Cancer Center and Digestive Diseases Center, Medical College of Wisconsin and Zablocki Veterans Affairs Medical Center, Milwaukee, WI, USA.
Neurogastroenterol Motil. 2010 Aug;22(8):919-26. doi: 10.1111/j.1365-2982.2010.01509.x. Epub 2010 Jun 7.
Radiation increases the frequency of small intestinal and colonic giant migrating contractions (GMCs). These contractions contribute to the diarrhea and cramping after radiation therapy and are coordinated with one another across the ileocolonic (IC) junction.
We investigated the coordination of contractile activity between the small intestine, cecum and colon in five canines following circumferential myotomy on the ileum at the IC junction and compared it to intact animals. Studies were performed before and during a radiation schedule.
Myotomy increased the frequency of small intestinal GMCs prior to irradiation. In intact animals, the duration and amplitude of cecal GMCs decreased when multiple contractions occurred in rapid succession. This is in contrast to small intestinal and colonic GMCs and suggests a different mechanism of propagation for GMCs within the cecum. Ileal myotomy dramatically decreased the frequency of propagating radiation-induced colonic GMCs. The total number of colonic GMCs was not altered. Colonic contractile activity was disrupted in intact animals during irradiation. However, after ileal myotomy, irradiation did not affect the pattern of colonic contractile states. Diarrhea in irradiated animals with myotomy started earlier than intact animals. This may be related to the frequency of small intestinal GMCs.
CONCLUSIONS & INFERENCES: Our findings suggest importance of the enteric neural connections at the IC region to contractile disorders of both the small and large intestine. The anatomic relationship between the canine IC junction is similar to the human ileo-appendiceal-colonic region and surgical manipulations of this area may likewise affect human contractile activity.
辐射会增加小肠和结肠巨蠕动收缩(GMCs)的频率。这些收缩会导致放射治疗后的腹泻和痉挛,并在回盲肠(IC)交界处相互协调。
我们在 IC 交界处的回肠进行环形肌切开术后,研究了五只犬的小肠、盲肠和结肠之间的收缩活动协调性,并将其与完整动物进行了比较。研究在放射治疗前和治疗期间进行。
肌切开术增加了照射前小肠 GMC 的频率。在完整动物中,当多个收缩连续快速发生时,盲肠 GMC 的持续时间和幅度减小。这与小肠和结肠 GMC 相反,表明 GMC 在盲肠内的传播有不同的机制。回肠肌切开术显著降低了传播性辐射诱导的结肠 GMC 的频率。结肠 GMC 的总数没有改变。在照射期间,完整动物的结肠收缩活动受到干扰。然而,在回肠肌切开术后,照射不会影响结肠收缩状态的模式。有肌切开术的照射动物的腹泻比完整动物更早开始。这可能与小肠 GMC 的频率有关。
我们的发现表明 IC 区域的肠神经连接对小肠和大肠的收缩障碍很重要。犬 IC 交界处的解剖关系与人类回盲肠结肠区域相似,该区域的手术操作可能同样会影响人类的收缩活动。
