Biological evaluation of a novel copper-containing composite for contraception.

OBJECTIVE: To investigate the biocompatibility of a novel copper-containing composite to provide preclinical data for clinical application of intrauterine device (IUD) or intra-vas device (IVD). DESIGN: Prospective experimental study. SETTING: Good laboratory practices laboratories. ANIMALS: Twenty healthy adult mice (SPF grade Kunming white mice, animal code SCXK 2003-0005). INTERVENTION(S): Cytotoxicity tests in vitro were conducted to evaluate the influence of the materials on the morphology, growth, and proliferation of cultured L929 mouse fibroblasts. Acute systemic toxicity tests were conducted to investigate the acute systemic toxic reaction with mice, and then the materials were implanted into the spinal muscle of rabbits (n = 15). The rabbits were sacrificed for pathologic examination at 1, 4, and 12 weeks after surgery. MAIN OUTCOME MEASURE(S): Evaluation of cytotoxicity by MTT assay, cytotoxicity test by direct contact assay, acute systemic toxicity test, and material implantation test. RESULT(S): The cytotoxicity grade of the copper-containing composite was 0-1, suggesting that the material was free of cytotoxicity; no acute systemic toxicity was found in any mice; mild inflammatory reaction was observed in the surrounding tissues of the implanted material in the early implantation stage, which was similar to that of the sham-operated sides. Twelve weeks after implantation, the inflammatory reaction was completely disappeared in the implanted tissue, similarly to the sham-operated sides. The fibrosis membrane surrounding the material became stable gradually over time. CONCLUSION: The copper-containing composite has excellent biocompatibility, which is feasible and safe for the clinical application as a novel contraceptive material.

Initial studies on a novel filtering-type intra-vas device in male dogs.

BACKGROUND: To relieve the side effects induced by the complete obstruction of the vas deferens, we created a filtering-type intra-vas device (IVD) which is made of materials composed of nano-SiO(2)-copper complex cross-linking polymer composites. STUDY DESIGN: Eight male beagle dogs were grouped into nonimplanted control group and IVD-implanted group. We tested the efficacy of the sperm filtering effect of the new IVD material for 12 months and examined the influence of the IVD materials on the cells of the vas deferens, epididymis and testis. RESULTS: The densities of sperm were reduced significantly after the IVD was implanted; no motile sperm were found after the third month. No obvious morphological changes were found in the cells of the vas deferens, epididymis and testis in the IVD-implanted group. CONCLUSIONS: The filtering-type nano-SiO(2)-copper complex/polymer composite IVD is able to filter the sperm of the male dogs, and the IVD material did not cause obvious damage to the cells of the male reproductive organs after 1 year of implantation.