Cardiac Twitch Properties Simulated by Three States Model

Cardiac Twitch Properties Simulated by Three States Model

We examined whether the three states model can explain the systolic and relaxation properties of cardiac muscle to clarify what factors affect these properties. Changing the values of the parameters describing the calcium transient and calcium sensitivity, we estimated the effects of these parameter...

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Bibliographic Details
Published in:The Tohoku Journal of Experimental Medicine Vol. 193; no. 4; pp. 259 - 277
Main Authors: Honda, Hideyuki, Naya, Taihei, Koiwa, Yoshiro
Format: Journal Article
Language:English
Published: Japan Tohoku University Medical Press 01-04-2001
Subjects:
Biomechanical Phenomena
Calcium Signaling
calcium transient
cardiac muscle
crossbridge kinetics
Diastole - physiology
Humans
Kinetics
Models, Biological
Myocardial Contraction - physiology
Myosins - metabolism
Systole - physiology
three states model
twitch contraction
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Summary:We examined whether the three states model can explain the systolic and relaxation properties of cardiac muscle to clarify what factors affect these properties. Changing the values of the parameters describing the calcium transient and calcium sensitivity, we estimated the effects of these parameters on the systolic and relaxation properties of twitch contraction. The simulations showed the following four features: 1) An increase in the maximum calcium concentration and calcium sensitivity, and a prolongation of the calcium transient led to an increase in peak tension associated with an increase in the time to peak tension. 2) An increase in myosin ATPase activity led to an increase in peak tension associated with a decrease in the time to peak tension. 3) An increase of peak tension was accompanied by a prolongation of the late systolic period. 4) The constant of the late tension relaxation from 25% to 10% of the peak tension was altered when the crossbridge cycling rate, the resting calcium concentration or the late decline of the calcium transient was changed. The simulation were not contradictory to the experimental results and showed that three state muscle model can provide qualitative descriptions on the systolic and relaxation characteristics of cardiac muscle.
Bibliography:ObjectType-Article-1
SourceType-Scholarly Journals-1
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content type line 23
ISSN:0040-8727
1349-3329
DOI:10.1620/tjem.193.259