View clinical trials related to Bedwetting.
Filter by:Children referred to pediatric urology clinic for primary nocturnal enuresis will be screened for enrollment. Patients who fail will next be offered therapy with a bedwetting alarm device or a TENS unit as an alternative, and those who chose TENS therapy will be included in the study.The patients will be randomized into two groups of 35 patients each.Group 1 will be the high pulse width set at 260us. Group 2 will be the low pulse width set at 50us. The patients will be provided with a TENS unit and electrode pads and caretakers instructed on how to use the apparatus. The child's TENS unit will be set at a pulse width determined by randomization, frequency of 10Hz, and an intensity to be determined in the office based upon when the child feels sensitive to the TENS unit. The child will be randomized and will place the electrodes along the posterior tibial nerve on the medial ankle each night before bed time for 30 minutes for a total of 30 days. Diaries including nighttime incontinence episodes and a "wet sheet" scale (dry, damp, wet, soaked) will be recorded, along with any adverse reactions to the TENS unit. Patients will be followed up after one month of TENS with evaluation including the Bowel & Bladder Questionnaire (BBQ), a validated tool for measuring symptoms in children with voiding dysfunction [6]; this questionnaire will be filled out prior to starting TENS treatment in order to compare the effect of treatment. The data will be collected at different time points (baseline and after 1 month of treatment) for each group by itself and the groups compared against each other using statistical analysis.
Identify the dry night rate in patients using the GoGoband® nocturnal enuresis device vs a standard Pflaundler bedwetting alarm.
Children referred to the pediatric urology clinic for primary nocturnal enuresis will be screened for enrollment. Patients who fail behavioral therapy and who meet inclusion criteria will be offered therapy with a TENS unit. Patients will be randomized into four groups. Group 1 will be the direct bladder stimulation arm with electrodes placed onto the abdomen in the suprapubic region directly over the bladder. Group 2 will be the distal neural loop arm with electrodes placed over the posterior tibial nerve. Group 3 will be the proximal neural loop arm with electrodes placed about 2-3 cm lateral to the midline in the sacral region at the level of S3. Group 4 will be the control arm with electrodes placed on the scapula. We will aim to recruit 32 patients per group for a total of 128 patients. The patients will be provided with a TENS unit (TENS 3000 Analog) and electrode pads and caretakers instructed on how to use the apparatus. The TENS sessions will be performed nightly before bed for 15 minutes. TENS units will be set at a frequency of 10 Hz, and intensity determined by the sensitivity threshold of the patient. Diaries including nighttime incontinence episodes and a "wet sheet" scale (dry, damp, wet, soaked) will be recorded, along with any adverse reactions to the TENS unit. Patients will be followed up after one month of TENS with evaluation including the Pediatric Urinary Incontinence Questionnaire, a validated tool for measuring quality of life in children with bladder dysfunction; this questionnaire will be filled out prior to starting TENS treatment in order to compare the effect of treatment on QOL. . They will then follow up on these parameters again after another month (one month off of TENS therapy) to assess the durability of treatment effect. The data will be collected at different time points (baseline, 1 month, 2 months) for each group by itself and the groups compared against each other using statistical analysis.
The investigators believe in order to strengthen the evidence in support of transcutaneous foot stimulation in this population the investigators need to move forward with a randomized comparison study using the TENS device on the hand and foot as a control.
Background: Previous animal model studies at the University of Pittsburgh have shown a significant impact on inhibiting bladder over activity and increasing bladder capacity with neuromodulation techniques, specifically tibial nerve stimulation. This has been translated into adult clinical trials through the department of urology. Through the use of a commercially available subcutaneous nerve stimulator placed on the dorsum of the foot, researchers were able to demonstrate a significant increase in bladder capacity and the delay of voiding sensation for up to 5 hours after stimulation in eight healthy subjects. This prompted the clinical trial approved under IRB PRO13020474 which is currently enrolling patients. The incidence of night-time overactive bladder leading to nocturnal enuresis (bed wetting) is very common in the pediatric and teenage population, particularly in patients without daytime bladder over activity symptoms. When behavioral modification (i.e. refraining from night-time fluid consumption and bladder irritants, and bed wetting alarms for timed voiding) fails which it often does there is a paucity of effective and safe treatment options. Medications can be tried, but generally these are from the tricyclic antidepressant family and carry significant side effects limiting the use. Aim: Researchers aim to utilize the same technology currently being studied under IRB PRO14080250. Electrical stimulation will be applied to the foot via skin surface electrodes for a minimum of 1 hour before bed for 2 weeks to 5 normal subjects. Normal Subjects will be asked to complete a questionnaire about any skin irritation or experiences of toe twitching while wearing the newly designed TENS device, during a return visit with Dr. Stephany. The primary outcomes of this study are safety and functionality of the New TENS unit
To determine the effects of electrical stimulation of the nerves in the foot on the incidence of nocturnal enuresis (bedwetting) in children