Brain Targets in Patients With Bladder Emptying Difficulties

The Methodist Hospital Research Institute11 enrolled

Overview

The goal of this study is to identify brain centers specifically associated with "initiation of voiding" in patients with neurogenic bladder dysfunction. Currently there is no study that has evaluated brain centers involved in initiation of voiding in patients with neurogenic voiding dysfunction. Patients with neurogenic bladder secondary to etiologies such as Multiple Sclerosis, Parkinson's disease, and Cerebrovascular accidents will be recruited in this study. Patients will be categorized into 2 groups, those who have trouble emptying their bladder and those who urinate appropriately. Our existing and unique functional magnetic resonance imaging (fMRI)/ urodynamics (UDS) platform is an ideal platform to identify brain regions involved in bladder emptying disorders as seen in patients with neurogenic bladder dysfunction and will be used for this study. After characterizing brain regions involved in bladder emptying, the investigator propose to use noninvasive transcutaneous magnetic stimulation in a subset of patients with voiding dysfunction in aim 3.

Difficulty in bladder emptying (Voiding dysfunction,VD) is a costly urinary condition that leads to urinary tract infections/stones, sepsis, bladder loss, and permanent kidney damage. VD can be present in patients with or without neurologic/brain disorders. Currently the only available therapies for VD include bladder catheters or intermittent self-catheterization. Catheterization is a burden especially in patients with nerve damage, hand skills may be limited. The cost and morbid side effects of catheterizations in patients (blood in the urine, pain, trauma, strictures, and infections) requires investigators to develop new therapies that are beyond the bladder. Such new therapies could target the brain (where bladder control is located). In this proposal, investigators plan to further characterize the brain regions involved in bladder emptying for each patient and ,perform brain modulation, targeting these regions as a possible therapy for VD. Patients with bladder dysfunction will be divided into two groups: Group 1: patients with VD; and Group 2: patients without VD. Specific Aim 1: To evaluate brain pattern in both groups and compare them to each other at the time of bladder emptying. Specific Aim 2: To evaluate reliability of the nerve fibers in the brain and see whether damage to these fibers is related to difficulty emptying the bladder. Specific Aim 3: To perform non-invasive brain stimulation on specific regions of the brain responsible for bladder control to improve bladder emptying. This study is an interventional Study: The investigators have completed a well-powered study on twenty-seven female MS patients during their bladder storage phase. Aims 1 and 2 use the data from previously completed trial and investigators will perform additional imaging analysis on it. Aim 3 is a new and small trial in which investigators planned to modulate the regions of the brain that are related to bladder control. Approximately 16 study participants will be enrolled at Houston Methodist, and 16 throughout the study.

Interventions

Transcranial Rotating Permanent Magnet Stimulator (TRPMS)DEVICE

TRPMS is a wearable non-invasive transcranial rotating permanent magnet stimulator. It has been determined to be a Non Significant Risk device by the FDA. The amount and frequency of therapy are prescribed by the physician, and the device is custom configured to the patient to deliver the required amount of treatment. The device does not turn on until it is time for the treatment. It consists of three main parts: Neoprene cap with microstimulator(s), stimulator console (device controller box) and the tablet with TRPMS app which activates the console. The neoprene cap prevents the microstimulator(s) from coming in direct contact with the scalp. Microstimulators deliver the magnetic stimulation to the brain based on a prescription program uploaded in the stimulator controller.

Eligibility

Sex: ALLMin age: 18 YearsMax age: 80 Years

Medical Language ↔ Plain English

Inclusion Criteria: Inclusion Criteria for subjects with neurogenic bladder: * Patients with clinical diagnosis of neurogenic bladder * History of any neurologic illness or injury (including but not limited to spinal cord injury, Multiple Sclerosis, Stroke, spina bifida, Parkinson's, major spine surgery) * 18 years or older Specifics for MS patients: Adult female patients with clinically stable MS \[Expanded Disability Status Score (EDSS) ≤6.5\], with bladder symptoms ≥3 months, will be screened. Patients will be considered to have VD if they have an increased Postvoid Residual (≥ 20% Maximum Cystometric Capacity). Patients who perform self-catheterization will be included in the VD category as well. Exclusion Criteria: Exclusion Criteria for subjects with neurogenic bladder: * Men (for aims 1 and 2 only), anatomical bladder outlet obstruction (anti-incontinence procedures, urethral strictures, or advanced pelvic organ prolapse). Severe debilitating MS, history of seizures, pregnancy or planning to become pregnant, contraindications to MRI, history of augmentation cystoplasty. Patients with active urinary tract infection (UTI) can be treated and subsequently screened for the trial. * Positive urine pregnancy test at enrollment (There are no known risks to a subject's fetus. There is no known teratogenic risk associated with urodynamics or fMRI) - Cognitively impaired patients

Outcomes

Primary Outcomes

Changes in Brain Activity After Treatment Measured Using Functional MRI

Here we measured changes in brain activation in modulated brain regions of interest (ROI) via blood oxygen level-dependent (BOLD) signals during "strong desire to void" and "voiding initiation (attempt)". We determined if there was a significant increase or decrease in activity (voxel signal) after treatment using the following criteria: 1) increase in activation was defined as T-value greater than 2.074 and 2) decrease in activation was defined as T-value less than 2.074.

Time frame: Baseline to three weeks

Secondary Outcomes

Changes in Objective Clinical Outcomes Following Treatment

The objective clinical assessment included changes in post void residual (PVR), voided volume (VV) and bladder capacity (BC) in participants after treatment as compared to baseline. PVR measures the volume of urine (cc/mL) that is left after voiding. VV measures the volume of urine that is voided (cc/mL). BC measures the volume of urine (cc/mL) the bladder has a capacity to hold, this value is calculated by adding the VV + PVR values obtained.