AI Article Synopsis
- The cardiovascular system (CVS) and respiratory system (RS) collaborate to deliver oxygen for metabolism and eliminate carbon dioxide, with blood flow adjustments impacting gas transport.
- The model discussed utilizes optimal control techniques to manage heart rate and ventilation in response to physical exertion, ensuring efficient gas exchange.
- Central nervous system controls aim to maintain arterial carbon dioxide levels around 40 mmHg while balancing oxygen supply with carbon dioxide removal based on metabolic demands.
Article Abstract
The human cardiovascular system (CVS) and respiratory system (RS) work together in order to supply oxygen (O) and other substrates needed for metabolism and to remove carbon dioxide (CO). Global and local control mechanisms act on the CVS in order to adjust blood flow to the different parts of the body. This, in turn, affects the RS since the amount of O and CO transported, respectively to and away from the tissues depends on the cardiac output and blood flow in both the systemic and pulmonary circuits of the CVS. Local metabolic control is influenced by local concentrations of blood gases affecting systemic resistance, resulting to vasoconstriction/vasodilation. Thus, the exchange of blood gases demands a tight coordination between blood flow and ventilation of the lungs. In this work, a model of the cardiovascular-respiratory system (CVRS) is considered to obtain an optimal control for time-dependent ergometric workloads by using the Euler-Lagrange formulation of the optimal control problem. The essential controls in the CVRS model are variations in the heart rate and alveolar ventilation through which the central nervous system restricts the arterial partial pressure of CO ( [Formula: see text] ) close to 40 mmHg. Further, penalization terms in the cost functional are included to match the metabolic need for O and the metabolic production of CO with O- and CO-transport by blood.
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| http://dx.doi.org/10.1016/j.mbs.2017.05.008 | DOI Listing |
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