OBJECTIVES: To evaluate a novel designed degradable ureteral stent. METHODS: A total of 24 male Beagles, each with bilateral stents implanted (a biodegradable ureteral 4.5-Fr stent and a standard 4-Fr biostable stent) were divided into four groups. Intravenous pyelography, B-mode ultrasonography, and blood and urine tests were carried out before the procedure (0 weeks), and at 1-, 2-, 3- and 4-week intervals. Meanwhile, the mechanical characteristics of stents were tested, and scanning electron microscopy images of the biodegradable braided stents were obtained at different time-points postoperatively. In addition, histopathological changes were compared between the two different stents. RESULTS: All biodegradable braided stents began degrading at 1 week, and had completely degraded by 4 weeks. Hydronephrosis was equivalent during the first 2 weeks, but less with the biodegradable stents than with the control biostable stents at 3 and 4 weeks. Preoperative and postoperative blood and urine results were similar. The mechanical properties of the biodegradable stents were better than conventional biostable stents. Scanning electron microscopy images obtained at different weekly intervals showed that stents degraded in a predictable fashion. Histological testing of the urinary tract showed that the stent-related tissue reactivity of the two different stents were similar. CONCLUSIONS: Our novel braided thin-walled biodegradable stents provide temporary renal drainage as good as commercially available biostable stents. They also have good biocompatibility and physical characteristics. Therefore, they might have clinical application.
OBJECTIVES: To evaluate a novel designed degradable ureteral stent. METHODS: A total of 24 male Beagles, each with bilateral stents implanted (a biodegradable ureteral 4.5-Fr stent and a standard 4-Fr biostable stent) were divided into four groups. Intravenous pyelography, B-mode ultrasonography, and blood and urine tests were carried out before the procedure (0 weeks), and at 1-, 2-, 3- and 4-week intervals. Meanwhile, the mechanical characteristics of stents were tested, and scanning electron microscopy images of the biodegradable braided stents were obtained at different time-points postoperatively. In addition, histopathological changes were compared between the two different stents. RESULTS: All biodegradable braided stents began degrading at 1 week, and had completely degraded by 4 weeks. Hydronephrosis was equivalent during the first 2 weeks, but less with the biodegradable stents than with the control biostable stents at 3 and 4 weeks. Preoperative and postoperative blood and urine results were similar. The mechanical properties of the biodegradable stents were better than conventional biostable stents. Scanning electron microscopy images obtained at different weekly intervals showed that stents degraded in a predictable fashion. Histological testing of the urinary tract showed that the stent-related tissue reactivity of the two different stents were similar. CONCLUSIONS: Our novel braided thin-walled biodegradable stents provide temporary renal drainage as good as commercially available biostable stents. They also have good biocompatibility and physical characteristics. Therefore, they might have clinical application.
Authors: Alexandre A Barros; Carlos Oliveira; Ana J Ribeiro; Riccardo Autorino; Rui L Reis; Ana Rita C Duarte; Estevão Lima Journal: World J Urol Date: 2017-11-11 Impact factor: 4.226
Authors: Julia E de la Cruz; María Soto; Luna Martínez-Plá; Juan Antonio Galán-Llopis; Francisco M Sánchez-Margallo; Federico Soria Journal: Am J Clin Exp Urol Date: 2022-02-15
Authors: Federico Soria; Julia E de La Cruz; Tomás Fernandez; Alberto Budia; Álvaro Serrano; Francisco M Sanchez-Margallo Journal: Transl Androl Urol Date: 2021-04
Authors: Federico Soria; Julia E de La Cruz; Juan Pablo Caballero-Romeu; Manuel Pamplona; Daniel Pérez-Fentes; Luis Resel-Folskerma; Francisco M Sanchez-Margallo Journal: BMC Urol Date: 2021-02-28 Impact factor: 2.264