Tissue biocompatibility of a new caprolactone-coated self-reinforced self-expandable poly-L-lactic acid bioabsorbable urethral stent

Background and Purpose: The bioabsorption time as well as other properties of bioabsorbable polymers can be affected by the choice of the basic molecu le, by the degree of its polymerization, and by the coating material used i n the device. The aim of our present study was to evaluate the biocompatibi lity of a new caprolactone copolymer-coated, self-reinforced poly-L-lactic acid (SR-PLLA) urethral stent by means of a rabbit muscle implantation test . This new material has previously been tested for cytotoxicity using the t hymidine incorporation method (DNA synthesis inhibition test), no toxicity being evidenced. Materials and Methods: Fifteen male rabbits were used as experimental anima ls. Rods made from pure lactic acid, pure caprolactone copolymer, and capro lactone-coated lactic acid were placed on both sides of the dorsal muscles, eight implants per rabbit. Rods made from latex and silicone were used as positive and negative controls, respectively. The animals were sacrificed a fter 1 week, 1 month, or 6 months. Tissue reactions around the implants wer e analyzed and scored semiquantitatively. Results: Acute tissue reactions attributable to operative trauma were seen in all specimens at 1 week. After 6 months, chronic inflammatory changes an d foreign-body reactions were seen only in the positive controls, Conclusion: The new caprolactone copolymer material is highly biocompatible .