Transurethral Myoblast Injection for Urinary Incontinence in Children With Bladder Exstrophy
- Conditions
- Urinary Incontinence
- Interventions
- Procedure: Myoblast TransplantationBiological: Neonatal Cystourethroscope Injection
- Registration Number
- NCT02075216
- Lead Sponsor
- Al-Azhar University
- Brief Summary
Muscle precursor cells constantly regenerate striated muscles, and include the quiescent satellite cells located beneath the basal lamina of skeletal myofibers, which are responsible for repair of the terminally differentiated striated muscle tissue. Transurethral implantation of autologous myoblasts may represent an improved alternative to synthetic bulking agents, with the unique ability to compensate for the deficient muscle fibers in the urethral sphincter. Clinical studies of cell therapy based treatment of sphincter insufficiency, using muscle derived stem cell transplantation was carried out in patients with stress incontinence revealed and confirmed the ability of cell therapy to improve the structure and contractile function of the sphincter. In this study autologous heterotopic myoblasts will be transurethrally injected in patients with bladder extrophy epispadias complex who remained incontinent after staged bladder reconstruction and bladder neck reconstruction.
The aim of this study is to investigate the potential therapeutic effects of autologous myoblast injection for the treatment of children presenting with urinary incontinence after modern staged repair and bladder neck reconstruction of extrophy-epispadias complex as well as studying the safety, efficacy and durability of the procedure, and health related quality of life.
- Detailed Description
Achieving urinary continence in patients with bladder extrophy epispadias complex remains a challenging urological goal. Children with bladder extrophy epispadias complex generally undergo many surgical procedures for the treatment of sphincteric incompetence, including bladder neck reconstruction, slings and bulking agent injection. The key point in most of these procedures is to enhance urethral resistance, leading to some degree of bladder outlet obstruction. However, the reported 7% to 85% continence rates in these patients may not exactly represent those children who achieve volitional voiding through the urethra, but may also include the ones with bladder augmentation and urinary diversion. Endoscopic injection of bulking agent has emerged as a therapeutic approach in the treatment of urinary incontinence (UI). this procedure seems to be economical, with shorter hospitalization and fewer major complications. On the other hand, degradation, migration, reabsorption, overbulking, bladder outlet obstruction and hypersensitivity are frequently reported complications of bulking agents.
The ideal substance for periurethral injection should be durable, non immunogenic, nonmigratory and efficacious. So, transurethral implantation of autologous myoblasts may represent an improved alternative to synthetic bulking agents, with the unique ability to compensate for the deficient muscle fibers in the urethral sphincter. Patients with incontinence usually have decreased resting tone and contractility of the rhabdosphincter. In patients with bladder extrophy epispadias complex the perineal structures are dislocated laterally, and the internal and external urethral sphincters are deficient. Muscle precursor cells constantly regenerate striated muscles, and include the quiescent satellite cells located beneath the basal lamina of skeletal myofibers, which are responsible for repair of the terminally differentiated striated muscle tissue. After injury or in response to intensive physical exercise satellite cells proliferate and differentiate into myoblasts, which ultimately fuse to form new myofibers capable of muscle contraction. Considering the limited capacity of the rhabdosphincter for regeneration, the idea of urethral sphincter repair in patients with bladder extrophy epispadias COMPLEX via transurethral injection of autologous myoblasts has been suggested. The technical availability of these cells, as well as immunological acceptance and survival, makes them appropriate for this purpose. Satellite cells are committed cell lineage with restricted plasticity and do not multiply beyond the required repair needs. This property confers an acceptable measure of safety for clinical applications. The first clinical study of cell therapy based treatment of sphincter insufficiency, using muscle derived stem cell transplantation was carried out in patients with stress incontinence revealed and confirmed the ability of cell therapy to improve the structure and contractile function of the sphincter.
Recruitment & Eligibility
- Status
- UNKNOWN
- Sex
- Male
- Target Recruitment
- 50
Gender: male.
Ages: above 2 Years old.
Patient with Urinary incontinence after successful staged repair and bladder neck reconstruction of extrophy -epispadias complex.
Absence of urinary tract infection after urine analysis and urine culture.
Serum creatinine in normal range for age.
Parent or legal guardian agrees to complete and sign the informed consent document.
Any degree of Spinal cord injury, systemic, neuronal paralysis or sacral agenesis.
Urodynamic study demonstrating severe uninhibited bladder contractions.
Severe urethral or bladder neck stricture demonstrated during screening cystoscopy or cystogram
Cystography at the time of screening demonstrating Grade IV vesicoureteral reflux (high-grade reflux with dilation of the renal pelvis and blunting or the fornices) or Grade V vesicoureteral reflux (Grade IV findings plus loss of the papillary impression and ureteral tortuosity).
Any degree of renal scarring at the time of screening as demonstrated by DMSA or MAG3 renal scintigraphy in the presence of any grade of vesicoureteral reflux (VUR)
Renal ultrasound demonstrating Society of Fetal Urology Grade III hydronephrosis (widely split renal pelvis, renal calices uniformly dilated, no parenchymal thinning) or Grade IV hydronephrosis (Grade III dilation plus parenchymal thinning).
Positive urine culture resistant to preoperative oral antibiotic therapy. Immunocompromise patient.
Previous adverse reaction to anesthesia
Study & Design
- Study Type
- INTERVENTIONAL
- Study Design
- SINGLE_GROUP
- Arm && Interventions
Group Intervention Description Myoblasts Preparation Myoblast Transplantation Myoblast Preparation, Myoblast Transplantation \& Neonatal Cystourethroscope Injection Approximately 8 to 10 gm muscle will be obtained from the rectus abdominis. Patient muscle fibers will be isolated using the fiber explant technique described by Rosenblatt et al, with some modifications. Culture conditions will be mainly adapted from Rando and Blau. After 22 days of culture myoblasts will be harvested by trypsinization and incubated in serum-free medium during the last 2 hours before injection. Immediately before injection the cell pellet will be resuspended in autologous serum and/ or platelet rich plasma (PRP). Myoblasts Preparation Neonatal Cystourethroscope Injection Myoblast Preparation, Myoblast Transplantation \& Neonatal Cystourethroscope Injection Approximately 8 to 10 gm muscle will be obtained from the rectus abdominis. Patient muscle fibers will be isolated using the fiber explant technique described by Rosenblatt et al, with some modifications. Culture conditions will be mainly adapted from Rando and Blau. After 22 days of culture myoblasts will be harvested by trypsinization and incubated in serum-free medium during the last 2 hours before injection. Immediately before injection the cell pellet will be resuspended in autologous serum and/ or platelet rich plasma (PRP).
- Primary Outcome Measures
Name Time Method Clinical Parameters 12 Weeks Clinical assessment.
Assessment of Continent Score.
Maximum dry interval per day.
- Secondary Outcome Measures
Name Time Method Clinical Changes In Bladder Behavior 24 Weeks Urodynamic Evaluation
Trial Locations
- Locations (1)
Pediatric Surgery Outpatients Clinics - Al Hussien Hospital
🇪🇬Nasr City, Cairo, Egypt