Injectable Thermogel Generated by the “Block Blend” Strategy as a Biomaterial for Endoscopic Submucosal Dissection

Endoscopic submucosal dissection is an established method for the removal of early cancers and large lesions from the gastrointestinal tract but is faced with the risk of perforation. To decrease this risk, a submucosal fluid cushion (SFC) is needed clinically by submucosal injection of saline and s...

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Published inACS applied materials & interfaces Vol. 13; no. 17; pp. 19778 - 19792
Main Authors Cui, Shuquan, Wei, Yiman, Bian, Qiao, Zhu, Yan, Chen, Xiaobin, Zhuang, Yaping, Cai, Mingyan, Tang, Jingyu, Yu, Lin, Ding, Jiandong
Format Journal Article
LanguageEnglish
Published United States American Chemical Society 05.05.2021
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Summary:Endoscopic submucosal dissection is an established method for the removal of early cancers and large lesions from the gastrointestinal tract but is faced with the risk of perforation. To decrease this risk, a submucosal fluid cushion (SFC) is needed clinically by submucosal injection of saline and so on to lift and separate the lesion from the muscular layer. Some materials have been tried as the SFC so far with disadvantages. Here, we proposed a thermogel generated by the “block blend” strategy as an SFC. This system was composed of two amphiphilic block copolymers in water, so it was called a “block blend”. We synthesized two non-thermogellable copolymers poly­(d,l-lactide-co-glycolide)-b-poly­(ethylene glycol)-b-poly­(d,l-lactide-co-glycolide) and blended them in water to achieve a sol–gel transition upon heating in both pure water and physiological saline. We explored the internal structure of the resultant thermogel with transmission electron microscopy, three-dimensional light scattering, 13C NMR, fluorescence resonance energy transfer, and rheological measurements, which indicated a percolated micelle network. The biosafety of the synthesized copolymer was preliminarily confirmed in vitro. The main necessary functions as an SFC, namely, injectability of a sol and the maintained mucosal elevation as a gel after injection, were verified ex vivo. This study has revealed the internal structure of the block blend thermogel and illustrated its potential application as a biomaterial. This work might be stimulating for investigations and applications of intelligent materials with both injectability and thermogellability of tunable phase-transition temperatures.
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ISSN:1944-8244
1944-8252
DOI:10.1021/acsami.1c03849