Discipline of Human Physiology, Flinders Medical Science and Technology, Flinders University, Adelaide, South Australia, Australia.
Neurogastroenterol Motil. 2013 Aug;25(8):670-6. doi: 10.1111/nmo.12129. Epub 2013 May 1.
In animal models, enteric reflex pathways have potent effects on motor activity; their roles have been much less extensively studied in human gut. The aim of this study was to determine if ascending excitatory interneuronal pathways can modulate spontaneous phasic contractions in isolated preparations of human colonic circular muscle.
Human colonic preparations were cut into T shapes, with vertical bar of the 'T' pharmacologically isolated. Electrical stimulation and the nicotinic agonist, 1,1-dimethyl-4-phenylpiperazinium iodide (DMPP), were applied to the isolated region and circular muscle contractile activity was measured from the cross-bar of the T, more than 10 mm orally from the region of stimulation.
The predominant form of spontaneous muscle activity consisted of tetrodotoxin-resistant, large amplitude, slow phasic contractions (SPCs), occurring at average intervals of 124 ± 68 s. Addition of a high concentration of hexamethonium (1 mmol L(-1)) to the superfusing solution significantly increased the interval between SPCs to 278.1 ± 138.3 s (P < 0.005). Focal electrical stimulation more than 10 mm aboral to the muscle recording site advanced the onset of the next SPC, and this effect persisted in hexamethonium. However, the effect of electrical stimulation was blocked by tetrodotoxin (TTX, 1 μmol L(-1)). Application of the nicotinic agonist DMPP (1 mmol L(-1)) to the aboral chamber often stimulated a premature SPC (n = 4).
CONCLUSIONS & INFERENCES: The major form of spontaneous contractility in preparations of human colonic circular muscle is SPCs, which are myogenic in origin. Activation of ascending excitatory neural pathways, which involve nicotinic receptors, can modulate the timing of SPCs and thus influence human colonic motility.
在动物模型中,肠反射通路对运动活动有很强的影响;而在人类肠道中,对其作用的研究要少得多。本研究旨在确定上行兴奋性中间神经元通路是否可以调节人结肠环形肌分离标本中的自发性阶段性收缩。
将人结肠标本切成 T 形,其中垂直 T 形的“T”形用药理学方法分离。将电刺激和烟碱激动剂 1,1-二甲基-4-苯基哌啶鎓碘化物(DMPP)施加到分离区域,从 T 形的交叉臂测量环形肌的收缩活性,距离刺激区域 10mm 以上的口侧。
自发性肌肉活动的主要形式是河豚毒素(TTX)抗性、大振幅、慢阶段性收缩(SPCs),平均间隔为 124±68s。在灌流液中添加高浓度六烃季铵(1mmol/L)可使 SPC 之间的间隔显著增加至 278.1±138.3s(P<0.005)。远高于肌肉记录部位的局灶性电刺激可提前下一次 SPC 的发作,且该效应在六烃季铵存在时持续存在。然而,电刺激的作用被 TTX(1μmol/L)阻断。将烟碱激动剂 DMPP(1mmol/L)施加到远腔室通常会刺激过早的 SPC(n=4)。
人结肠环形肌分离标本中自发性收缩的主要形式是 SPCs,其起源于肌源性。上行兴奋性神经通路的激活,涉及烟碱受体,可调节 SPC 的时间,并因此影响人结肠的运动。
