两种电外科电流在猪食管内镜黏膜切除体内模型中的组织病理学效应比较。

Comparison of the histopathological effects of two electrosurgical currents in an in vivo porcine model of esophageal endoscopic mucosal resection.

作者信息

Bahin Farzan F, Burgess Nicholas G, Kabir Sharir, Mahajan Hema, McLeod Duncan, Subramanian Vishnu, Pellise Maria, Sonson Rebecca, Bourke Michael J

机构信息

Department of Gastroenterology and Hepatology, Westmead Hospital, Sydney, New South Wales, Australia.

Department of Anatomical Pathology, Westmead Hospital, Sydney, New South Wales, Australia.

出版信息

Endoscopy. 2016 Feb;48(2):117-22. doi: 10.1055/s-0034-1393303. Epub 2015 Nov 4.

DOI:10.1055/s-0034-1393303

PMID:26535562

Abstract

BACKGROUND AND STUDY AIMS

Stricture formation is the main limitation of endoscopic resection in the esophagus. The optimal electrosurgical current (ESC) for endoscopic resection in the esophagus and other gastrointestinal sites is unknown. There may be a relationship between the type of ESC used and the development of post-procedure esophageal stricture. Unlike the low power coagulating current (LPCC), the microprocessor-controlled current (MCC), which alternates between short pulse cutting and coagulation, avoids high peak voltages that are thought to result in deep thermal injury. The aim of this study was to determine the histopathological variables associated with these two commonly employed ESCs used for esophageal endoscopic resection.

METHODS

Standardized endoscopic resection of normal mucosa by band mucosectomy was performed by a single endoscopist in 12 adult pigs. The procedures were randomized 1 : 1 to either LPCC (ERBE 100 C at 25 W) or MCC (ERBE Endocut Q, Effect 3). Necropsy and esophagectomy were performed at 72 hours after the procedure. Two histopathologists, who were blinded to the ESC allocation, independently assessed the presence and depth of ulceration, necrosis and inflammation.

RESULTS

A total of 45 resections were analyzed. In the LPCC and MCC groups, ulceration extending into the muscularis propria was present in 9/24 (37.5 %) and 1/21 (4.8 %) resected specimens, respectively (P = 0.04). Necrosis extending into the muscularis propria was present in 13/24 (54.1 %) and 1/21 (4.8 %) resected specimens, respectively (P = 0.002). One case of microperforation with muscularis propria injury was noted in the LPCC group compared with none in the MCC group. The quantified mean depth of ulceration, necrosis, and acute inflammation was significantly greater in the LPCC group.

CONCLUSIONS

In an in vivo porcine survival model of esophageal endoscopic mucosal resection, the use of MCC resulted in significantly less deep thermal ulceration, necrosis, and acute inflammation compared with LPCC. MCC should be used in preference over LPCC for esophageal endoscopic resection.

摘要

背景与研究目的

狭窄形成是食管内镜切除的主要限制因素。食管及其他胃肠道部位内镜切除的最佳电外科电流（ESC）尚不清楚。所使用的ESC类型与术后食管狭窄的发生之间可能存在关联。与低功率凝固电流（LPCC）不同，微处理器控制电流（MCC）在短脉冲切割和凝固之间交替，可避免被认为会导致深部热损伤的高峰值电压。本研究的目的是确定与用于食管内镜切除的这两种常用ESC相关的组织病理学变量。

方法

由一名内镜医师对12头成年猪进行标准的内镜下黏膜切除术，切除正常黏膜。手术按1∶1随机分为LPCC组（ERBE 100C，25W）或MCC组（ERBE Endocut Q，效果3）。术后72小时进行尸检和食管切除术。两名对ESC分配不知情的组织病理学家独立评估溃疡、坏死和炎症的存在及深度。

结果

共分析了45例切除术。在LPCC组和MCC组中，分别有9/24（37.5%）和1/21（4.8%）的切除标本出现溃疡延伸至固有肌层（P = 0.04）。分别有13/24（54.1%）和1/21（4.8%）的切除标本出现坏死延伸至固有肌层（P = 0.002）。LPCC组有1例出现固有肌层损伤的微穿孔，而MCC组无此情况。LPCC组溃疡、坏死和急性炎症的量化平均深度显著更大。