View clinical trials related to Urinary Incontinence.
Filter by:This study will evaluate the impact of BOTOX® treatment on anticholinergic drug use in patients with urinary incontinence from Neurogenic Detrusor Overactivity (NDO) due to spinal injury or Multiple Sclerosis (MS) who are prescribed BOTOX® as standard of care in clinical practice.
This is a prospective, post-market, single arm, multicenter study comparing Baseline data to the 12 month and 36 month data in 136 female patients with Stress Urinary Incontinence
A noninferiority randomized controlled trial aimed at comparing the effect and safety of electroacupuncture versus the pelvic floor muscle training (PFMT) plus solifenacin for mixed urinary incontinence (MUI).
The recommended treatment for urinary incontinence (UI) in women is individualised pelvic floor muscle (PFM) training, a costly and resource-intense approach; one Canada is currently unable to meet. This non-inferiority randomized control trial seeks to determine if group-based PFM training is as effective as individualised PFM training for treating UI in women 65 and over, and to establish the cost-effectiveness of both. Demonstrating that group-based treatment is at least as good as individualised one-on-one treatment and more cost-effective would warrant including group-based PFM training as a first-line UI treatment.
Objective: The primary objective of the study is the comparison of protein concentrations between patients with stress urinary incontinence (SUI) and healthy controls. Aim: This pilot study aims to determine a possible altered protein profile in women suffering from SUI, compared to healthy women and therefore to discriminate a potential protein biomarker for SUI. Main outcome measure: mass spectrometric measuring of urinary proteomic secretome in diseased and healthy subjects (sequence coverage and number of identified proteins) Trial design: Prospective case- control study Setting: Department of Gynecology and Obstetrics of the Medical University of Vienna in co- operation with the Core Facilities Proteomics of the Medical University of Vienna Population: Twenty female patients with SUI and twenty healthy patients who attend the outpatient clinic of the Department of Obstetrics and Gynaecology, Medical University of Vienna (sample size calculation FDR 0.05, power of 80%, assumed proportion of true H0 0.95, assumed standardized effect size of 1) Methods: Examinations to be carried out: patient history, provocative stress test, ICIQ short form questionnaire, residual urine volume (ultrasound) and urine analysis (dipstick testing). A urine sample is obtained from the patient after spontaneous micturition, to which protease inhibitor will be added immediately. Two serum blood vials (each 9ml) are taken from a peripheral vein of the patient for routine laboratory and further research. Proteomics analysis will be performed using chromatographic separation (LC) with mass spectrometric detection (MS).
This study is a Post-Marketing Surveillance study in Korea to evaluate the safety and efficacy of botulinum toxin Type A to treat urinary incontinence in patients with neurogenic detrusor overactivity (NDO) or overactive bladder (OAB) not adequately controlled by anticholinergic drugs.
This three-site randomized controlled trial compares the effectiveness and cost-effectiveness of a group-administered behavioral treatment program to no treatment. Women with stress, urgency, or mixed urinary incontinence will be recruited and screened centrally, evaluated clinically at each of three study sites, and random assigned to one of two treatment arms: 1. Group behavioral treatment or 2. No treatment. Group treatment modalities have the potential to reach a larger population of older women with urinary incontinence, not only in the traditional medical settings, but also in community settings. The investigators hypothesize that group behavioral treatment will be more effective than no treatment. The investigators hypothesize that the group treatment will be cost-effective compared to no treatment.
To analyze biofilm obtained from at least 10 Subjects who have an indwelling catheter. A 30cc urine sample would also be collected from the same subject, and analyzed.
This study was designed to evaluate urinary function before and one year after single incision sling placement at the time of robotic sacrocolpopexy. The thought is that the more minimally-invasive, single incision sling would provide a similar subjective success rates as those of retropubic and trans-obturator slings.
Urinary incontinence and sexual dysfunction are potential side effects for men undergoing the successful removal of the cancerous prostate via surgery. Hypothermic cooling via the investigational Endorectal Cooling Balloon has been shown by our group to significantly reduce long term urinary incontinence and may reduce sexual dysfunction in men after robotic prostatectomy, and improve the patient's long term quality of life (QOL). However before successful translation of the endorectal balloon can proceed into the world wide usage, we must understand: 1. How effectively the tissues for continence and sexual function are cooled within the pelvis. 2. What is the capacity of vascularized structures (i.e. the neurovascular bundle) to 'cool sink' or diminish the effective cooling and 3. Determine if the endorectal balloon can be re‐designed for improved QOL outcomes in men. This research study marries two new techniques of Thermal MRI imaging and Endorectal cooling for prostate cancer surgery. MRI is non‐invasive. A simple confirmation of effective hypothermic cooling can be achieved by novel MRI thermal mapping of the cooling gradient as it comprehensively sweeps through the rectum across the urogenital pelvis. MRI with temperature adaptive software can accurately map these gradients with non‐invasive technique, and answer formidable questions of the effectiveness of hypothermic cooling of the prostate and its direct translation into improved continence and sexual function after surgery. The purpose of this research study is to use Magnetic Resonance Imaging (MRI) and Thermal MRI with subjects who will receive the investigational endorectal cooling balloon to help further understand how the cooling balloon works, which may translate to other uses in the future, including the diagnosis of patients at a high risk of developing prostate cancer.