ライフサイエンスコーパス: moderate-intensity

1 (21 [26%] vs 9 [12%]); most were of mild-to-moderate intensity.

2 The control is obtained at moderate intensity.

3 group), although most events were of mild-to-moderate intensity.

4 ep period with two 1-hour light exposures of moderate intensity.

5 s of major bleeding episodes were of mild or moderate intensity.

6 timation of [Lac](blood) in the model of low/moderate intensity.

7 nterventions; that is, sustained sessions of moderate intensity.

8 er cardioprotective effects than exercise at moderate intensities.

9 an be induced by repeated bursts of sound at moderate intensities.

10 Fourteen participants performed three moderate-intensity 5-min cycling tasks (50% peak power o

11 ng is driven by relatively frequent flows of moderate intensity, abrasion by suspended sediment is an

12 ifetime physical activity, 0.80 for lifetime moderate-intensity activities, 0.86 for lifetime vigorou

13 w physical activity across other dimensions (moderate intensity activity, vigorous intensity activity

14 t for current recommendations that emphasize moderate intensity activity; they also clearly indicate

15 pent in vigorous activity, and time spent in moderate-intensity activity (accelerometer-derived varia

16 ions for physical activity are for 30 min of moderate-intensity activity each day, which provides sub

17 etabolic equivalent [MET] hours per week) of moderate-intensity activity for "substantial health bene

18 3) both acute interruptions to sitting with moderate-intensity activity over one day and light-inten

19 reduce risk of type 2 diabetes, the role of moderate-intensity activity such as walking is not well

20 urgeon General advocates the accumulation of moderate-intensity activity throughout the day to improv

21 s averaged approximately 60 minutes a day of moderate-intensity activity throughout the study.

22 per week (approximately 60 minutes a day of moderate-intensity activity).

23 Data demonstrate that moderate intensity aerobic exercise training decreased l

24 th, all healthy adults aged 18 to 65 yr need moderate-intensity aerobic (endurance) physical activity

25 Moderate-intensity aerobic activity, which is generally

26 results in vasodilation or bradycardia after moderate-intensity aerobic activity.

27 current study examined the effects of acute moderate-intensity aerobic exercise (MAE) on inhibitory

28 A combination of at least moderate-intensity aerobic exercise and a healthy diet m

29 ed the separate effects of acute and regular moderate-intensity aerobic exercise on neutrophil degran

30 ical activity, longer durations of light- to moderate-intensity aerobic physical activity, or any vig

31 intermittent subjective symptoms of mild to moderate intensity after antibiotic treatment for Lyme d

32 effects on mobility that are most visible at moderate intensities and for women and the poor.

33 the hydrogen out-of-plane (HOOP) bands, the moderate intensity and absolute positions of C-C stretch

34 e 2 diabetes, including physical activity of moderate intensity and duration.

35 tment-related adverse events were of mild-to-moderate intensity and included fatigue, hypertension, a

36 4 h of onset of migraine attack of at least moderate intensity and not improving.

37 jority of CTS cases were reported as mild to moderate intensity and occurred early.

38 , it is rare, and most cases were of mild to moderate intensity and short duration.

39 Most adverse events were of mild or moderate intensity and were easily managed medically.

40 Moderate-intensity and high-intensity disease management

41 n = 1901) were treated as outpatients in the moderate-intensity and high-intensity groups than in the

42 Both moderate-intensity and high-intensity guideline implemen

43 t-to-steady state ratio of discharge rate at moderate intensities, and (3) a hypersensitive tail of t

44 acial flushing and headache) were of mild or moderate intensity, and short-lived.

45 rst year after randomization, was of mild or moderate intensity, and was managed with conventional su

46 erse events were non-specific and of mild or moderate intensity apart from a single HBV-infected part

47 emic allergic reaction occurred (assessed as moderate intensity) at first administration under medica

48 tients were initially randomized to a daily, moderate-intensity (atorvastatin [10 mg], simvastatin [4

49 ds of exposure to repetitive noise bursts of moderate intensity, begun at age 25 days--resulted in le

50 ividual salamander L-cones to light steps of moderate intensity (bleaching 0.3-3% of the total photop

51 isodes of prolonged exercise of both low and moderate intensities blunted key autonomic (epinephrine

52 /=3 months) musculoskeletal pain of at least moderate intensity (Brief Pain Inventory [BPI] score >/=

53 d adult female Long-Evans rats to 2 weeks of moderate-intensity broadband white noise followed by 1 w

54 Additionally, weekly participation in moderate-intensity, but not vigorous-intensity, physical

55 s younger than 12 months were treated on the moderate-intensity CCG protocol 3881.

