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1 ore, during, and for 2 h following a bout of resistance exercise.
2 l calcitonin with the osteogenic stimulus of resistance exercise.
3 nhibition of muscle protein synthesis during resistance exercise.
4 ulation of protein synthesis following acute resistance exercise.
5 otentially affect the adaptations to chronic resistance exercise.
6 o Sprague-Dawley rats 2 h prior to a bout of resistance exercise.
7 immediate phase of recovery following acute resistance exercise.
8 iduals and is compatible with high-intensity resistance exercise.
9 d drugs to augment the beneficial effects of resistance exercise.
10 dation in skeletal muscle is increased after resistance exercise.
11 eir DEN and expended 837 kJ/d in walking and resistance exercise.
12 an age 52 +/- 10 years) that did not perform resistance exercise.
13 onducted to evaluate the cognitive effect of resistance exercise.
14 ed to increase following ultra-endurance and resistance exercise.
15 000 +/- 69,900 particles/min during a set of resistance exercise.
16 ULLS) period, followed by 21-day AR based on resistance exercise.
17 fluenced neither MPS, nor MPB in response to resistance exercise.
18 phenylalanine and performed an acute bout of resistance exercise.
19 for skeletal muscle anabolism in response to resistance exercise.
20 an skeletal muscle after a high-fat diet and resistance exercise.
21 otein synthesis rates after an acute bout of resistance exercise.
22 ine infusions and performed a single bout of resistance exercise.
23 n enhanced mRNA translational capacity after resistance exercise.
24 l therapy, and 3.0 (1.0-5.0) for progressive resistance exercise.
25 bute to the rapamycin-independent effects of resistance exercise.
26 of motion, physical therapy, and progressive resistance exercise.
27 with measures of skeletal muscle response to resistance exercise.
28 t of PGC-1alpha4 and is induced in humans by resistance exercise.
29 ositive response to short-term and long-term resistance exercise.
30 lly induced in mouse and human muscle during resistance exercise.
31 nthesis and degradation, may be activated by resistance exercise.
32 anabolic resistance of signalling and MPS to resistance exercise.
33 ase; P<.05) more than did the stretching and resistance exercises.
34 rcise goals were at least moderate-intensity resistance exercise 2 times/wk and at least moderate-int
35 heart rate reserve), and (3) stretching and resistance exercises (2 sets of 10 repetitions on each l
36 g, 50-75% heart rate reserve), RT (n = 14, 6 resistance exercises, 4 x 12 repetitions, 60% maximum st
38 rcise (12% increase; P=.001), stretching and resistance exercises (9% increase; P<.02), and higher-in
39 xamine the systemic effects of endurance and resistance exercise across a range of ages and fitness l
40 ways through which insulin, amino acids, and resistance exercise act to regulate the protein kinase c
42 eferentially induces PGC-1alpha1 expression, resistance exercise activates the expression of PGC-1alp
43 e participants were randomly assigned to the resistance exercise, aerobic exercise, diet, combined re
46 ed resistance plus aerobic exercise, but not resistance exercise alone, improved composite CVD risk p
48 domized clinical trial, a 3-month program of resistance exercise among adults after COVID-19 infectio
51 protein synthesis (MPS) rates acutely after resistance exercise and can offset age-related loss in m
52 th the acute cellular response to heavy-load resistance exercise and demonstrated tentative long-term
53 e exercise, aerobic exercise, diet, combined resistance exercise and diet, combined aerobic exercise
54 of 40 min at 65% VO(2peak), (RES + MIC); (3) resistance exercise and high intensity interval cycling
56 xercise (RES), 6 x 8 squats at 80% 1-RM; (2) resistance exercise and moderate intensity cycling of 40
57 R-1 is highly responsive to both aerobic and resistance exercise and NOR-1 overexpression is coincide
58 and contemporary work that has examined how resistance exercise and nutrition impact on MPS and MPB.
