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NCT06743165
The investigators hypothesize that Dynamic Neuromuscular Stabilization training, a next-generation exercise approach, and transabdominal ultrasound-guided pelvic floor muscle training (PFMT) will be more effective than PFMT guided solely by transabdominal ultrasound in reducing post-void residual volume, improving voiding disorder symptoms, and enhancing pelvic floor muscle relaxation in children with dysfunctional voiding.
NCT07099170
Pelvic floor muscle training (PFMT) is an exercise approach designed to improve the strength, endurance, power, relaxation, or coordination of the pelvic floor muscles. It is recommended as a first-line treatment for urinary incontinence (stress, urge, mixed), pelvic organ prolapse, and fecal incontinence. Evidence also suggests its potential to enhance sexual function in both men and women. To teach proper pelvic floor contraction, individuals must first learn the anatomical location, structure, and function of these muscles. Various teaching strategies can support motor learning, such as verbal cues (commands or imagery), visual input (anatomical models or illustrations), physical guidance (tactile feedback), and environmental adjustments (comfortable positions, safe space). Yet, the choice of teaching method in clinical practice is currently based only on experience, not evidence. This study aims to compare the effectiveness of four different PFMT teaching models-brochure-based, verbal instruction-based, visual instruction-based, and external palpation-aided-in teaching correct pelvic floor contraction and improving awareness in healthy adult women. It will be conducted as a four-arm randomized controlled trial. Participants will be evaluated before the training, immediately after, and one week later. The findings from this study will help identify the most effective and practical approach for teaching PFMT. Although the study is conducted with healthy women without pelvic symptoms, the results will inform better training strategies for individuals with pelvic floor dysfunction, including those with urinary problems, chronic diseases, or pregnancy-related pelvic floor issues. Ultimately, this research seeks to fill a gap in the current literature and contribute to more evidence-based clinical practice.
NCT07065708
Regular and effective pelvic floor muscle exercises after vaginal birth are crucial in reducing the risk of pelvic floor disorders in women. Pelvic floor muscle exercises are generally encouraged by healthcare providers to their patients after birth. However, it is often difficult to confirm whether a patient is performing pelvic floor muscle contractions correctly. A supervised pelvic floor physiotherapy session allows a professional to assess the pelvic floor and give their verbal feedback to patients. However even in this setting, patient's are reliant on the physiotherapist and have no way to assess their own performance. The 'biofeedback approach' allows for the clinician and patient to visually assess and modify their performance and can potentially allow for more effective therapy and better engagement. Transperineal ultrasonography is a widely available, safe and non-invasive biofeedback tool that can used at the bedside in order to assess pelvic floor muscle contractions. Our aim is to assess if using transperineal ultrasound can enhance the ability of postpartum patients to perform effective pelvic floor muscle therapy.
NCT05506124
The prevalence of urinary incontinence increases after the menopause and affects between 38 % and 55 % of women aged over 60 years. Urinary incontinence has a profound impact on quality of life. Pelvic floor muscle training is the first-line management for urinary incontinence. Electrical stimulation is considered for improving contraction of pelvic floor muscles and aid motivation and adherence to therapy and commonly used in pelvic floor muscle training in clinic therapy. However, the stability and quality of the signals collected by existing stretchable electronics (two-channel hard electrode) are too poor especially when muscle movement is involved, making them inappropriate for aureate pelvic floor muscle training. Here, we propose a physiology-based design method for the stretchable electronics and a novel airbag-type stretchable electrode array (ASEA) device for pelvic floor muscle training. In this study, the investigators hypothesis that ASEA is effective in controlling UI. A randomized, open, and controlled study will be implemented. "participants with ASEA will be included and be prescribed. Two-channel hard electrode as electrical stimulation electrode will be used as positive control.The primary efficacy end points is the reduction of symptom scoring and improving of quality-of-life assessment, the frequency of UI at 12th week assessed with bladder diaries and pad testing, and the quality-of-life assessed with incontinence impact questionnaire short form (IIQ-7) and pelvic organ prolapsed-urinary incontinence sexual questionnaire-12(PISQ-12). The adverse event and medication compliance will be investigated. The aim of this study is to explore the efficacy, safety and therapy of ASEA as electrical stimulation electrode in management of UI. This study will provide new options of electrode for the electrical stimulation in management of UI, which will help improve precision therapy of UI.