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The prevalence of urinary incontinence (UI) in the female Greek population is 1 to 3 women (27%).Globally, the development of tele-rehabilitation programs through mobile application (mobile apps) has been a breakthrough for UI treatment. More specifically, the pelvic floor muscles (PFM) exercise programs through mobile apps, provide optimal health care services by offering to the patients a therapy program in the convenient environment of their choice (e.g their homes), with safety and less expense. Furthermore, it is given the opportunity to patients with mobility problems or with lack of transport or to them who live in remote areas, to treat their incontinence.
However, the majority of the existence mobile apps, work as simple verbal instructions and they do not being tailored in patients' individual needs, which is necessary for the successful implementation of the PFM exercise programs. Additionally, the PFM training is effective for UI treatment, when occurs intensively (daily) with supervision for at least 3 months by a physiotherapist. However, the adherence to a such intensive treatment program is very often compromised, because of many reasons (e.g lack of interest etc).
Therefore the main purpose of the current study is, to investigate the effectiveness of a tele-rehabilitation program, through a novel, innovative mobile app (customized in patients needs), in cooperation with a PFM superficial sensor. The mobile app will offer an interactive environment and the opportunity of a simultaneous supervision by a physiotherapist during the treatment, which might provide sufficient motivation to the patient to adhere with the intensive PFM exercise program. A secondary objective of the study is, to investigate the degree of adherence to PFM exercises and the degree of supervision, which is needed in the tele-rehabilitation program. Both the mobile app and the PFM superficial sensor, will be created for the needs of the present study.
Full description
The present study is designed to be conducted as a prospective randomized controlled clinical trial (RCT) with three arms.
Αll patients will be assessed in three sessions, at baseline (0 wk), half-way at 6 wks and at the end of the treatment (after 12 wks).
Primary outcome measures will evaluate the severity of the incontinence and the quantity of the urinary loss through the patient-centered International Consultation on Incontinence Questionnaire Short Form (ICIQ-UI-SF) and the clinician-centered '1-hour Pad test', respectively.
Secondary outcomes will include vaginal evaluation through (a) digital palpation using the PERFECT assessment scheme and through (b) an electromyography probe, in order to be assessed the power and the endurance of the PFMs. The patients will complete patient-centered outcome measures, such as a specific PFM exercise adherence questionnaire and a PFM exercise diary during their treatment, in order to be evaluated on how well they followed the program.
Patients will be recruited voluntarily through the University Urology clinic, physician referrals, advertisements in hospitals, posting on the internet, social networks (facebook), etc. Once eligible patients have been selected for treatment, they will fill out an informed consent form.
This study adheres to Ethical considerations and the Helsinki Declaration and is approved by the Research Ethics Committee (R.E.C.) of the University of Patras. All patient data will be stored anonymously/coded in a secure cloud platform accessed only by the research team members. Imputation methods will be applied to address situations where variables are missing, uninterpretable, or inconsistent. Any adverse events will be addressed and documented, while medical consultation will be accessible if needed.
To be ensured the complete allocation concealment of the groups, a randomization process will be used, by a 'blind' researcher who will have no knowledge of the assessment and treatment procedures. The allocation of the participants to the different intervention groups (TeleG, TrG, and CG) will be carried out through a pre-specified computer-generated list, in blocks of six people. Each participant will be randomly assigned a number from the list via a sealed opaque envelope and then the participants will be randomly allocated to the intervention groups via a sealed opaque envelope. To achieve a uniform sample distribution in the intervention groups, each block will include two envelopes for each intervention group (e.g two envelopes for the TeleG, two for the TrG and two for the CG). This method ensures both randomization and concealed allocation, maintaining study integrity and unbiased sample allocation.Due to the nature of the treatment, the intervention is not blinded between participants and clinicians. However, the analysis of the data will be 'blind' (blind-assessor).
It will be performed an analysis based on the data resulting from the initial grouping of patients by treatment protocol (intention-to-treat analysis). The data will be collected in excel tables and through SPSS version 24.0 for Windows and a statistical analysis will be performed. Comparison within the groups before and after the intervention, will be performed by ANOVA using repeated measurements. Comparison between groups after the intervention will be performed by the Student t-test (independent measurements); while the chi-square test will be used for categorical variables (eg yes, no, etc.). In addition, we will calculate the effect size with 95% confidence intervals for each outcome measure with continuous variables. Effect sizes will be considered large if ≥0.8, moderate if ≥0.5 and small if ≥0.2. Results will be considered statistically significant when p<.05. Finally, the results will be presented in means (M) values and their standard deviations (SD).
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60 participants in 3 patient groups
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Data sourced from clinicaltrials.gov
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