ライフサイエンスコーパス: resistance exercise

1 an skeletal muscle after a high-fat diet and resistance exercise.

2 ine infusions and performed a single bout of resistance exercise.

3 otentially affect the adaptations to chronic resistance exercise.

4 o Sprague-Dawley rats 2 h prior to a bout of resistance exercise.

5 immediate phase of recovery following acute resistance exercise.

6 iduals and is compatible with high-intensity resistance exercise.

7 n enhanced mRNA translational capacity after resistance exercise.

8 dation in skeletal muscle is increased after resistance exercise.

9 eir DEN and expended 837 kJ/d in walking and resistance exercise.

10 an age 52 +/- 10 years) that did not perform resistance exercise.

11 l therapy, and 3.0 (1.0-5.0) for progressive resistance exercise.

12 bute to the rapamycin-independent effects of resistance exercise.

13 of motion, physical therapy, and progressive resistance exercise.

14 with measures of skeletal muscle response to resistance exercise.

15 t of PGC-1alpha4 and is induced in humans by resistance exercise.

16 ositive response to short-term and long-term resistance exercise.

17 lly induced in mouse and human muscle during resistance exercise.

18 nthesis and degradation, may be activated by resistance exercise.

19 anabolic resistance of signalling and MPS to resistance exercise.

20 ore, during, and for 2 h following a bout of resistance exercise.

21 l calcitonin with the osteogenic stimulus of resistance exercise.

22 nhibition of muscle protein synthesis during resistance exercise.

23 ulation of protein synthesis following acute resistance exercise.

24 ase; P<.05) more than did the stretching and resistance exercises.

25 heart rate reserve), and (3) stretching and resistance exercises (2 sets of 10 repetitions on each l

26 d fat)] combined with supervised aerobic and resistance exercise (60 min; 3 d/wk).

27 rcise (12% increase; P=.001), stretching and resistance exercises (9% increase; P<.02), and higher-in

28 ways through which insulin, amino acids, and resistance exercise act to regulate the protein kinase c

29 Here, we show that acute resistance exercise activated pathways controlling trans

30 eferentially induces PGC-1alpha1 expression, resistance exercise activates the expression of PGC-1alp

31 To determine whether resistance exercise affects TNF-alpha expression, frail

32 rapamycin was unaltered in response to both resistance exercise and amino acid provision.

33 th the acute cellular response to heavy-load resistance exercise and demonstrated tentative long-term

34 Furthermore, resistance exercise and lower intensity muscular conditi

35 ulated during the immediate period following resistance exercise and this response may constitute the

36 the first 24 h following a standard bout of resistance exercise, and this response is not altered wi

37 Resistance exercise appears to increase the efficiency o

38 muscle anabolic signalling were affected by resistance exercise at 20-90% of 1 repetition maximum (1

39 to determine the effect of a single bout of resistance exercise at different intensities on the mobi

40 The resistance exercise bout caused an increase in phosphory

41 se in 3MH release during the 4 h following a resistance exercise bout compared with a non-exercised c

42 ys of bed-rest from six control (BR) and six resistance-exercised (BRE) men to examine slow- and fast

43 subcellular events occurring in response to resistance exercise by providing a time course of activi

44 Resistance exercise causes little change in amino acid o

45 The effects of resistance exercise combined with testosterone supplemen

46 Surprisingly, rapamycin treatment prior to resistance exercise completely blocked the contraction-i

47 Six months of resistance exercise, consisting of low back exercise tha

48 ained from 12 healthy young men 15 min after resistance exercise contained GH concentrations that wer

49 ic efficacy of a 6-month program of specific resistance exercise designed to reverse glucocorticoid-i

50 he hypotheses that a 6-month intervention of resistance exercise did not increase the risk for or exa

51 Both aerobic exercise and resistance exercise enhance muscle protein synthesis and

52 (HFD) alone (Sed-HFD) or in combination with resistance exercise (Ex-HFD), using genome-wide profilin

53 -training group performed progressive weight-resistance exercises for the upper and lower body.

54 e participants' training involved heavy-load resistance exercise four times per week.

55 The resistance exercise group had an 8% lower score on the p

56 plant recipients were randomly assigned to a resistance exercise group that trained for 6 months (mea

57 y of studies have examined aerobic training, resistance exercise has also been shown to be inversely

58 Furthermore, resistance exercise has been proposed to activate mTOR s

59 Only the stretching and resistance exercises improved muscle strength.

60 mmediately, 1 and 3 h after an acute bout of resistance exercise in a fed (FED; 20 g Protein/40 g car

61 in other cell types, were upregulated after resistance exercise in a rapamycin-independent manner an

62 The beneficial effects of resistance exercise in aging populations are unequivocal

63 gistic effect of protein supplementation and resistance exercise in aging populations.

64 s, or lifestyle changes that include regular resistance exercise in attenuating lean-tissue loss with

65 fore and for 24 h following a single bout of resistance exercise in eight young (27 +/- 2 years) and

66 le protein synthesis during an acute bout of resistance exercise in humans would be associated with a

67 he functional and structural consequences of resistance exercise in knee OA, stratification of analys

68 tivated at rest and in response to a bout of resistance exercise in skeletal muscle of young and old

69 Following resistance exercise in the fasted state, both protein sy

70 tudy show an attenuated MGF response to high resistance exercise in the older subjects, indicative of

71 al stimulation of the sciatic nerve to mimic resistance exercise in the tibialis anterior (TA) muscle

72 Resistance exercise increases muscle protein synthesis a

73 Protein consumed after resistance exercise increases postexercise muscle protei

74 eve these findings support the hypothesis of resistance exercise-induced mitochondrial gene-shifting

75 target of rapamycin (mTOR) signaling to the resistance exercise-induced stimulation of skeletal musc

76 We propose this ability can reduce or limit resistance exercise-induced, Ca(2+)-dependent damage to

77 Resistance exercise induces a hypertrophic response in s

78 Resistance exercise is a potent stimulator of muscle pro

79 ry response in muscle after an acute bout of resistance exercise is associated with single nucleotide

80 derlie the fact that muscle growth following resistance exercise is decreased by concurrent endurance

81 Because resistance exercise is known to serve as a stimulus for

82 Our results suggest that resistance exercise is osteogenic and should be initiate

83 egulation in skeletal muscle following acute resistance exercise is poorly understood.

