Journal
JOURNAL OF APPLIED PHYSIOLOGY
Volume 88, Issue 5, Pages 1650-1658Publisher
AMER PHYSIOLOGICAL SOC
DOI: 10.1152/jappl.2000.88.5.1650
Keywords
pulmonary blood flow; solubility; inhomogeneity; dead space
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Funding
- NCRR NIH HHS [MO1RR00585] Funding Source: Medline
- NHLBI NIH HHS [HL52230, HL46493] Funding Source: Medline
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An open-circuit (OpCirc) acetylene uptake cardiac output ((Q)over dot T) method was modified for use during exercise. Two computational techniques were used. OpCirc1 was based on the integrated uptake vs. end-tidal change in acetylene, and OpCirc2 was based on an iterative finite difference modeling method. Six subjects [28-44 yr, peak oxygen consumption ((V)over dot O-2) = 120% predicted] performed cycle ergometry exercise to compare (Q)over dot T using OpCirc and direct Fick methods. An incremental protocol was repeated twice, separated by a 10-min rest, and subsequently subjects exercised at 85-90% of their peak work rate. Coefficient of variation of the OpCirc methods and Fick were highest at rest (OpCirc1, 7%, OpCirc2, 12%, Fick, 10%) but were lower at moderate to high exercise intensities (OpCirc1, 3%, OpCirc2, 3%, Fick, 5%). OpCirc1 and OpCirc2 (Q)over dot T correlated highly with Fick T (R-2 = 0.90 and 0.89, respectively). There were minimal differences between OpCirc1 and OpCirc2 compared with Fick up to moderate-intensity exercise (<70% peak Vet); however, both techniques tended to underestimate Fick at >70% peak (V)over dot O-2. These differences became significant for OpCirc1 only. Part of the differences between Pick and OpCirc methods at the higher exercise intensities are likely related to inhomogeneities in ventilation and perfusion matching (R-2 = 0.36 for Fick OpCirc1 vs. alveolar-to-arterial oxygen tension difference). In conclusion, both OpCirc methods provided reproducible, reliable measurements of (Q)over dot T during mild to moderate exercise. However, only OpCirc2 appeared to approximate Pick (Q)over dot T at the higher work intensities.
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