Cognitive behavioral therapy for overactive bladder in women: study protocol for a randomized controlled trial

The research team consists of urologists, gynecologist, psychiatrists, psychologists, and physiotherapists. We have developed a CBT program based on conventional behavioral therapy [8, 19] to treat drug-resistant OAB and CBT techniques for panic disorder, [20, 21] and evaluated the clinical feasibility and acceptability as a pilot study [15]. We simplified the CBT program to treat OAB since most participants were expected to be elderly or aging. As a result, we developed a training program based on 4 sessions (30 min each) and 6 techniques carried out over the course of 4 to 12 weeks (Fig. 1). Each session is divided into three parts, reviewing homework, providing new techniques, and reviewing the current day’s session. All sessions will be provided face-to-face, individually, at each institution or via Zoom. Brief descriptions of each of the 4 sessions are shown in Fig. 2. (1) Participants collect frequency volume charts (FVC) for self-monitoring during the intervention period. (2) Participant education consists of teaching them about the normal urinary tract system, abnormal voiding function, and epidemiology and physiology of OAB. We develop a CBT model applied to OAB and explain the targets of each CBT technique (Fig. 3). (3) Lifestyle modifications are carried out based on participants’ habits, such as by restricting water and coffee intake, as appropriate. (4) PFMT is conducted with abdominal breathing and taught by using photos and a yoga ball to enable easy imagination. (5) Exposure is modified to treat OAB based on bladder training techniques. For example, if a participant and a therapist set a goal, such as going on a bus tour for 3 h without urinary voiding, they set up several steps to achieve this goal, such as step 1: Be patient with urinary urgency and void every 2 h at home, step 2: Be patient with urinary urgency and void every 3 h at home, step 3: Be patient with urinary urgency and void every 3 h outside (Fig. 4). (6) Relapse prevention consists of planning for the future and encouraging the continuation of the taught techniques. Weekly homework is assigned in order for participants to learn the techniques and to assess participant adherence to subsequent sessions.

Our therapist is a urologist with 10 years of experience in urological treatment and a Japanese Board-Certified Instructor. He has attended a 2-day CBT workshop held by the Ministry of Health, Labour and Welfare of Japan. We developed a treatment manual for this study and the therapist followed the manual to ensure the reproducibility of the delivered intervention. We also attached worksheets to assist with the acquisition of each technique and homework practice. The therapist used a procedure checklist at each session to ensure adherence.

The control group is a waiting list. Participants will keep receiving their baseline therapy during the study period. If they are naïve or quit drug therapy for more than 6 weeks, they will not receive any therapy. After completing the trial, they will receive CBT treatment.

The following cases will be determined as deviations from the treatment protocol. However, the participants will not be determined to have dropped out of the trial at this stage and will be able to receive protocol assessments unless they withdraw consent for assessments (as below):

The following cases will be considered as discontinuations from the treatment protocol. However, the participants will not be determined to have dropped out of the trial at this stage and will be able to receive protocol assessments unless they withdraw consent for assessments (as below):

If the participant withdraws consent for assessments, he/she will not be followed up.

We will use the changes in HRQoL total scores of the OAB questionnaire (OAB-q) [22] from baseline to week 13 as a primary outcome in this study. The OAB-q reflects OAB-related QoL outcomes, consisting of 33 questionnaires and six subscales, assessing symptom bother, coping behaviors, concerns/worries, sleep patterns, social interaction, and total HRQoL score. Each subscale score ranges from 0 to 100, and lower symptom scores but higher scores on the other subscales reflect improvement. The minimum clinical important difference (MCID) of the OAB-q was reported to be 10 points [23].

Secondary outcomes include the following:

Participants will complete a form on demographics including age, height, weight, comorbidity, medicine, delivery, menopause, education, marital and job status, and history of OAB treatment.

Fig. 5 shows the participant timeline reflecting enrollment, intervention, and assessment. Enrollment will be carried out at each institution. Following screening, the trial will be explained to eligible participants. After completing informed consent, participants will fill out the questionnaires about baseline characteristics. Participants will complete a self-report questionnaire in a written paper format or via electronic data capture at baseline (week 0), immediately after intervention (week 5), and at follow-up (week 9 and week 13)).

The primary outcome is change from baseline to week 13 in HRQoL total scores of the OAB-q between groups. A total of 128 participants are required to detect a moderate effect size of 0.5 between the groups based on a two-sided significance level of 0.05 and 80% power [30]. Assuming a 15% drop out rate based on a previous RCT to evaluate behavioral therapy in women with mixed urinary incontinence [31], we set the target sample size at 150 participants.

General hospitals and private clinic providers will identify potential participants during clinic visits. Screening interviews will be carried out to assess participant eligibility. When possible and/or necessary, the recruitment and screening interview will be conducted via Zoom. We are planning to recruit participants within two and a half years from trial start.

The random allocation will be carried out by UMIN INDICE (UMIN Internet Data and Information Center of Clinical Research, https://​www.​umin.​ac.​jp/​indice/​cloud.​html) cloud, an internet-based central randomization cloud system. A minimization algorithm will be used to ensure balance across age (20- to 64-year-olds vs 65- to 80-year-olds), baseline OAB severity (moderate (OABSS: 6 to 11) vs severe (OABSS: 11 to 15)), treatment status (no treatment vs past treatment vs under treatment), types of intervention (face-to-face vs online remote session), and treating institutions.

