Difference between revisions of "Short term model of the heart output regulation"
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Ilya Kiselev (Talk | contribs) (Created page with "Short-term heart output model The model was developed by Y.V. Solodyannikov <ref>Solodyannikov Y.V. The elements or mathematical modeling and...") |
Tagir Valeev (Talk | contribs) m (Link to modular model) |
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The ventricle is modeled as a pump switching between two regimes: systole and diastole. The model also operates with the oxygen debt concept and includes neuro-humoral regulation. | The ventricle is modeled as a pump switching between two regimes: systole and diastole. The model also operates with the oxygen debt concept and includes neuro-humoral regulation. | ||
| − | It was recreated | + | It was recreated as a [[Modular modeling|BioUML modular model]]. The recreated model contains: |
*58 parameters, | *58 parameters, | ||
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==References== | ==References== | ||
<references/> | <references/> | ||
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| + | [[Category:Modular modeling]] | ||
Latest revision as of 12:17, 7 May 2013
The model was developed by Y.V. Solodyannikov [1] and describes systemic blood flow through the certain reservoirs of the human body: the left ventricle, the arterial system and the venous system. The model has high time resolution with regime duration ~0.5 s. The ventricle is modeled as a pump switching between two regimes: systole and diastole. The model also operates with the oxygen debt concept and includes neuro-humoral regulation.
It was recreated as a BioUML modular model. The recreated model contains:
- 58 parameters,
- 14 assignments,
- 6 ordinary differential equations,
- 2 descrete events corresponding to systole-diastole and diastole-systole transitions.
[edit] References
- ↑ Solodyannikov Y.V. The elements or mathematical modeling and hemodynamics system identification. Samara: The university of Samara, 1994.