59 most rigorous evidence regarding efficacy of resistance exercise and provides a primer for putative p
60 ulated during the immediate period following resistance exercise and this response may constitute the
61 the first 24 h following a standard bout of resistance exercise, and this response is not altered wi
64 gest support for the inclusion of structured resistance exercise as part of breast cancer treatment a
65 muscle anabolic signalling were affected by resistance exercise at 20-90% of 1 repetition maximum (1
66 rosol particle emission during an isokinetic resistance exercise at 80% of the maximal voluntary cont
67 to determine the effect of a single bout of resistance exercise at different intensities on the mobi
68 e bout of multiple joint, structural barbell resistance exercises (back squat, press, and deadlift) w
69 gated whether low-load blood flow restricted resistance exercise (BFRRE) or remote ischemic condition
72 se in 3MH release during the 4 h following a resistance exercise bout compared with a non-exercised c
73 ys of bed-rest from six control (BR) and six resistance-exercised (BRE) men to examine slow- and fast
74 subcellular events occurring in response to resistance exercise by providing a time course of activi
78 n = 16), an experimental group with aerobic-resistance exercise combined with a high-protein, low-gl
80 Surprisingly, rapamycin treatment prior to resistance exercise completely blocked the contraction-i
81 trial that evaluated the effects of aerobic-resistance exercise, computerized cognitive training, an
83 ained from 12 healthy young men 15 min after resistance exercise contained GH concentrations that wer
84 med to determine if a program of aerobic and resistance exercise could safely achieve body compositio
86 ic efficacy of a 6-month program of specific resistance exercise designed to reverse glucocorticoid-i
87 he hypotheses that a 6-month intervention of resistance exercise did not increase the risk for or exa
89 oviders should recommend regular aerobic and resistance exercise during active treatment with curativ
90 rotein and inclusion of exercise (especially resistance exercise) during weight loss; new pharmacolog
91 mbrane phospholipids than HIIT, suggesting a resistance exercise effect on cellular membrane protecti
92 e groups: an experimental group with aerobic-resistance exercise (EG, n = 16), an experimental group
93 guidelines and to pursue a regimen of muscle resistance exercises (eg, squats, push-ups) and balance
95 (HFD) alone (Sed-HFD) or in combination with resistance exercise (Ex-HFD), using genome-wide profilin
96 rticipants were given 3 months of home-based resistance exercise focusing on the quadriceps muscles.
101 plant recipients were randomly assigned to a resistance exercise group that trained for 6 months (mea
102 y of studies have examined aerobic training, resistance exercise has also been shown to be inversely
106 mmediately, 1 and 3 h after an acute bout of resistance exercise in a fed (FED; 20 g Protein/40 g car
107 uscle is not more anabolically responsive to resistance exercise in a particular menstrual cycle phas
108 in other cell types, were upregulated after resistance exercise in a rapamycin-independent manner an
111 s, or lifestyle changes that include regular resistance exercise in attenuating lean-tissue loss with
113 fore and for 24 h following a single bout of resistance exercise in eight young (27 +/- 2 years) and
114 ofibrillar protein breakdown (MPB) following resistance exercise in females (n = 12) in their follicu
116 le protein synthesis during an acute bout of resistance exercise in humans would be associated with a
117 he functional and structural consequences of resistance exercise in knee OA, stratification of analys
119 tivated at rest and in response to a bout of resistance exercise in skeletal muscle of young and old
120 and (2) muscle and metabolic adaptations to resistance exercise in South Asian and white European ad
122 Our data show no greater anabolic effect of resistance exercise in the follicular vs. the luteal pha
123 tudy show an attenuated MGF response to high resistance exercise in the older subjects, indicative of
124 al stimulation of the sciatic nerve to mimic resistance exercise in the tibialis anterior (TA) muscle
125 reakdown in response to 6 days of controlled resistance exercise in young females during peak oestrog
128 able load during feeding, to investigate the resistance exercise-induced contractile and metabolic ad
129 eve these findings support the hypothesis of resistance exercise-induced mitochondrial gene-shifting
130 target of rapamycin (mTOR) signaling to the resistance exercise-induced stimulation of skeletal musc
131 We propose this ability can reduce or limit resistance exercise-induced, Ca(2+)-dependent damage to
133 al loading, such as that which occurs during resistance exercise, induces radial growth of muscle fib
134 intervention group received the personalized resistance exercise intervention for 3 months, and the c
136 ysis of the effects of a 16-week aerobic and resistance exercise intervention on MOTS-c in Hispanic a
139 ry response in muscle after an acute bout of resistance exercise is associated with single nucleotide
141 derlie the fact that muscle growth following resistance exercise is decreased by concurrent endurance
146 tibility in adaptation between endurance and resistance exercise, it now seems likely that multiple i
150 Participants reported weekly time spent on resistance exercise, lower intensity muscular conditioni
152 es to age-associated muscle wasting and that resistance exercise may attenuate this process by suppre
154 th high dietary protein density and habitual resistance exercise mediates muscle protein subfraction
155 with moderate or high-intensity progressive resistance exercise might maintain or improve bone mass
156 ponses to a single acute bout of aerobic and resistance exercise, more robust phosphoproteomic and me
157 nce (n = 10, 45 min cycling, 70% VO2max ) or resistance exercise (n = 10, 4 x 7 x 2 exercises); 10 co
158 d calcitonin and participated in 6 months of resistance exercise (n=10) or to a group that received o
159 ise (MedX) performed 1 day/week and variable resistance exercises (Nautilus) performed 2 days/week.
162 y aimed to determine (1) the effect of acute resistance exercise on mechanisms of ribosome biogenesis
164 , with traditional dynamic constant external resistance exercise on myoelectric activity during elbow
165 process, we studied the effects of aging and resistance exercise on TNF-alpha expression in human mus
166 cult to draw conclusions about the effect of resistance exercises on information processing speed and
168 st that additional exercise modalities (e.g. resistance exercise) or other therapeutic interventions
170 as attenuated by a single bout of unilateral resistance exercise performed the evening prior to bed-r
172 eronegative men, synergy between progressive resistance exercise (PRE) and very high-dose testosteron
174 e older adults during a hypocaloric diet and resistance exercise program and might therefore reduce t
175 a randomized clinical trial, an aerobic plus resistance exercise program improved cardiometabolic hea
178 aintenance of whole muscle function with the resistance exercise programme is probably explained by (
180 ntractions, such as those which occur during resistance exercise, promote an increase in muscle mass.
