View clinical trials related to Urinary Bladder, Neurogenic.
Filter by:The Connected Catheter is a fully internal, urethral indwelling urinary prosthesis designed for improved bladder management in males with urinary retention disorders requiring catheterization. It is a sterile, extended-use device that resides fully internally to the male lower urinary tract for an intended use life of up to 7 days per catheter.
The Connected Catheter is a fully internal, urethral indwelling urinary prosthesis designed for improved bladder management in males with urinary retention disorders requiring catheterization. It is a sterile, extended-use device that resides fully internally to the male lower urinary tract for an intended use life of up to 7 days per catheter.
The Uroshield device is a commercially available device with two parts: a disposable actuator which attaches to the external portion of the catheter and a portable battery. The device sends out low-frequency ultrasound waves which run along the surfaces of the catheter. These acoustic waves prevent bacteria from adhering to the catheter and prevent the formation of biofilm. Our objective is to conduct a pilot study to determine if the UroShield device can reduce bacteriuria and catheter biofilm formation among neurogenic bladder patients with an indwelling catheter, as well as improve urinary quality of life and symptoms.
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.
Many patients with neurological diseases suffer from neurogenic lower urinary tract dysfunction (NLUTD), which often severely impairs quality of life, due to urinary urgency with or without incontinence and voiding dysfunction. In addition, the upper urinary tract may be jeopardized because of high intravesical pressure caused by detrusor overactivity with concurrent detrusor-sphincter-dyssynergia and/or low bladder compliance. The treatment of NLUTD is a challenge since conventional conservative therapies often fail and more invasive treatments such as intradetrusor onabotulinumtoxinA injections, bladder augmentation and urinary diversion have to be considered. Neuromodulation therapies including tibial nerve stimulation (TNS) may be alternative non-invasive treatment options. Indeed, TNS is an effective and safe treatment for idiopathic overactive bladder proven in randomized controlled trials (RCTs), but its value in neurological patients is unclear. In a recent systematic review, the investigators found evidence that TNS might become a promising treatment option for NLUTD, however, more reliable data from well-designed RCTs are urgently needed to reach definitive conclusions. However, the investigators study will be the first adequately sampled and powered, randomized, placebo-controlled, double-blind trial assessing transcutaneous TNS (TTNS) for NLUTD. This trial will provide significant insights into the efficacy of TTNS in patients suffering from NLUTD and in the case that this treatment is really effective in the neurological population, the investigators findings would completely revolutionize the management of NLUTD in daily clinical practice. Moreover, this interdisciplinary trial will relevantly influence the neurological and urological approach in the management of NLUTD promoting future collaborative projects improving patients' medical care and underlying the pioneering role of Switzerland in the rapidly developing and ambitious research field of neuro-urology.
The proposed study is a randomized, double blind placebo controlled multicenter study to determine the effectiveness of mirabegron in the treatment of neurogenic bladder dysfunction. Patients will be randomized into one of two trial arms: mirabegron 25mg for two weeks, with escalation to 50mg for the remaining 8 weeks, or matched placebo capsule for two weeks, with placebo escalation for the remaining 8 weeks. Each of these trial arms will be stratified based on whether the patient is already taking an anticholinergic medication or not. The study will treat a total of 144 patients (72 with placebo, 72 with mirabegron). The study hypothesis is that mirabegron will result in a statistically superior (increased) urodynamic bladder capacity. The study duration is 12 weeks, with a 1-4 week run in period where no active or placebo treatment will be administered. The primary outcome measure will be based on an increase in urodynamic bladder capacity. Secondary outcome measures will be additional urodynamic parameters, urinary symptom scales, urinary quality of life indices, and voiding diary results. Patients who are over 18 years of age with a diagnosis of multiple sclerosis (MS) or spinal cord injury (SCI) will be eligible to participate. All eligible patients will have urodynamic studies performed within 4 weeks of trial enrollment, and at the end of study (week 9-10). Adverse events and study outcomes will be assessed at predefined study time points.
This study will assess the safety, tolerability and efficacy of SAF312 in patients with overactive bladder disease due to spinal cord lesions. The overactive bladder of patients who qualify for this study is insufficiently managed by antimuscarinic therapy, or patients poorly tolerate the treatment with antimuscarinic drugs. The efficacy of SAF312 will be primarily determined via urodynamic measurements.
The purpose of this study is to see what the effect of Botox has on bladder function for those who have recently suffered spinal cord injury. We also will study bladder tissue levels of NGF (nerve growth factor) that can tell us how the nerves to the bladder are healing after injury. Consenting male and female cervical and high thoracic (T10 and above) SCI patients will be identified within the first 6-7 weeks after SCI and randomized to two external urethral sphincter injection groups. Each group will be injected within 8 weeks after SCI (Day 0) and 3 months later (Day 90). The injection paradigm will consist of: Group 1-100 units of BTX-A (Botox®, Allergan Inc., Irvine, CA) on Day 0 and 100 units of BTX-A on Day 90; Group 2-sham saline injections on both Day 0 and Day 90. Injections will be performed under local anesthesia using standard flexible cystoscopic equipment. Use of placebo is justified because: 1. there have been documentation of nerve desensitization with dry needling (i.e. acupuncture) and wet needling (i.e. saline)--therefore, to truly demonstrate benefit of Botox over just the needle insertion into the sphincter muscle or injection of the diluent saline, a sham saline injection group is included, 2. the injection procedure itself is minimally invasive and not expected to result in any complications. Subjects who qualify and have signed the informed consent document will be randomized into two groups, those receiving the BTX-A and those receiving placebo. Blinding will be performed by the TIRR pharmacy department who will provide Botox and placebo in identical syringes so that the treating staff will be blinded. Pharmacists will ensure patients receive the same agent at the time of the second injection. Unblinding will occur at the end of the study or if complications necessitate breaking of the code. Both groups will undergo urodynamic testing to document before and after treatment data. Bladder biopsies will be taken prior to treatment in both groups that will be analyzed for nerve growth factor. Three day voiding diaries will be kept and reviewed with the study coordinator at the follow up visits. Quality of life questionnaires will be completed at each follow up visit. The treatments will take place on Day 0 and Day 90. Follow up visits will occur at Day 120, 16 month, and 28 months.
Subjects with neurogenic bladder secondary to spinal cord injury that is refractory to medical treatment and requires augmentation cystoplasty will be enrolled. The hypothesis is that augmentation cystoplasty using an autologous neo-bladder construct will reduce maximum detrusor pressure.
Subjects with neurogenic bladder secondary to spina bifida refractory to medical treatment will be enrolled. The hypothesis is that augmentation cystoplasty using an autologous neo-bladder construct will significantly increase bladder compliance.