ライフサイエンスコーパス: high-intensity exercise

1 tion of reactive oxygen species (ROS) during high intensity exercise.

2 in in situ studies involving short duration, high intensity exercise.

3 re types and the power-time relationship for high-intensity exercise.

4 on in 2-hour glucose level was restricted to high-intensity exercise.

5 intensity exercise and 1 per 23 182 hours of high-intensity exercise.

6 ery might limit (V(O(2)(m))) kinetics during high-intensity exercise.

7 elated with the increasing energy demands of high-intensity exercise.

8 ing to the decline in work efficiency during high-intensity exercise.

9 (AFPT), reflecting the ability to undertake high-intensity exercise.

10 s, seen most clearly with the high amount of high-intensity exercise.

11 onstant-load work rate of both moderate- and high-intensity exercise.

12 both V(O(2)) and [PCr] were more complex for high-intensity exercise.

13 rucial determinant of the ability to sustain high-intensity exercise.

14 ygen uptake (.V(O2)) to a subsequent bout of high-intensity exercise.

15 and subsequently improve the performance of high-intensity exercises.

16 reduction in stroke volume for both low and high intensity exercise, 2) an abnormal linkage of venti

17 nction during short duration (9 min) low and high intensity exercise (40 and 75% of peak work).

18 h-dynamic sports, suggesting that high-level high-intensity exercise activities should be entertained

19 gy cost and oxygen requirement occurs during high-intensity exercise and contributes to exercise limi

20 of a cardiovascular event is low after both high-intensity exercise and moderate-intensity exercise

21 sive exercise and recovery times after brief high intensity exercise are abnormal in patients after t

22 esponses relative to the work rate input for high-intensity exercise are non-linear, as are, it appea

23 mance during prolonged bouts of moderate- to high-intensity exercise as well as for acute post-exerci

24 physiological responses is that of muscle to high intensity exercise, as espoused by power athletes a

25 The oxygen cost of high-intensity exercise at power outputs above an indivi

26 in capillary blood flow during both low- and high-intensity exercise compared with the control group.

27 f the hyperbolic power-time relationship for high-intensity exercise defines a threshold between stea

28 High-intensity exercise did not lead to a greater CFI th

29 rovide supportive evidence that moderate and high intensity exercise elicit different signaling respo

30 e, that brief, frequently completed bouts of high intensity exercise embedded within an individual's

31 P = .34) and from 338.1 m to 371.2 m in the high-intensity exercise group (within-group mean change,

32 disease (fractional flow reserve </=0.75) to high-intensity exercise (group A, 20 patients) or modera

33 at 50% of Vo2peak) (n = 76); or high-amount, high-intensity exercise (HAHI) (360 and 600 kcal/session

34 (HR 0.72, 95% CI 0.58 to 0.89) but not with high-intensity exercise (HR 0.87, 95% CI 0.64 to 1.19).

35 ecline in muscle contractile function during high-intensity exercise (i.e. muscle fatigue) is general

36 iate findings and assess long-term safety of high intensity exercise in HCM.

37 dent forearm cutaneous vasodilatation during high intensity exercise in the heat.

38 Fatigue sustained during short-term, high-intensity exercise in humans is associated with the

39 eomic analysis of hypothalamic extracts that high-intensity exercise in recurrently hypoglycemic rats

40 l dishabituating stimulus (a single burst of high-intensity exercise) in male Sprague-Dawley rats res

41 Parenteral lipid supplementation during high-intensity exercise increases fat oxidation, but the

42 ntensity shapes the transcriptomic response: high-intensity exercise induces inflammatory, cytokine a

43 In the first 2 min of high intensity exercise, inhaled NO (80 p.p.m.) signific

44 stroke volume index (P=0.003), especially at high-intensity exercise (interaction P=0.004 and P=0.003

45 , the risks and benefits of moderate- versus high-intensity exercise interventions are compared.

