Photocurable hydrogel-elastomer hybrids as an adhesive patch for meniscus repair

Abstract

Hydrogel adhesives are gaining popularity in tissue engineering and regeneration medicine. However, unsatisfactory anti-tension properties of traditional hydrogels limit their practical uses, particularly in sports medicine, which usually requires robust mechanical properties. Here, we design a tissue adhesive patch based on a bioadhesive hydrogel (HAMA-GelNB) and a tough elastomer (PDMS) that can atraumatically and rapidly repair tissue injuries such as meniscus tears. The strong and sutureless sealing capabilities of the hybrids are demonstrated using ex vivo porcine skin and stomach models. In vitro cell studies and in vivo subcutaneous implantation models are used and demonstrated the biocompatibility of the material. Finally, the efficiency of the tissue adhesive patch is demonstrated using a rabbit meniscus tear model which is challenging in clinic. The results of macroscopic images and histological analysis revealed that the surface of cartilage in the material-treated group was slightly worn, but the untreated group developed progressive cartilage degeneration. These findings demonstrate that the hydrogel-elastomer composite tissue adhesive could be an alternative to sutures for tissue repair and is promising in translational medicine.