Helmrath M A, VanderKolk W E, Can G, Erwin C R, Warner B W
Division of Pediatric Surgery, Children's Hospital Medical Center, University of Cincinnati College of Medicine, OH 45229-3039, USA.
J Am Coll Surg. 1996 Nov;183(5):441-9.
Transgenic mice represent powerful tools for studying the role of genes and their expression under multiple conditions, and they may provide a unique model for studies of intestinal adaptation after massive small bowel resection (SBR). This study characterized a successful model for SBR and intestinal adaptation in the mouse.
Sham operation (bowel transection with reanastomosis) or SBR was performed on male C57BL/6 mice. A solid or liquid diet, various sizes of monofilament suture for the anastomosis, and resection of 50 or 75 percent of the proximal small intestine were studied. In other studies, intestinal adaptation was characterized as changes in intestinal wet weight, DNA, protein, villus height, crypt depth, and crypt cell proliferation rates at 12 hours, 24 hours, three days, and one, two, and four weeks after 50 percent SBR.
Survival was significantly improved with a liquid diet (8 percent compared with 88 percent; p < .001) and modestly improved by using the smallest suture for anastomosis (60 percent for 7-0 compared with 88 percent for 9-0; p = not significant). Mice did not tolerate more than 50 percent SBR (16 percent survival rate for 75 percent SBR compared with 85 percent survival rate for 50 percent SBR; p < .01). Small bowel resection augmented ileal wet weight, DNA and protein content, villus height, crypt depth, and crypt-cell proliferation rates.
Provision of a liquid diet, using a small suture for anastomosis, and resection of no more than 50 percent of the proximal small intestine are important for survival. This model will permit researchers using transgenic mice to better understand critical genes during intestinal adaptation after SBR.
转基因小鼠是研究基因在多种条件下的作用及其表达的有力工具,它们可能为大规模小肠切除术后肠道适应性研究提供独特模型。本研究对小鼠小肠切除及肠道适应性的成功模型进行了特征描述。
对雄性C57BL/6小鼠进行假手术(肠横断并重新吻合)或小肠切除术。研究了固体或液体饮食、用于吻合的不同尺寸单丝缝线以及切除近端小肠的50%或75%的情况。在其他研究中,肠道适应性表现为50%小肠切除术后12小时、24小时、3天以及1周、2周和4周时肠道湿重、DNA、蛋白质、绒毛高度、隐窝深度和隐窝细胞增殖率的变化。
液体饮食显著提高了生存率(8%对比88%;p <.001),使用最小尺寸的缝线进行吻合也适度提高了生存率(7-0缝线为60%,9-0缝线为88%;p =无显著性差异)。小鼠无法耐受超过50%的小肠切除术(75%小肠切除术的生存率为16%,50%小肠切除术的生存率为85%;p <.01)。小肠切除增加了回肠的湿重、DNA和蛋白质含量、绒毛高度、隐窝深度以及隐窝细胞增殖率。
提供液体饮食、使用小尺寸缝线进行吻合以及切除不超过近端小肠的50%对生存很重要。该模型将使使用转基因小鼠的研究人员更好地了解小肠切除术后肠道适应性过程中的关键基因。
