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1 ect and is apparent only in conjunction with maximal oxygen uptake.
2 est fraction by far (70.2%) was explained by maximal oxygen uptake.
3 ively, age, gender and heart size influenced maximal oxygen uptake.
4 -4 years; body mass index 25.0+/-0.8 kg m-2, maximal oxygen uptake 29+/-1 ml kg-1 min-1 (mean+/-s.e.m
5 Fontan operation have demonstrated subnormal maximal oxygen uptake and exercise heart rate, but the p
6 bility was positively correlated with IS and maximal oxygen uptake and inversely correlated with perc
8 ence of an optimal villi density providing a maximal oxygen uptake as a trade-off between the incomin
9 herapy by stable symptoms, a relatively high maximal oxygen uptake at peak exercise and a preserved c
12 as validated on a sample of 10 subjects with maximal oxygen uptake determined directly using a treadm
14 in a metabolic chamber and cycled at 45% of maximal oxygen uptake for 2 h each day during the exerci
15 .6 pmol min-1 kg-1) which coincided with the maximal oxygen uptake for the horses (138.3 +/- 11.7 ml
16 the MFO in healthy men and women.The MFO and maximal oxygen uptake ([Formula: see text]O2 max) were d
17 trol followed by exercise (30 min at ~75% of maximal oxygen uptake); (iii) carbohydrate (75 g maltode
18 fit of high affinity haemoglobin to preserve maximal oxygen uptake in acute hypoxia but the comparati
19 -km time trial, work rate, and percentage of maximal oxygen uptake in subjects with a baseline serum
21 In the postoperative group, predictors of maximal oxygen uptake included age at exercise testing,
22 ations explained the observed improvement in maximal oxygen uptake, indicating that passive heat can
25 postoperative group had significantly higher maximal oxygen uptake (mean [+/- SD] 20.5 +/- 7.4 vs. 25
27 standardized, aerobic exercise (70% of their maximal oxygen uptake on a salt-standardized background)
28 t carnitine supplementation does not improve maximal oxygen uptake or metabolic status during exercis
29 analysis was used to identify predictors of maximal oxygen uptake, oxygen saturation and heart rate
31 independent predictor of exercise capacity (maximal oxygen uptake, p = 0.004) and was independently
32 dies published in the 1990s demonstrate that maximal oxygen uptake (peak VO2) is an independent predi
33 ial cristae density is a better predictor of maximal oxygen uptake rate than muscle mitochondrial vol
34 plantation showed significant improvement in maximal oxygen uptake (standardized mean difference, 0.7
35 healthy volunteer men at rest and during 50% maximal oxygen uptake steady-state submaximal cycling ex
37 ght or left ventricular function but reduced maximal oxygen uptake, treadmill duration, spontaneous l
38 contraction) and 7 min dynamic cycling (20 % maximal oxygen uptake) under two conditions: control (no
39 contraction) and 7 min dynamic cycling (20 % maximal oxygen uptake) under two conditions: control (no
40 a model to predict fitness level in terms of maximal oxygen uptake using anthropometric, heart rate,
42 uce the gas exchange threshold (GET) and the maximal oxygen uptake (V(.)(O(2)max)) during incremental
44 clines with aging, as evidenced by declining maximal oxygen uptake (VO(2)max ), with little known abo
45 would significantly improve iron status and maximal oxygen uptake (VO(2)max) after 4 wk of concurren
48 declines in cardiovascular fitness including maximal oxygen uptake (VO(2max)), myocardial function, e
49 E) have poor physical fitness as measured by maximal oxygen uptake (VO(2max)), which is associated wi
51 Genetics) who had cardiorespiratory fitness (maximal oxygen uptake [VO(2)max]) measured by cardiopulm
52 nstant-power exercise is unsustainable, with maximal oxygen uptake (VO2 max ) and the limit of tolera
53 (PBMCs), muscle mitochondrial capacity, and maximal oxygen uptake (VO2 max ) in healthy men aged 22.
55 diorespiratory fitness (commonly measured by maximal oxygen uptake, VO2 max ), a trait with wide-rang
56 Those with HAH had an attenuated decline in maximal oxygen uptake ( VO2max ) (4 +/- 5% vs. 12 +/- %,
57 muscle, with even modest increases enhancing maximal oxygen uptake ( VO2max ) and endurance performan
58 hen moderate disease severity was confirmed, maximal oxygen uptake ( VO2max ) tests were performed.
59 myscus maniculatus) have greater thermogenic maximal oxygen uptake ( VO2max ) than lowland white-foot
60 el parameters of aerobic performance are the maximal oxygen uptake ( VO2max ), critical power (CP) an
62 steady-state exercise tests (p < 0.05), and maximal oxygen uptake (VO2max) and ventilation increased
65 en average fit (AF) individuals, with a mean maximal oxygen uptake (VO2max) of 49 +/- 1 (ml O2) kg-1
67 , patients who had had PNX showed diminished maximal oxygen uptake (VO2max), as well as diminished lu
74 cclimation can increase haemoglobin mass and maximal oxygen uptake; whether passive heat can produce