinary tract, bowel and sexual) functions. The investigators aim to determine whether these improvements can be augmented with the addition of non-invasive transcutaneous spinal cord stimulation (TSCS). This therapy has been shown to re-awaken dormant spinal circuits. In this randomized controlled trial, TSCS with ABT, using BWSTT (three sessions/week for twelve weeks), will be compared to ABT+SHAM in individuals with chronic motor-complete spinal cord injury (SCI). Those in the ABT+SHAM group will be given the option to complete an ABT+TSCS open-label follow-up. Before and after training, the following outcomes will be assessed by validated methods: corticospinal excitability, motor function, and seated balance (Hypothesis 1 - Motor Function); severity and frequency of blood pressure instability, urinary tract, bowel, and sexual dysfunctions (Hypothesis 2 - Autonomic Functions); and general health (Hypothesis 3 - Quality of Life). This collaborative project is between consumers with SCI and clinicians/scientists with expertise in SCI care (kinesiologists, physiotherapists, physiatrists, sexual health clinicians). Compared to ABT alone, the investigators anticipate that ABT+TSCS will result in superior improvements in motor and autonomic functions in individuals with SCI.
A randomized, superiority, controlled, interventional, prospective, multicentre, post-market study of TAI with Navina™ Smart versus Standard Bowel Care performed in a population of 92 subjects suffering from Multiple Sclerosis and confirmed Neurogenic Bowel Dysfunction. The study is expected to last for a total of 8 weeks per subject with two scheduled site visits.
Recent findings have demonstrated that electrical stimulation to the spinal cord (i.e. implanted electrodes) can significantly recover bladder, bowel, and sexual function after injury. While promising, a major drawback is that individuals must undergo a highly invasive and expensive surgical procedure to implant the stimulator on top of the spinal cord. Moreover, the inability to re-position the implanted stimulator considerably limits the flexibility of this procedure. In this project, the investigators propose a comprehensive clinical study examining the effects of TCSCS in promoting recovery of these crucial functions in individuals with spinal cord injury (SCI). This non-invasive therapeutic modality uses electrodes applied over the skin to deliver electrical stimulation. It is based on the same principles of ground-breaking work from the investigator's group and others, showing that stimulation of the spinal cord can promote motor and autonomic (cardiovascular, bladder, bowel) recovery in individuals with chronic SCI.
A well-managed bowel program is an essential part of daily life for many people with a SCI. Nevertheless, constipation is frequently reported (42-95%). Constipation embraces a spectrum of harms including both physical & psychological distress. Initial exploratory studies suggest abdominal FES may be useful for decreasing overall bowel management time, decreasing colonic transit time and reducing discomfort. The current study will seek to reproduce previous findings in a 12 week study, using overall bowel management time as a benchmark for establishing proof of principle. The study will include 36 people with a spinal cord injury aged 18 and over with an above T12 injury, a complete or incomplete lesion in a medically stable condition, one year or more after injury. Participants will be randomised into two groups. One group will receive abdominal electrical stimulation and the other group low dose abdominal electrical stimulation. Participants will be asked to keep a bowel diary and complete questionnaires examining quality of life and bowel management.
People affected central nervous system (CNS) diseases often suffer from neurogenic bowel dysfunction (NBD) that causes a reduction in the quality of life and participation in social life. Although some conservative approaches exist to treat NBD, none has shown to be effective in managing this complex condition. Osteopathic manipulative treatment (OMT) has shown to be efficient in CNS diseases such as epilepsy and migraine. This randomised trial aims at evaluating the efficacy of osteopathic manipulative treatment (OMT) in supporting the management of NBD. The research will be conducted at the outpatient service of Neuro-Urology / Spinal Unit of the Città della Salute e della Scienza Hospital of Torino. A sample of 62 participants will be divided into two groups: standard (nursing intervention) and experimental (nursing intervention and OMT). A neuro-urologist will determine the eligibility for the study. The outcomes will include self-reported and instrumental measures that will be evaluated in 3 times (before, at the end of the intervention and the follow- up three months). The protocol has been approved by the Ethics Committee of the Città della Salute e della Scienza Hospital of Torino on 15.04.2019, protocol number 0040534. The standard intervention has been scheduled for 28.10.2019.
Bowel dysfunction is consistently rated as one of the most common complications affecting daily life for individuals with spinal cord injury. The overall objective of this study is to investigate whether the use of specific spinal cord epidural stimulation will affect bowel function. This study will also examine how alterations in bowel function influence quality of life outcomes. The results of this study may aid in the development of treatments to help individuals with spinal cord injuries that have impaired bowel function.