Kuriyama H, Mishima K, Suzuki H
J Physiol. 1975 Oct;251(2):317-31. doi: 10.1113/jphysiol.1975.sp011095.
The mechanical and electrical properties of the longitudinal (fundus and corpus) and circular (antrum) muscle fibres of the guinea-pig stomach were investigated. 1. In the longitudinal but not in the circular muscle isotonic K Krebs and Na-free (sucrose) Krebs solutions produced a contracture with a tonic component. The different mechanical responses were not accompanied by different membrane responses. Verapamil abolished both phasic and tonic components of K-induced contracture. 2. During the tonic response of the K-induced contracture, repolarization of the membrane by current pulses relaxed the tissue; after cessation of the current pulse, rebound contracture occurred. In the circular muscle, the Q10 value for the rate of relaxation induced by inward current pulse was 3-1 and for the development of rebound contracture was 2-4. 3. After the tissue had been immersed in Ca-free isotonic K Krebs solution, application of Ca produced a large contracture in the longitudinal muscle, but contracture in the circular muscle was small or absent. However, the amplitude of subsequent carbachol-induced contracture in the above solution was enlarged in proportion to the durations of Ca treatment in both tissues. 4. Direct tetanic electrical stimulation could produce tension in both tissues. With low frequency of stimulation (0-1 Hz) a positive staircase was observed in the circular but not in the longitudinal muscle. 5. It is concluded from these results that topical differences of the motility in the stomach may be due not only to the activity of nervous elements, but also to differences in the properties of the muscle fibres themselves.
对豚鼠胃的纵向(胃底和胃体)和环形(胃窦)肌纤维的机电特性进行了研究。1. 在纵向肌而非环形肌中,等渗K氏 Krebs液和无钠(蔗糖)Krebs液可产生带有强直成分的挛缩。不同的机械反应并未伴随不同的膜反应。维拉帕米消除了K诱导挛缩的相性和强直成分。2. 在K诱导挛缩的强直反应期间,电流脉冲使膜复极化可使组织松弛;电流脉冲停止后,会出现反跳性挛缩。在环形肌中,内向电流脉冲诱导的松弛速率的Q10值为3.1,反跳性挛缩发展的Q10值为2.4。3. 将组织浸入无钙等渗K氏Krebs液后,施加钙可使纵向肌产生大的挛缩,但环形肌的挛缩较小或无挛缩。然而,在上述溶液中,随后卡巴胆碱诱导的挛缩幅度在两个组织中均与钙处理的持续时间成比例增大。4. 直接强直电刺激可使两个组织都产生张力。在低频刺激(0 - 1Hz)时,在环形肌中观察到正阶梯现象,而在纵向肌中未观察到。5. 从这些结果得出结论,胃运动的局部差异可能不仅归因于神经元件的活动,还归因于肌纤维本身特性的差异。