Mechanical Property Of Skeletal Muscle and Its Model:Dependence on the Contractile Force
スポンサーリンク
概要
- 論文の詳細を見る
A viscoelastic model of the skeletal muscle consisting of contractile component and viscous and elastic components of the resting and contracting states is devised. Parameter values of all the components are determined from the physiological observations made on frog semitendinosus muscle (fiber bundle) in Ringer's solution at 10°C. Series elasticity at the contracting state increases with an increase in tension, the viscoelasticity of the resting muscle being constant. The contractile component obeys the force-load-velocity relation, so that the apparent viscous coefficient increases with exerting contractile force. Tension responses to ramp-wise stretch of the muscle are calculated on a digital computer, and a close agreement is shown between the experimental and simulated results. The model is feasible to explaining such nonlinear characteristics as the mechanical property of the contracting muscle varying with time after stimulus and with exerting force.
- 一般社団法人 日本生体医工学会の論文
一般社団法人 日本生体医工学会 | 論文
- Evaluating the Workload Reduction of Automatic Vital Data Transmission
- Mental Fatigue Measurement Based on the Changes in Flicker Perception Threshold using Consumer Mobile Devices
- A Theoretical Study on a Computational Algorithm for Human Posture Estimation Based on Motion Capture of a Small Number of Markers
- Latest microscopic technique. From the principle to application. Development of three-dimensional microscopic system for operation of mini-pig fertilized eggs.
- A Study of the Automation of Cytodiagnosis (The Second Report):Cytophotometry Using Photomicroscanner and a Trial of Data-processing