84 Mechanical loading, through progressive resistance exercise, is an osteogenic stimulus in HTR.

85 tibility in adaptation between endurance and resistance exercise, it now seems likely that multiple i

86 Resistance exercise led to a prolonged (6-36 h) elevatio

87 Concurrently, resistance exercise led to the dissociation of TSC2 from

88 exercised (response to combined feeding and resistance exercise) leg.

89 Participants reported weekly time spent on resistance exercise, lower intensity muscular conditioni

90 Conversely, resistance exercise, mainly by activating mammalian targ

91 es to age-associated muscle wasting and that resistance exercise may attenuate this process by suppre

92 The combination of treadmill and resistance exercises may result in greater benefit and r

93 d calcitonin and participated in 6 months of resistance exercise (n=10) or to a group that received o

94 ise (MedX) performed 1 day/week and variable resistance exercises (Nautilus) performed 2 days/week.

95 Nine male subjects performed resistance exercise on 4 occasions and were randomly sup

96 y aimed to determine (1) the effect of acute resistance exercise on mechanisms of ribosome biogenesis

97 process, we studied the effects of aging and resistance exercise on TNF-alpha expression in human mus

98 transplantation and after 3 and 6 months of resistance exercise or a control period.

99 In 2012, heavy resistance exercise plus good nutritional and vitamin D

100 eronegative men, synergy between progressive resistance exercise (PRE) and very high-dose testosteron

101 Nandrolone decanoate and resistance exercise produced anabolic effects among pati

102 e older adults during a hypocaloric diet and resistance exercise program and might therefore reduce t

103 An aerobic exercise program, a resistance exercise program, and a health education prog

104 from participating in either an aerobic or a resistance exercise program.

105 aintenance of whole muscle function with the resistance exercise programme is probably explained by (

106 Our data suggest that testosterone and resistance exercise promote gains in body weight, muscle

107 ntractions, such as those which occur during resistance exercise, promote an increase in muscle mass.

108 ected by bed-rest and less influenced by the resistance exercise protocol than the MHC IIa fibres.

109 , this 'muscle-full set-point' is delayed by resistance exercise (RE) (i.e. the feeding x exercise co

110 Resistance exercise (RE) activates signalling by the mam

111 the effects of aerobic exercise (AE) versus resistance exercise (RE) without caloric restriction on

112 d capacity to induce muscle hypertrophy with resistance exercise (RE), which may contribute to the ag

113 is was followed by 8 weeks of high intensity resistance exercise (REHAB).

114 Six months of resistance exercise restored BMD of the whole body, femu

115 s the lumbar spine and a regimen of variable resistance exercises, restores BMD toward pretransplanta

116 High resistance exercise resulted in a significant increase i

117 he ingestion of whole eggs immediately after resistance exercise resulted in greater stimulation of m

118 Resistance exercise resulted in rapid translocation of m

119 or LP (0.8 g . kg(-1) . d(-1)) in rested and resistance exercise (REX) conditions.

120 generally accepted that muscle adaptation to resistance exercise (REX) training is underpinned by con

121 tate at rest and about 3 h after a heavy leg resistance exercise routine.

122 teralis; they then performed a knee extensor resistance exercise session (29 contractions at approxim

123 Thirty-eight women performed a resistance exercise session at an intensity of 60% (n =

124 In conclusion, acute resistance exercise stimulated rapamycin-sensitive and -

125 lammation of skeletal muscle following acute resistance exercise that may potentially affect the adap

126 iable intensity programs and the addition of resistance exercise to a standard aerobic prescription.

127 ken 20 weeks of fully supervised, whole-body resistance exercise training (RET) (72.8 +/- 1.4 years;

128 Resistance exercise training (RET) can rejuvenate limb b

129 Resistance exercise training (RET) has a beneficial effe

130 Resistance exercise training (RET) is one of the most ef

131 Resistance exercise training (RET) is widely used to inc

132 ated with impaired hypertrophic responses to resistance exercise training (RET).

133 All subjects performed resistance exercise training combined with high-intensit

134 n) or placebo injections and lower extremity resistance exercise training for 12 wk during hemodialys

135 Resistance exercise training had smaller but qualitative

136 whether anabolic steroid administration and resistance exercise training induce anabolic effects amo

137 Endurance and resistance exercise training induces specific and profou

138 ed study designed to determine the effect of resistance exercise training on bone metabolism in heart

139 trial of anabolic steroid administration and resistance exercise training was conducted in 79 patient

140 s interventions, including aerobic training, resistance exercise training, and combined training prog

141 ccurring with ageing muscle before and after resistance exercise/training.

142 chanical loading associated with progressive resistance exercise, using a specific exercise that isol

143 bundance after a single bout of unaccustomed resistance exercise was associated with myofibre hypertr

144 Resistance exercise was initiated 2 months after transpl

145 Resistance exercise was initiated at 2 months after tran

146 ested, weight loss plus combined aerobic and resistance exercise was the most effective in improving

147 hrough PI3K-PKB and mTOR following a bout of resistance exercise with eccentric contractions (EC).

148 e-strengthening and conditioning activities (resistance exercise, yoga, stretching, toning) is associ