The effects of ventilation pattern on carbon dioxide transfer in three computer models of the airways |
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| Authors: | Whiteley J P Turner M J Baker A B Gavaghan D J Hahn C E W |
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| Affiliation: | Department of Anaesthetics, University of Sydney, Royal Prince Alfred Hospital, Building 92, Missenden Road, Camperdown, NSW 2050, Australia. |
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| Abstract: | We investigate the effects on arterial P(CO(2)) and on arterial-end tidal P(CO(2)) difference of six different ventilation patterns of equal tidal volume, and also of various combinations of tidal volume and respiratory rate that maintain a constant alveolar ventilation. We use predictions from three different mathematical models. Models 1 (distributed) and 2 (compartmental) include combined convection and diffusion effects. Model 3 incorporates a single well-mixed alveolar compartment and an anatomical dead-space in which plug flow occurs. We found that: (i) breathing patterns with longer inspiratory times yield lower arterial P(CO(2)); (ii) varying tidal volume and respiratory rate so that alveolar ventilation is kept constant may change both PA(CO(2)) and the PA(CO(2))-PET(CO(2)) difference; (iii) the distributed model predicts higher end-tidal and arterial P(CO(2)) than the compartmental models under similar conditions; and (iv) P(CO(2)) capnograms predicted by the distributed model exhibit longer phase I and steeper phase II than other models. |
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| Keywords: | Carbon dioxide, arterial-end tidal PCO2 difference Mammals, humans Models, CO2 expirogram Pattern of breathing, CO2 expirogram |
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