46 ng with or without prolonged light exercise, high-intensity exercise is a much more efficient means t

47 Capillary recruitment during low- and high-intensity exercise is normal in uncomplicated type

48 Limiting high-intensity exercise is recommended for patients with

49 gnitude of the V(O(2)) slow component during high-intensity exercise is reflected within the exercisi

50 ercise confers numerous health benefits, and high intensity exercise may accelerate and magnify many

51 Acute bouts of high-intensity exercise modulate peripheral appetite reg

52 ss sensitivity across their body and whether high intensity exercise modulates this sensitivity.

53 s have been shown to be more complex: during high-intensity exercise neither mono-exponentiality nor

54 that, considering the beneficial effects of high-intensity exercise on arterial stiffness, it would

55 fasting, (2) 90-min light exercise, and (3) high-intensity exercise on peripheral venous BDNF in 12

56 elevated by starvation, caloric restriction, high-intensity exercise, or the low-carbohydrate ketogen

57 Sixteen minutes of high-intensity exercise over 14 days augments insulin se

58 becoming increasingly popular for improving high-intensity exercise performance because it is the ra

59 as demonstrated in response to moderate- and high-intensity exercise performed for 10 hours per week.

60 n how some acute, yet transient responses to high intensity exercise potentially reduce the risks of

61 modal prehabilitation program consisted of a high-intensity exercise program 3 times per week, a nutr

62 se groups underwent a supervised, multimodal high-intensity exercise program that included progressiv

63 conducted to determine the feasibility of a high intensity exercise programme and explore safety and

64 A high intensity exercise programme is feasible in patient

65 The feasibility and impact of high intensity exercise programmes in patients with hype

66 ercise intensities; and (b) during sustained high intensity exercise, reduced O(2) transport, increas

67 s physical activity, as well as high-volume, high-intensity exercise regimens, based on current under

68 e confirmed that prolonged or short-duration high intensity exercise results in increased radical pro

69 We also show that high-intensity exercise results in a reduction in the sk

70 ce performance during prolonged moderate- to high-intensity exercise sessions and accelerate post-exe

71 t cardiovascular adaptations associated with high-intensity exercise, such exercise should be conside

72 work has shown that discrete, brief bouts of high intensity exercise (termed 'exercise snacks') can i

73 ss, assessed by peak oxygen utilization on a high-intensity exercise test (VO(2) peak), was positivel

74 Fat oxidation is lower in high-intensity exercise than in moderate-intensity exerc

75 With low intensity exercise and high intensity exercise the ArgArg group continued to ha

76 in one of three exercise groups: high-amount-high-intensity exercise, the caloric equivalent of joggi

77 rcent of peak oxygen consumption; low-amount-high-intensity exercise, the equivalent of jogging 12 mi

78 During constant-power high-intensity exercise, the expected increase in oxygen

79 ypothesis, we used a novel intense stimulus (high-intensity exercise) to demonstrate two classic feat

80 ce supporting a potential mechanism by which high intensity exercise training leads to atrial fibrill

81 We evaluated the effects of 24 months of high intensity exercise training on left atrial (LA) mec

82 Twenty-four months of high intensity exercise training resulted in LA greater

83 wise healthy, middle-aged adults, 2 years of high-intensity exercise training improved integrated car

84 hy middle-aged adults, a 2 year programme of high-intensity exercise training improved integrated car

85 Six weeks of high-intensity exercise training increased circulating G

86 study, we examined the effect of 2 years of high-intensity exercise training on integrated cardiovas

87 the human medial gastrocnemius muscle during high intensity exercise using localized 31P-magnetic res

88 For standard pairwise meta-analysis and NMA, high-intensity exercise versus control (mean difference

89 imental studies were excluded, the effect on high-intensity exercise versus control and moderate stat

90 and climb stairs (P = .01) but self-reported high-intensity exercise, walking for exercise, walking o

91 reserving contracting muscle function during high-intensity exercise, which is also applicable to the

92 a transient catabolic stress response during high-intensity exercise, which is followed by transcript

93 tant (W') of the power-time relationship for high-intensity exercise will be correlated with type I a

94 volumes were analyzed more frequently during high-intensity exercise with RT-ungated compared with ga