New bioabsorbable polylactide ureteral stent in the treatment of ureteral lesions: An experimental study

Objective: To evaluate the suitability of a new biodegradable double-helica l spiral self-reinforced poly-L,D-lactide copolymer (SR-PLA 96; L/D ratio 9 6/4) stent as a device for ureteral stenting in respect to changes in kidne y function during the biodegradation process. Materials and Methods: Sixteen dogs were used as experimental animals and w ere subdivided into two groups of eight. In Group A, both ureters were cut transversally, sutured, and stented. The right ureter was stented using an SR-PLA 96 stent, whereas a double-J C-Flex stent was used on the left side. Cystotomy was performed at 6 weeks to remove the double-J stents. In Group B, the right ureter of each dog was cut and stented in similar manner usin g an SR-PLA 96 stent, whereas the left ureters served as untreated controls , and cystotomy was not performed. Serum creatinine and nitrogen values wer e measured, urine was analyzed for signs of infection, and renal function w as evaluated by urography and renography examinations preoperatively and at 6, 12, and 24 weeks postoperatively, at which time points, the dogs were e uthanized and the ureters dissected to find persistent SR-PLA 96 particles and macroscopic local changes. There were no urinary tract infections found during the study. Results: In the SR-PLA 96-stented ureters, obstructive hydronephrosis and s tricture formation were observed in two cases (11%), with distal displaceme nt of the SR-PLA 96 stent in another case (5.5%). In two additional renal u nits, a temporary prolongation in the kidney washout time was observed at 6 -week renogram examinations. In the C-Flex-stented ureters, temporary chang es in renography studies were observed in three eases (37.5%) at 6 weeks. K idney washout times were protracted at 6 weeks in the pigtail-stented urete rs in Group A as a sign of a pressure rise in the renal pelvis secondary to the direct connection between the renal pelvis and bladder, whereas pressu re remained normal in SR-PLA 96-stented ureters. In Group B, renal function remained normal after ureteral repair in SR-PLA 96-stented ureters compare d with the controls. Conclusions: The double-helical apical stent design offers some advantages over a double-J design. The risk of pressure-induced kidney damage is lower ed, because there is no direct connection between the bladder and renal pel vis, and the risk of upper urinary tract infections is reduced. The biodegr adation of the device necessitates the removal of the stent. These prelimin ary results suggest that a biodegradable SR-PLA 96 stent with more effectiv e expansion capacity can be used for stenting after a ureteral repair.