Clinical studies: Exercise
Oxygen uptake efficiency slope: an index of exercise performance and cardiopulmonary reserve requiring only submaximal exercise

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Abstract

OBJECTIVES

We sought to evaluate, in adults, the efficacy of the Oxygen Uptake Efficiency Slope (OUES), an index of cardiopulmonary functional reserve that can be based upon a submaximal exercise effort.

BACKGROUND

Maximal oxygen uptake (O2 max), the most reliable measure of exercise capacity, is seldom attained in standard exercise testing. The OUES, which relates oxygen uptake to total ventilation during exercise, was proposed by Baba and coworkers (7) in a study of pediatric cardiac patients. They felt this submaximal index of cardiopulmonary reserve might be more practical than O2 max and more appropriate than the commonly used peak oxygen consumption (O2 peak).

METHODS

Treadmill exercise tests with simultaneous respiratory gas measurement were performed in 998 older subjects free of clinically recognized cardiovascular disease and 12 male patients with congestive heart failure. During incremental exercise, oxygen uptake was plotted against the logarithm of total ventilation, and the OUES was determined.

RESULTS

The OUES, when calculated only from the first 75% of the exercise test, differed by 1.9% from the OUES calculated from 100% of exercise time in subjects with a peak respiratory exchange rate ≥1.10. On serial tests the OUES was less variable than exercise duration or O2 peak. It correlated strongly with O2 max, with forced expiratory volume in 1 s and negatively with a history of current smoking. The OUES declined linearly with age in both women and men. A small sample of patients with congestive heart failure had OUES values much lower than those of older subjects without cardiovascular disease.

CONCLUSIONS

The OUES is an objective, reproducible measure of cardiopulmonary reserve that does not require a maximal exercise effort. It integrates cardiovascular, musculoskeletal and respiratory function into a single index that is largely influenced by pulmonary dead space ventilation and exercise-induced lactic acidosis.

Abbreviations

BSA
body surface area
CHF
congestive heart failure
ECG
electrocardiogram
FEV1
forced expiratory volume in 1 s
OUES
Oxygen Uptake Efficiency Slope
RER
respiratory exchange ratio
CO2
carbon dioxide production
E
minute ventilation
O2
oxygen consumption
O2 max
maximal oxygen uptake
O2 peak
peak oxygen consumption

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This work was supported by Grant R01 AG09389 from the National Institute on Aging.