AI Article Synopsis
- Researchers developed a novel composite thermosensitive hydrogel (HpHCS-PVP-GP) designed for endoscopic submucosal dissection (ESD), providing sustained submucosal lifting.
- The hydrogel's injectability and rapid gelation at low concentrations were enhanced by incorporating high pH chitosan, while polyvinylpyrrolidone (PVP) improved its stability and strength.
- Experiments in mini pigs demonstrated that the optimal HpHCS-PVP-GP formulation resulted in cushion heights that maintained approximately 80% of original elevation one hour post-injection, with no cytotoxic effects noted.
Article Abstract
To develop a submucosal injection material with sustained submucosal lifting for endoscopic submucosal dissection (ESD), this study designed and prepared a novel composite thermosensitive hydrogel system with high pH chitosan-polyvinylpyrrolidone-β-glycerophosphate (HpHCS-PVP-GP). HpHCS improved the injectability of the hydrogels and retained the rapid gelation ability at low concentrations. The modification of PVP significantly improved the stability of low-temperature hydrogel precursor solutions and the integrity of hydrogels formed at 37 °C through hydrogen bonds between PVP and HpHCS. A mathematical model was established using response surface methodology (RSM) to evaluate the synergistic effect of HpHCS, GP, and PVP concentrations on gelation time. This RSM model and submucosal lifting evaluation using in vitro pig esophageal models were used to determine the optimal formula of HpHCS-PVP-GP hydrogels. Although the higher PVP concentration (5 % (w/v)) prolonged gelation time, it improved hydrogel mechanical strength, resulting in better submucosal lifting performance. The experiments of Bama mini pigs showed that the heights of the cushions elevated by the HpHCS-5%PVP-GP hydrogel remained about 80 % 1 h after injection. Repeated injections were avoided, and the hydrogel had no cytotoxicity after electric cutting. Therefore, the HpHCS-PVP-GP thermosensitive hydrogel might be a promising submucosal injection material for ESD.
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| http://dx.doi.org/10.1016/j.ijbiomac.2024.133165 | DOI Listing |
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