A pilot study on endoscopic delivery of injectable bioadhesive for esophageal repair in a porcine model.

Jie Xia, Wenxin Wang, Jinghui Guo, Jinglei Wu, Xinjian Wan
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Abstract

Endoscopic submucosal dissection (ESD) is the gold-standard surgical procedure for superficial esophageal cancer. A significant and challenging complication of this technique is post-ESD esophageal stricture. In this study, the feasibility of endoscopic catheter delivery of bioadhesive to esophageal lesions in a porcine model was tested. Injectable bioadhesive was composed of oxidized dextran (ODA) and chitosan hydrochloride (CS), its physicochemical properties, injectability, antibacterial activity, and cytocompatibility were investigated beforein vivotest. ODA-CS bioadhesive was delivered to the wound bed of the esophageal tissue using a custom-made catheter device after ESD in a porcine model. Our results show that the ODA-CS bioadhesive is of good injectability, tissue adhesive strength, antibacterial capacity, and blood compatibility.In vivodelivery was achieved by endoscopic spraying of ODA and CS in separate catheters fixed on the endoscopic probe. ODA and CS can be mixed well to allow in situ bioadhesive formation and firmly adhere to the esophageal wound surface. After two weeks, the bioadhesive maintained structural integrity and adhered to the surface of esophageal wounds. However, histological analysis reveals that the ODA-CS bioadhesive did not show improvement in attenuating inflammatory response after ESD. This pilot study demonstrates the feasibility of ODA-CS bioadhesive for shielding esophageal wounds after ESD, whereas efforts need to improve its anti-inflammatory activity to reduce fibrosis for stricture prevention.

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在猪模型中进行内窥镜注射生物粘合剂修复食道的试验研究。
内镜粘膜下剥离术(ESD)是治疗浅表食管癌的黄金标准手术方法。ESD术后食管狭窄是该技术的一个重要且具有挑战性的并发症。本研究测试了在猪模型中通过内窥镜导管将生物粘合剂输送到食管病变部位的可行性。注射用生物粘合剂由氧化右旋糖酐(ODA)和盐酸壳聚糖(CS)组成,在体内试验前研究了其理化性质、注射性、抗菌活性和细胞相容性。在猪模型中,使用定制的导管装置在ESD后将ODA-CS生物粘合剂输送到食管组织的伤口床。结果表明,ODA-CS 生物粘合剂具有良好的注射性、组织粘合强度、抗菌能力和血液相容性。通过内窥镜将 ODA 和 CS 分别喷洒在固定在内窥镜探头上的导管中,实现了体内给药。ODA 和 CS 可以充分混合,在原位形成生物粘附性,并牢固地粘附在食管伤口表面。两周后,生物粘合剂保持了结构的完整性,并粘附在食管伤口表面。然而,组织学分析表明,ODA-CS 生物粘合剂在减轻 ESD 后的炎症反应方面并无改善。这项试验研究证明了 ODA-CS 生物粘合剂在静电放电后保护食管伤口的可行性,但仍需努力提高其抗炎活性,以减少纤维化,预防狭窄。
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