Upper GI Surgery, Royal Prince Alfred Hospital, University of Sydney, Australia.
General Surgery, Assuta Ashdod Public Hospital, Ashdod, Israel.
J Surg Res. 2022 Oct;278:49-56. doi: 10.1016/j.jss.2022.04.041. Epub 2022 May 17.
Accurate early diagnosis of a gastrointestinal anastomotic leak remains a challenge. When an anastomotic leak develops, the electrical properties of the tissue undergoing inflammatory processes change, resulting from the extravasation of inflammatory fluid and cellular infiltration. The method described here intends to provide a novel early anastomotic leak warning system based upon measurable changes in tissue impedance nearby an acute inflammatory process.
A biodegradable Mg-alloy was compared with a nonabsorbable stainless steel (STS) electrode connected to a wireless recording system for impedance measurement. In vitro measurements were made in physiological solutions and small animal (eight mice) and large animal (eight pigs) models with an anastomotic leak simulated by an open colotomy. Measurements were made at 10 mm intervals from the open colon at baseline and up to 120 min comparing these with a sutured colonic wound and normal tissue.
In-vitro biodegradable magnesium electrode impedance evaluation showed good sensitivity to different media due to its environmental corrosion properties. The impedance of an acidic environment (1.06 ± 0.02 kΩ for citric acid) was twice that of phosphate-buffered saline (PBS) (0.64 ± 0.008 kΩ) with a distinction between Normal Saline (0.42 ± 0.013 kΩ) and PBS (0.64 ± 0.008 kΩ). This was in contrast to the performance characteristics of the control STS electrodes, where impedance in an acidic environment was lower than saline or PBS (citric acid:0.76 ± 0.01 kΩ versus PBS: 1.32 ± 0.014 kΩ). In a mouse model simulating an anastomotic leak, there was a significant increase in impedance after 120 min when compared with controls (99.7% increase versus 9.6% increase, respectively; P < 0.02). This effect was confirmed in a pig model when relative impedance measurements of the leak and control groups were compared (1.86 ± 0.46 versus 1.07 ± 0.02, respectively; P < 0.027).
Electrophysiological measurement shows diagnostic sensitivity for a gastrointestinal leak with potential clinical utility in the postoperative detection of early intra-abdominal sepsis. Further investigation of biodegradable tissue sensors capable of monitoring an early anastomotic leak is required.
准确诊断胃肠道吻合口漏仍然是一个挑战。当吻合口漏发生时,组织的电学特性会发生变化,这是由于炎症过程中渗出的炎性液体和细胞浸润所致。本研究旨在提供一种基于急性炎症过程附近组织阻抗可测量变化的新型早期吻合口漏预警系统。
比较了可生物降解的镁合金与不可吸收的不锈钢(STS)电极连接的无线记录系统进行阻抗测量。在生理溶液中进行了体外测量,并在小动物(8 只小鼠)和大动物(8 只猪)模型中进行了吻合口漏模拟的开放性结肠切开术。在基线和 120 分钟时,从开放性结肠每隔 10 毫米测量一次,与缝合的结肠伤口和正常组织进行比较。
体外生物降解镁电极的阻抗评估显示,由于其环境腐蚀特性,对不同介质具有良好的敏感性。酸性环境(柠檬酸为 1.06±0.02kΩ)的阻抗是磷酸盐缓冲盐水(PBS)(0.64±0.008kΩ)的两倍,与生理盐水(0.42±0.013kΩ)和 PBS(0.64±0.008kΩ)有区别。这与对照 STS 电极的性能特征形成对比,在酸性环境中,阻抗低于盐水或 PBS(柠檬酸:0.76±0.01kΩ 与 PBS:1.32±0.014kΩ)。在模拟吻合口漏的小鼠模型中,与对照组相比,120 分钟后阻抗显著增加(分别增加 99.7%和 9.6%;P<0.02)。在猪模型中,当比较漏和对照组的相对阻抗测量值时,证实了这一效果(分别为 1.86±0.46 和 1.07±0.02;P<0.027)。
电生理测量对胃肠道漏具有诊断敏感性,具有在术后检测早期腹腔内感染方面的潜在临床应用价值。需要进一步研究能够监测早期吻合口漏的可生物降解组织传感器。
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