181 ected by bed-rest and less influenced by the resistance exercise protocol than the MHC IIa fibres.
182 , this 'muscle-full set-point' is delayed by resistance exercise (RE) (i.e. the feeding x exercise co
184 MYC transcription are associated with acute resistance exercise (RE) and are distinct from endurance
185 al muscle after acute (anabolic) and chronic resistance exercise (RE) induced hypertrophy have been e
186 te hypertrophy, alone or in combination with resistance exercise (RE) interventions, on lean body mas
189 n exhibited greater activation of S6K during resistance exercise (RE) while dehydrated compared to wh
190 the effects of aerobic exercise (AE) versus resistance exercise (RE) without caloric restriction on
191 ized that lactate accumulation at the end of resistance exercise (RE) would be reduced if MIAE is per
192 d two baseline assessments and three trials: resistance exercise (RE), aerobic exercise (AE), or a re
193 ttle is known about the relationship between resistance exercise (RE), alone and in combination with
194 e content and characteristics in response to resistance exercise (RE), and whether macrophages are as
195 d capacity to induce muscle hypertrophy with resistance exercise (RE), which may contribute to the ag
197 tudy examined the intramuscular responses to resistance-exercise (RE) in RE-trained men under dehydra
198 ive arms (ie, arms 1 through 4) with aerobic-resistance exercise regardless of the addition of cognit
199 to mediate muscle remodeling in response to resistance exercise, regulating the activity of numerous
201 lecular mechanisms underlying adaptations to resistance exercise remains elusive despite the signific
204 s the lumbar spine and a regimen of variable resistance exercises, restores BMD toward pretransplanta
206 he ingestion of whole eggs immediately after resistance exercise resulted in greater stimulation of m
209 generally accepted that muscle adaptation to resistance exercise (REX) training is underpinned by con
212 teralis; they then performed a knee extensor resistance exercise session (29 contractions at approxim
214 ise session was sixfold higher than during a resistance exercise session when assuming one infected p
217 e the risk of infection during endurance and resistance exercise sessions with different mitigation s
219 trials evaluating the impact of aerobic and resistance exercise, specific diets and foods, and inten
222 ug interventions include fall prevention and resistance exercises, supplementation with calcium, vita
223 function recovery in response to 21 days of resistance exercise that followed 10 days of unilateral
224 lammation of skeletal muscle following acute resistance exercise that may potentially affect the adap
225 investigated aerobic exercise, three studies resistance exercise, three studies mind-body therapies a
226 iable intensity programs and the addition of resistance exercise to a standard aerobic prescription.
228 ken 20 weeks of fully supervised, whole-body resistance exercise training (RET) (72.8 +/- 1.4 years;
236 al effects of combined NSAID consumption and resistance exercise training (RET) on muscle cross-secti
238 erable interindividual variability exists in resistance exercise training (RET)-induced muscle hypert
241 n) or placebo injections and lower extremity resistance exercise training for 12 wk during hemodialys
244 ences between the ethnicities in response to resistance exercise training in body fat, resting carboh
245 atory drug (NSAID) ingestion over 84 days of resistance exercise training increased muscle cross-sect
246 whether anabolic steroid administration and resistance exercise training induce anabolic effects amo
248 ed study designed to determine the effect of resistance exercise training on bone metabolism in heart
249 randomized to either a combined aerobic and resistance exercise training program following RYGB (RYG
252 sing weight pulling, a validated progressive resistance exercise training regimen, in mice fed either
253 regulation of energetics machinery, whereas resistance exercise training regulates phosphoproteomic
255 trial of anabolic steroid administration and resistance exercise training was conducted in 79 patient
256 s interventions, including aerobic training, resistance exercise training, and combined training prog
261 of target dose), and 3 sets of 10 reps of 3 resistance exercises twice weekly for 12 weeks, without
262 chanical loading associated with progressive resistance exercise, using a specific exercise that isol
263 ciated mechanism for the salutary effects of resistance exercise, using AKG as a systemically derived
265 bundance after a single bout of unaccustomed resistance exercise was associated with myofibre hypertr
268 To address this issue, a familiarization of resistance exercise was introduced before the strength t
269 ested, weight loss plus combined aerobic and resistance exercise was the most effective in improving
270 entions alone, resistance training alone, or resistance exercise with a healthy diet on cognition.
271 hrough PI3K-PKB and mTOR following a bout of resistance exercise with eccentric contractions (EC).
272 ial, older adults with MCI receiving aerobic-resistance exercises with sequential computerized cognit
273 ophy and accelerate strength gain induced by resistance exercise without negative effects on fat mass
274 hesis or anabolic and metabolic responses to resistance exercise, yet there were less favourable resp
275 e-strengthening and conditioning activities (resistance exercise, yoga, stretching, toning) is associ