Guido Barbagli1, Ilgar Akbarov2, Axel Heidenreich2, Vahudin Zugor2, Roberto Olianas3, Maurizio Aragona3, Giuseppe Romano4, Ulf Balsmeyer5, Dirk Fahlenkamp5, Udo Rebmann6, Diana Standhaft6, Massimo Lazzeri7. 1. Centro Chirurgico Toscano, Arezzo, Italy. 2. Clinic and Policlinic for Urology, University of Cologne, Cologne, Germany. 3. Department of Urology, Klinikum Lueneburg, Lueneburg, Germany. 4. Urology Unit, Ospedale Santa Maria alla Gruccia, Montevarchi, Italy. 5. Department of Urology, Zeisigwald Clinics Bethanien, Chemnitz, Germany. 6. Department of Urology, Diakonissen Hospital Dessau, Dessau, Germany. 7. Istituto Clinico Humanitas IRCCS, Clinical and Research Hospital, Rozzano, Italy. Electronic address: massimo.lazzeri@humanitas.it.
Abstract
PURPOSE: We investigated whether tissue engineered material may be adopted using standard techniques for anterior urethroplasty. MATERIALS AND METHODS: We performed a retrospective multicenter study in patients with recurrent strictures, excluding those with failed hypospadias, lichen sclerosus, traumatic and posterior strictures. A 0.5 cm2 oral mucosa biopsy was taken from the patient cheek and sent to the laboratory to manufacture the graft. After 3 weeks the tissue engineered oral mucosal MukoCell® graft was sent to the hospital for urethroplasty. Four techniques were used, including ventral onlay, dorsal onlay, dorsal inlay and a combined technique. Cystourethrography was performed 1 month postoperatively. Patients underwent clinical evaluation, uroflowmetry and post-void residual urine measurement every 6 months. When the patient showed obstructive symptoms, defined as maximum urine flow less than 12 ml per second, the urethrography was repeated. Patients who underwent further treatment for recurrent stricture were classified as having treatment failure. RESULTS: Of the 38 patients with a median age of 57 years who were included in study the strictures were penile in 3 (7.9%), bulbar in 29 (76.3%) and penobulbar in 6 (15.8%). Median stricture length was 5 cm and median followup was 55 months. Treatment succeeded in 32 of the 38 patients (84.2%) and failed in 15.8%. Success was achieved in 85.7% of ventral onlay, 83.3% of dorsal onlay, 80% of dorsal inlay and 100% of combined technique cases. No local or systemic adverse reactions due to the engineered material were noted. CONCLUSIONS: Our findings show that a tissue engineered oral mucosa graft can be implanted using the same techniques suggested for anterior urethroplasty and native oral mucosa, and guaranteeing a similar success rate.
PURPOSE: We investigated whether tissue engineered material may be adopted using standard techniques for anterior urethroplasty. MATERIALS AND METHODS: We performed a retrospective multicenter study in patients with recurrent strictures, excluding those with failed hypospadias, lichen sclerosus, traumatic and posterior strictures. A 0.5 cm2 oral mucosa biopsy was taken from the patient cheek and sent to the laboratory to manufacture the graft. After 3 weeks the tissue engineered oral mucosal MukoCell® graft was sent to the hospital for urethroplasty. Four techniques were used, including ventral onlay, dorsal onlay, dorsal inlay and a combined technique. Cystourethrography was performed 1 month postoperatively. Patients underwent clinical evaluation, uroflowmetry and post-void residual urine measurement every 6 months. When the patient showed obstructive symptoms, defined as maximum urine flow less than 12 ml per second, the urethrography was repeated. Patients who underwent further treatment for recurrent stricture were classified as having treatment failure. RESULTS: Of the 38 patients with a median age of 57 years who were included in study the strictures were penile in 3 (7.9%), bulbar in 29 (76.3%) and penobulbar in 6 (15.8%). Median stricture length was 5 cm and median followup was 55 months. Treatment succeeded in 32 of the 38 patients (84.2%) and failed in 15.8%. Success was achieved in 85.7% of ventral onlay, 83.3% of dorsal onlay, 80% of dorsal inlay and 100% of combined technique cases. No local or systemic adverse reactions due to the engineered material were noted. CONCLUSIONS: Our findings show that a tissue engineered oral mucosa graft can be implanted using the same techniques suggested for anterior urethroplasty and native oral mucosa, and guaranteeing a similar success rate.
Authors: Gabriel Alexander Salg; Andreas Blaeser; Jamina Sofie Gerhardus; Thilo Hackert; Hannes Goetz Kenngott Journal: Int J Mol Sci Date: 2022-08-02 Impact factor: 6.208