1.
Research on the Effects of Chloral Hydrate on Contractility of Isolated Skeleton Muscle;
水合氯醛对离体骨骼肌收缩性的影响
2.
The Current Situation of Studying the Force Transmission in Skeletal Muscle;
骨骼肌收缩张力传递方式的研究现状
3.
Revision on the Planimetric Model of Unipennate Skeletal Muscle and Fem-Simulation of Skeletal Muscle Contraction;
单羽状骨骼肌平面模型的修正及骨骼肌收缩的有限元模拟
4.
The Isovolumic Model on Skeletal Muscle Contractions and Its Electrophysiological Experiments;
骨骼肌收缩的等体积模型及其电生理实验研究
5.
The Influence of Exhaustion Swimming on the Contractible Properties of White Mice Skeletal Muscle;
力竭运动对小鼠骨骼肌收缩性能的影响
6.
The Effect of K~+ and Ca~(2+) Upon the Muscular Contraction of Amphibian;
钾离子和钙离子对两栖类骨骼肌收缩性的作用
7.
The Impact of Eccentric Exercises on Contractile Character and Material Character of Skeletal Muscle
离心运动对骨骼肌收缩特性和材料特性的影响
8.
Effects of Chinese Angelica Alcohol Extracts on Skeletal Muscles Contraction and Its Preliminary Mechanism;
当归酒精提取液对骨骼肌收缩力的影响及其机制初探
9.
Effect and Mechanism of Codonopsis Lanceolata on Skeletal Muscle Contractility in Rats;
轮叶党参对骨骼肌收缩力学的影响及其机制探讨
10.
Effects of Xuefu Zhuyu Oral Liquid on Skeletal Muscle Contraction and Its Preliminary Mechanism in Rat;
血府逐瘀口服液对大鼠骨骼肌收缩的影响及其机制初探
11.
Effect of Skeletal Muscle Contraction Modes on Phosphorylation of p38/Akt and Recovery Rate after Fatigue;
骨骼肌收缩模式对p38/Akt磷酸化水平与疲劳恢复的影响
12.
The Effect of Nitric Oxide and Reactive Oxygen Species on the Regulation of Skeletal Muscle Contraction;
一氧化氮和活性氧在骨骼肌收缩过程中的调节作用
13.
Effect and mechanism of reactive oxygen species on contraction-induced glucose transport into the skeletal muscle
骨骼肌收缩介导葡萄糖转运中活性氧的作用及其机制
14.
Changes in Tetanic Contraction during Rat Skeletal Muscle Atrophy and Possible Mechanisms;
萎缩骨骼肌强直收缩功能的动态变化及其机理
15.
Features of Muscle Force and sEMG during Isokinrtic Eccentric Contraction in Different Speed;
骨骼肌不同速度离心收缩时肌力与sEMG交互特征
16.
An experimental study of the effect of intensity reduced training on the maximum isometric contraction strength of skeletal muscle of rats;
减量训练对大鼠骨骼肌最大等长收缩力的影响
17.
The Metabolism of Glucose in Rapid Contraction Skeletal Muscle(Review)--The Model of "Glycogen Shunt;
骨骼肌快速收缩时的糖代谢——糖原短路模型
18.
Signal Channel of Contraction-induced Glucose Transport in Skeletal Muscle
收缩引起骨骼肌葡萄糖转运的信号通道