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1 ecause of the amount of activity rather than exercise intensity.
2 production of sweat lactate upon varying the exercise intensity.
3 ented hypoxic vasodilatation is dependent on exercise intensity.
4 ether the degree of blunting is dependent on exercise intensity.
5 red components of physical activity, such as exercise intensity.
6 nitude of the decrease generally paralleling exercise intensity.
7 end, in large part, on degree of fitness and exercise intensity.
8 when perceived exertion is used to establish exercise intensity.
9 ing exercise in race walkers over a range of exercise intensities.
10  individuals exercising at the same relative exercise intensities.
11 at submaximal and in 4/7 subjects at maximal exercise intensities.
12 nsive Wistar-Kyoto rats over a wide range of exercise intensities.
13  fibres preferentially increased flow at low exercise intensities.
14 nd measure and compare absolute and relative exercise intensities.
15 indexes of injury may be enhanced at lighter exercise intensities.
16 f, for each subject and over a wide range of exercise intensities.
17            This study showed whether aerobic exercise intensity affects the loss of abdominal fat and
18 k-years of smoking, daily physical activity, exercise intensity, alcohol intake, and fruit and vegeta
19 tory activity of both muscles increased with exercise intensity, although peak values averaged only 1
20 ld between steady-state and non-steady-state exercise intensities and the curvature constant (W') ind
21                                          How exercise intensity and concomitant effective changes aff
22 at the balance between the two may depend on exercise intensity and duration, the presence of preclin
23 was similar in young and older adults across exercise intensities, and thus the age-associated impair
24 ercise and the effect of endurance training, exercise intensity, and lipid supplementation on these r
25 gated associations of leisure-time activity, exercise intensity, and walking habits, assessed at base
26 nd ventilatory responses to all steady state exercise intensities; and (b) during sustained high inte
27  accurately and reliably produce an expected exercise intensity (approximately 75% of V O2max) for 10
28           This occurs across a wide range of exercise intensities, as well as when exercise is combin
29   A reduction in lactate threshold, i.e. the exercise intensity at which blood lactate concentration
30 ar exercise are strikingly influenced by the exercise intensity, both with respect to model order and
31 ycemia were significantly greater after both exercise intensities compared with that of control subje
32 al clearance following no exercise and three exercise intensity conditions in nine healthy adults aft
33 o higher metabolic rates within the moderate exercise intensity domain is modulated by oxidative enzy
34 creased above resting levels with increasing exercise intensity during hyperventilation and during hy
35 ve been noted for mild to vigorous ranges of exercise intensity, for as few as three exercise session
36 ory exchange ratio increased with increasing exercise intensity from 0.84 +/- 0.02 at 60% to 0.99 0.0
37 2 and intramuscular metabolism, dissociating exercise intensity from the power output and work done.
38                                              Exercise intensity had a U-shaped relationship with AF (
39  either Q(m) or (V(O(2)(m))) between the two exercise intensities; however, the MRT(p)for a-(V(O(2))
40                                              Exercise intensity (i.e. magnitude of intramuscular meta
41 ids, and ammonia production in proportion to exercise intensity; if the exercise is intense enough, t
42 en (P < 0.05), and was not different between exercise intensities in women.
43 ed expiration-related decreases in firing as exercise intensity increased.
44 primary mode of locomotion across a range of exercise intensities is quadratically related to heart-r
45  predominantly carbohydrate utilization when exercise intensity is increased.
46 ns of cycle ergometer training for 6 wk with exercise intensity kept near maximal targets.
47                                              Exercise intensity may affect the selective loss of abdo
48 penditure (1000 kcal/wk vs 2000 kcal/wk) and exercise intensity (moderate vs vigorous).
49  of fluoride renal clearance with increasing exercise intensity needs to be investigated in a larger
50 ed glucose tolerance, but whether increasing exercise intensity offers additional benefit at fixed ex
51 )/MAP) were lower in the older group at each exercise intensity (P < 0.05).
52  relationship was observed, with the highest exercise intensities promoting the highest increases in
53                This may be attributed to low exercise intensities recruiting primarily oxidative musc
54                   By low, moderate, and high exercise intensity, respectively: fasting insulin-men, 1
55     Fixed amounts of exercise independent of exercise intensity resulted in similar reductions in abd
56 metabolism was measured over a wide range of exercise intensities, revealing a relatively complete pi
57                                  At moderate exercise intensities, the mechanism(s) underlying this a
58 e that blood flow increases as a function of exercise intensity to several areas of the brain associa
59 moderators indicated that exercise duration, exercise intensity, type of cognitive performance assess
60 h COPD to accurately and reliably produce an exercise intensity using a target dyspnea rating (TDR) v
61                                      Average exercise intensity was associated with reduced CHD risk
62                                      Average exercise intensity was associated with reduced risk inde
63                                              Exercise intensity was characterized as low, moderate, o
64                                              Exercise intensity was kept relative to fitness levels f
65                 Dyspnea ratings at different exercise intensities were not found to be significantly
66 ll walking score, leisure-time activity, and exercise intensity were each associated with lower risk.
67                    Leisure-time activity and exercise intensity were updated at baseline, 1992, and 1
68 nship between MPS at 1-2 h post-exercise and exercise intensity, which was blunted (P < 0.05) in the
69 was an inverse dose-response relationship of exercise intensity with selected risk factors.
70                         Studies manipulating exercise intensity/workload have shown that increases in

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