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孙启新氏报道,为了在更广泛的基础上探讨肾与耳关系的实质,在建立豚鼠的模拟肾阳虚病理模型的基础上,将实验动物分为肾阳虚组、肾阳虚+温肾组和正常对照组三组,观察动物内耳生物电的变化。实验结果,肾阳虚动物的内耳生物电波型异常,振幅降低,阀刺激强度增高,电位持续时间缩短,表明该组动物听神经兴奋性降低,被兴奋细胞数减少,内耳内环境稳定程度差。温肾组的电位变化较小,上述指标均有改善。提示肾阳虚动物的听觉系统有严重损害,而温肾组用温补肾阳法可使之改善。说
Sun Qixin reported that in order to explore the essence of the relationship between the kidney and the ear on a broader basis, the experimental animals were divided into groups of Kidney-Yang Deficiency, Kidney-Yang Deficiency and Warm-Kidney on the basis of establishing a pathological model of kidney yang deficiency of guinea pigs. Three groups of the normal control group were observed for changes in the bioelectricity of the animals’ inner ear. As a result of the experiment, the inner ear of the kidney-yang-deficient animal exhibited an abnormal biological wave pattern, reduced amplitude, increased valve stimulation intensity, and shortened potential duration, indicating that the auditory nerve excitability of the animal was reduced, the number of excited cells was reduced, and the inner ear had poor environmental stability. The changes in the potential of the kidney-warming group were small, and the above indicators were all improved. It is suggested that the auditory system of the kidney-yang deficiency animal is severely damaged, while the warm kidney group can be improved by warming kidney-yang method. Say