The use of seven biomaterials was examined in the study: polyethylene (PE), polypropylene (PP), polyurethane (PU), teflon (PTFE), polycaprolactone (PCL), polylactide (PLLA), and a copolymer of poly L-lactide and dibutyryl chitin (PLLA/DBC). The use of these materials has not been discussed in the context of animal reproduction so far. Due to the specific nature of the reproductive system and the high sensitivity of reproductive cells, at the outset the biocompatibility and cytotoxicity of the materials were tested in somatic cell and embryo cultures. Additionally, the material properties of the catheters were determined in terms of the roughness of the internal and external surfaces, the stability of the shape of the catheters, their elasticity, durability, and ductility. Finally, clinical testing of the developed catheters was performed in laparoscopic transplantation of embryos into the uterine tubes of the sows. Significant toxicity of PTFE, PCL and PLLA/DBC towards the embryos was indicated in the cytotoxicity testing. In the materials testing, numerous flaws of the PP, PLLA, and PLLA/DBC catheters were indicated. In the final stage, catheters were developed using PE and PU. In clinical testing, these latter catheters exhibited high effectiveness in transferring embryos. Among the seven biomaterials tested, only polyethylene and polyurethane exhibited high biocompatibility and the material properties mentioned above. There is thus good indication for the introduction of these catheters for embryo transfer in animal reproduction biotechnology.
Wieczorek et al. (Fri,) studied this question.