posted on 2020-07-24, 15:34authored byQi Guo, Hong Sun, Xiaojun Wu, Zhiwen Yan, Chenjue Tang, Zhihui Qin, Mengmeng Yao, Pengcheng Che, Fanglian Yao, Junjie Li
Intraperitoneal
adhesions are common and serious complications
after surgery. Deposition of proteins and inflammatory response on
an injured cecum are the main factors resulting in the formation of
adhesion. In this study, purely zwitterionic hydrogels (Z-hydrogels)
are developed using thiolated poly(sulfobetaine methacrylate-co-2-((2-hydroxyethyl)disulfanyl)ethyl methacrylate) [poly(SBMA-co-HDSMA)] as the network backbone and divinyl-functionalized
sulfobetaine (BMSAB) as the zwitterionic cross-linker via the thiol–ene
click reaction. To improve the anti-inflammatory activity, cefoxitin
sodium is loaded into Z-hydrogels (Z/C-hydrogel) to construct the
physical barrier/drug system. The gelation time, mechanical behavior,
and swelling ratio of the prepared Z-hydrogel can be modulated via
adjusting the SBMA/HDSMA ratio in the copolymer. Moreover, they not
only exhibit excellent resistance to protein and fibroblast adhesion
but also show good biocompatibility and hemocompatibility. To assess
its anti-adhesion effects in vivo, the Z-hydrogel is injected on the
injured cecum surface using a rat model of sidewall defect-cecum abrasion.
The results show that the Z-hydrogel can completely cover the irregular
cecum surface and effectively suppress the formation of postoperative
adhesion via reducing protein deposition and resisting fibroblast
adhesion. Moreover, the introduction of cefoxitin sodium decreases
the inflammatory response after surgery, thus further improving the
anti-adhesion effect. Overall, we suggest that the Z-hydrogel is a
promising candidate for the prevention of a postsurgical peritoneal
adhesion.