In week 1, the therapist will access the UMIN INDICE cloud in front of participants. The random allocation to either group at a 1:1 ratio will be centrally generated via the UMIN INDICE cloud after the necessary baseline information is entered, and opened at the same time to the therapist. Allocation concealment will therefore be ensured. Immediately after this, the intervention group will be prescribed CBT, and the waiting list control group will be informed of the schedule.

In this open label study, participants and a therapist will be aware of the intervention assigned. Not all outcome assessments will be blinded due to the nature of the patient reported outcome measures (PROM). The statistician will be blinded to the allocation during the analyses.

Outcome data will be collected at baseline (week 0), immediately after intervention (week 5), and at follow-up (week 9 and week 13) using self-reported questionnaires in paper form or via electronic data capture.

Outcome data will be transferred into a Research Electronic Data Capture (REDcap) system (https://​www.​project-redcap.​org/​). The therapist will enter the data on baseline characteristics, allocation, drop out, changes of pharmacotherapy, homework adherence, and adverse events into REDcap. If any missing data is detected via the REDcap system, the researcher will contact the participants by telephone.

All analyses will be carried out based on an intention-to-treat principal, considering all participants as randomized, regardless of whether they received the randomized treatment. We do not plan to conduct any interim analyses.

We will use a linear mixed-effects model with repeated-measures analysis to estimate the least-squares mean difference in score changes from baseline at weeks 5, 9, and 13 in the HRQoL of the OAB-q between group comparisons. This model assumes that primary outcome data are missing at random and includes study group (intervention and control), assessment points (week 5, week 9, and week 13), OAB severity (moderate and severe), baseline score, and the interaction of study group with assessment points. Week 13 is the assessment point for the primary analysis. A multiple-testing procedure will be used to control for the familywise type I error rate at a two-sided significance level of 0.05. If the primary analysis at week 13 shows statistical significance, testing of other assessment points of the primary outcome is to be performed in a hierarchical manner: week 9 and week 5.

We will convey the numbers and frequencies (%) of adverse events.

We will perform the following subgroup analyses:

When possible and/or necessary,

Participants who (1) receive all intervention treatment; (2) have had intervention intervals lasting less than 3 weeks; (3) have not received any other treatment for OAB; and (4) have generated full outcome data will be analyzed as per protocol set (PPS). Furthermore, sensitivity analyses including multiple imputation approach for imputing missing data will be performed, with missing-at-random assumptions.

There was no composition of data monitoring committee no interim analysis in this study.

An adverse event is defined as any unintended or unwanted symptom, sign, or disease seen in participants. The Japanese Ministry of Health, Labor and Welfare publish, “Ethical Guidelines for Clinical Studies: Questions and Answers,” and it defines severe adverse events as following: a) death; b) threatened death; c) admission or prolongation of admission for treatment; d) enduring and severe impairment and dysfunction; or e) congenital anomaly.

When such a serious adverse event will happened, the trial physician must inform the principal investigator within 48 h, with or without the causal relationship to the protocol treatment. The principal investigator will report to the Institutional Review Boards in Kyoto University Graduate School of Medicine within 72 h, also inform all collaborators at all participating institutions. If it occurs an unexpected serious adverse event, the principal investigator will report it to the Ministry of Health, Labor and Welfare.

Any formal audits will not be performed, because this study’s intervention can be classified as a “minimally invasive intervention”.

This study protocol was approved by the Institutional Review Boards of Kyoto University Graduate School of Medicine (No. C1457) on January 15, 2020. The protocol was revised to add a treatment option via Zoom because of the spread of the coronavirus disease 2019 (COVID-19) and re-approved on June 30, 2020.

The steering committee will determine any revisions of the protocol. Any amendments of the protocol will be submitted to the Institutional Review Boards of Kyoto University Graduate School of Medicine for approval. The amended protocol will also be submitted to the Institutional Review Boards of the other participating institutions and reported to the participants as necessary.

Informed consent will be obtained at each institution. Following the screening, the trial will be explained to eligible participants. Next, researchers will obtain full informed written consent from participants.

An identification number will be assigned to each participant on enrollment. This number will be used for data registration. The correspondence list is kept securely in the computer on which the password has been set. After completion of the trial, the raw data will be kept in a locked drawer at the Kyoto University Graduate School of Medicine for 10 years following the publication of the first survey results.

The final trial dataset will be able to access to all members of the steering committee and the statistician. After the dataset will be de-identified and anonymized, it will be uploaded to the UMIN-ICDR website (http://​www.​umin.​ac.​jp/​icdr/​index-j.​html), and researchers who will be approved by the steering committee will be able to access to the dataset.

Because all protocol interventions are administered within the scope of the approved regulations in Japan, any health hazards will be covered by Japan’s National Health Insurance.

The study results will be disseminated to the public in academic conferences and journals. The steering committee will determine authorship of the planned primary and secondary publications. The order of the authors will be decided by the contributions of each member. The authors of the paper and the conference presenters will be based on the Uniform Requirements for Manuscripts Submitted to Biomedical Journals of the International Committee of Medical Journal Editors.