In vivo study of porous NiTi cryotweezers for bone tissue cryotherapy

Abstract

This study examined the effects of liquid nitrogen vapor on osteogenesis in the rabbit femur. Cryotweezers made of porous nickel titanium alloy (nitinol or NiTi) obtained by self-propagating high temperature synthesis were used in this experiment. The porous structure of the cryotweezers allows them to hold up to 10 g of liquid nitrogen after being immersed for 2 minutes, which completely evaporates after 160 seconds. To study the effects of liquid nitrogen evaporation on osteogenesis, a rabbit femur was perforated. The formed holes were subjected to cryotherapy with varying exposure times. It was found that a 3 second exposure time stimulates osteogenesis, which was manifested in a greater number of osteoblasts in the regenerate compared to the control sample without liquid nitrogen. It was observed that increasing the exposure to 6, 9 or 12 seconds had a destructive effect, to varying degrees. The most severe damage was exerted by a 12 second exposure, which resulted in the formation of osteonecrosis areas. In the samples exposed to 6 and 9 seconds of cryotherapy, destruction of the cytoplasm of osteocytes and osteoclasts was observed.