Distraction Enterogenesis in Rats: A Novel Approach for the Treatment of Short Bowel Syndrome.

IF 2.7 Q2 PATHOLOGY Pathophysiology Pub Date : 2024-07-30 DOI:10.3390/pathophysiology31030029

Collyn O'Quin, Sean D Clayton, Lexus Trosclair, Hannah Meyer, Nhi H Dao, Andrew Minagar, Luke White, Valerie Welch, Giovanni Solitro, Jonathan Steven Alexander, Donald Sorrells

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Abstract

Background: Surgeons often encounter patients with intestinal failure due to inadequate intestinal length ("short bowel syndrome"/SBS). Treatment in these patients remains challenging and the process of physiologic adaptation may take years to complete, which frequently requires parenteral nutrition. We propose a proof-of-concept mechanical bowel elongation approach using a self-expanding prototype of an intestinal expansion sleeve (IES) for use in SBS to accelerate the adaptation process.

Methods: IESs were deployed in the small intestines of Sprague Dawley rats. Mechanical characterization of these prototypes was performed. IES length-tension relationships and post-implant bowel expansion were measured ex vivo. Bowel histology before and after implantation was evaluated.

Results: IES mechanical studies demonstrated decreasing expansive force with elongation. The deployment of IES devices produced an immediate 21 ± 8% increase in bowel length (p < 0.001, n = 11). Mechanical load testing data showed that the IESs expressed maximum expansive forces at 50% compression of the initial pre-contracted length. The small-intestine failure load in the rats was 1.88 ± 21 N. Intestinal histology post deployment of the IES showed significant expansive changes compared to unstretched bowel tissue.

Conclusions: IES devices were scalable to the rat intestinal model in our study. The failure load of the rat small intestine was many times higher than the force exerted by the contraction of the IES. Histology demonstrated preservation of intestinal structure with some mucosal erosion. Future in vivo rat studies on distraction enterogenesis with this IES should help to define this organogenesis phenomenon.

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大鼠的牵引性肠发生：治疗短肠综合征的新方法。

背景：外科医生经常会遇到因肠长度不足而导致肠功能衰竭的病人（"短肠综合征"/SBS）。这些患者的治疗仍然具有挑战性，生理适应过程可能需要数年才能完成，而且经常需要肠外营养。我们提出了一种概念验证的机械性肠道伸长方法，使用自膨胀式肠道扩张套筒（IES）原型，用于 SBS，以加速适应过程：方法：在 Sprague Dawley 大鼠的小肠中安装 IES。对这些原型进行了机械表征。在体外测量了 IES 的长度-张力关系和植入后的肠道扩张情况。对植入前后的肠道组织学进行了评估：结果：IES机械研究表明，扩张力随伸长而减小。植入 IES 装置后，肠管长度立即增加了 21 ± 8%（p < 0.001，n = 11）。机械负荷测试数据显示，IES在压缩初始预收缩长度的50%时表现出最大扩张力。与未拉伸的肠道组织相比，IES装置安装后的肠道组织学显示出显著的扩张性变化：结论：在我们的研究中，IES装置可扩展至大鼠肠道模型。结论：在我们的研究中，IES 装置可扩展至大鼠肠道模型。大鼠小肠的失效负荷比 IES 收缩所施加的力高出许多倍。组织学显示肠道结构得以保留，但有部分粘膜受到侵蚀。未来利用这种 IES 进行的大鼠体内牵张肠道生成研究将有助于明确这种器官生成现象。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Pathophysiology Medicine-Pathology and Forensic Medicine

CiteScore

3.10

自引率

0.00%

发文量

期刊介绍： Pathophysiology is an international journal which publishes papers in English which address the etiology, development, and elimination of pathological processes. Contributions on the basic mechanisms underlying these processes, model systems and interdisciplinary approaches are strongly encouraged.