Physiologic Factors Influencing the Arterial-To-End-Tidal CO 2 Difference and the Alveolar Dead Space Fraction in Spontaneously Breathing Anesthetised Horses

The arterial to end-tidal CO difference (P CO ) and alveolar dead space fraction (VDalv  = P CO /PaCO ), are used to estimate Enghoff's "pulmonary dead space" (V/Q ), a factor which is also influenced by venous admixture and other pulmonary perfusion abnormalities and thus is not just...

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Veröffentlicht in:Frontiers in veterinary science 2018, Vol.5, p.58
Hauptverfasser: Mosing, Martina, Böhm, Stephan H, Rasis, Anthea, Hoosgood, Giselle, Auer, Ulrike, Tusman, Gerardo, Bettschart-Wolfensberger, Regula, Schramel, Johannes P
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Sprache:eng
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Zusammenfassung:The arterial to end-tidal CO difference (P CO ) and alveolar dead space fraction (VDalv  = P CO /PaCO ), are used to estimate Enghoff's "pulmonary dead space" (V/Q ), a factor which is also influenced by venous admixture and other pulmonary perfusion abnormalities and thus is not just a measure of dead space as the name suggests. The aim of this experimental study was to evaluate which factors influence these CO indices in anesthetized spontaneously breathing horses. Six healthy adult horses were anesthetized in dorsal recumbency breathing spontaneously for 3 h. Data to calculate the CO indices (response variables) and dead space variables were measured every 30 min. Bohr's physiological and alveolar dead space variables, cardiac output (CO), mean pulmonary pressure (MPP), venous admixture [Formula: see text], airway dead space, tidal volume, oxygen consumption, and slope III of the volumetric capnogram were evaluated (explanatory variables). Univariate Pearson correlation was first explored for both CO indices before V/Q and the explanatory variables with rho were reported. Multiple linear regression analysis was performed on P CO and VDalv assessing which explanatory variables best explained the variance in each response. The simplest, best-fit model was selected based on the maximum adjusted and smallest Mallow's p (C ). The of the selected model, representing how much of the variance in the response could be explained by the selected variables, was reported. The highest correlation was found with the alveolar part of V/Q to alveolar tidal volume ratio for both, P CO (  = 0.899) and VDalv (  = 0.938). Venous admixture and CO best explained P CO (  = 0.752; C  = 4.372) and VDalv (  = 0.711; C  = 9.915). Adding MPP (P CO ) and airway dead space (VDalv ) to the models improved them only marginally. No "real" dead space variables from Bohr's equation contributed to the explanation of the variance of the two CO indices. P CO and VDalv were closely associated with the alveolar part of V/Q and as such, were also influenced by variables representing a dysfunctional pulmonary perfusion. Neither P CO nor VDalv should be considered pulmonary dead space, but used as global indices of V/Q mismatching under the described conditions.
ISSN:2297-1769
2297-1769