56 nty-two patients (25%) underwent surgery and moderate-intensity chemotherapy; another 22 underwent su

57 Moderate-intensity combined aerobic and resistance train

58 (WR(peak) ) with 30 s at 50% WR(peak) ) with moderate-intensity constant-load exercise (CLE) at 75% W

59 nuous (LOW; 60 min at 30% VO(2)max; n = 15), moderate-intensity continuous (MOD; 45 min at 65% VO(2)m

60 nute intervals at 85%-95% of peak effort) or moderate-intensity continuous training (60%-80% of peak

61 ; n = 10) or virtually supervised home-based moderate-intensity continuous training (Home-MICT; n = 1

62 Moderate-intensity continuous training (MICT) paradigms

63 proposed as a time efficient alternative to moderate-intensity continuous training (MICT), but its e

64 a time-efficient alternative to traditional moderate-intensity continuous training (MICT), but its e

65 proposed as a time efficient alternative to moderate-intensity continuous training (MICT), leading t

66 -high-intensity interval training (HIIT) and moderate-intensity continuous training (MICT)-in adults

67 ls (high-intensity interval training [HIIT], moderate-intensity continuous training [MICT], and stren

68 p demonstrated greater improvements than the moderate-intensity continuous training group; the groups

69 primary outcome was the effect of HIT versus moderate-intensity continuous training on the change in

70 HIT, compared with moderate-intensity continuous training, resulted in a cl

71 lost in older men and those recruited during moderate intensity contractions were enlarged and less s

72 pulmonary .VO2 kinetics in the transition to moderate-intensity cycle exercise in man.

73 ollowing both maximal exercise and 30 min of moderate-intensity cycling exercise with and without adm

74 ollowing both maximal exercise and 30 min of moderate-intensity cycling exercise with and without adm

75 r session, 3 days week(-1)) or ET (40-60 min moderate-intensity cycling, 5 days week(-1)).

76 -intensity disease management group than the moderate-intensity disease management group (odds ratio

77 of 238 (23.5%) participants in the high- and moderate-intensity disease management groups, respective

78 supplemented with up to 2 counseling calls (moderate-intensity disease management) (n = 249), or pha

79 Moderate-intensity dosage was found to decrease the risk

80 rsal, locomotion) and diet were sensitive to moderate-intensity drought, as channels fragmented into

81 exposing rat pups to pulsed white noise at a moderate intensity during P9-P28 resulted in a disrupted

82 During low-to-moderate intensity dynamic exercise, enhanced neuronal a

83 lent of > or =60 min of physical activity of moderate intensity each day.

84 A moderate intensity endurance and resistance exercise tra

85 The moderate-intensity endurance exercise training program i

86 ial human survival was dependent on lifelong moderate-intensity endurance physical activity (EPA), wh

87 ining group (n = 15) followed a personalized moderate-intensity endurance training program, while the

88 BP) appear to be partly sustained by regular moderate-intensity EPA whose decline in postindustrial s

89 All AEs were of mild-to-moderate intensity, except for 2 grade 3 non-drug-relate

90 sponses observed during 10 min of subsequent moderate intensity exercise (75 % (O2,max).

91 d mild exercise, and this was blunted during moderate intensity exercise (DeltaFVC: -34 +/- 4 and -34

92 soconstriction was not attenuated by mild or moderate intensity exercise (DeltaFVC: 5% MVC: -30 +/- 9

93 0.139 +/- 0.003%) either combined with daily moderate intensity exercise (Exercise group; N = 8, Age

94 53% women), VE/VCO2 measures taken in low-to-moderate intensity exercise (including VE/VCO2(pre-VATsl

95 These findings identify moderate intensity exercise as a means to improve muscle

96 signalling via infusion of ACh or ATP during moderate intensity exercise attenuated PE-mediated vasoc

97 f low intensity exercise, which preceded the moderate intensity exercise by 3 min.

98 n the oxidative ATP delivery at the onset of moderate intensity exercise can be overcome by prior low

99 n healthy human subjects performed 10 min of moderate intensity exercise in the presence and absence

100 Sixty minutes of moderate intensity exercise increased eNOS ser(1177) pho

101 Therefore, increased blood [lactate] during moderate intensity exercise increased lactate oxidation,

102 Moderate intensity exercise is associated with a decreas

103 We tested the hypothesis that a moderate intensity exercise programme would reduce the b

104 ibition of the carotid chemoreceptors during moderate intensity exercise reduced muscle sympathetic n

105 We conclude that during moderate intensity exercise the phase II tauVp,O2 provid

106 Moderate intensity exercise training and modest energy r

107 These findings suggest that performing daily moderate intensity exercise training during continuous h

108 ost-menopausal women, 16 weeks of supervised moderate intensity exercise training was found to improv

109 on-kinetic response over the first minute of moderate intensity exercise was accelerated when precede

110 When moderate intensity exercise was preceded by low intensit

111 ension of physical activity behaviour (e.g., moderate intensity exercise) whilst also scoring poorly

112 werful determinant of the ability to sustain moderate intensity exercise, as reducing HK content impa

113 When older men and women perform moderate intensity exercise, mechanical ventilatory cons

114 In the non-steady state of moderate intensity exercise, pulmonary O2 uptake (Vp,O2)

115 an excessive widening of their A-aDO2 during moderate intensity exercise, which when combined with a

116 lactate clamp (LC) procedure during rest and moderate intensity exercise.

117 No differences were observed after 10 min of moderate intensity exercise.

118 s were determined at rest and during low and moderate intensity exercise.

119 .05) accumulation during the first minute of moderate intensity exercise.

120 ning, we found 1 fatal cardiac arrest during moderate-intensity exercise (129 456 exercise hours) and

121 resting baseline and also from a baseline of moderate-intensity exercise (40% of peak work-rate) usin

122 Trained rats underwent moderate-intensity exercise (ExT) for 42 days, whereas,

123 intensity exercise (group A, 20 patients) or moderate-intensity exercise (group B, 20 patients) for 4

124 sus no exercise, AF incidence was lower with moderate-intensity exercise (HR 0.72, 95% CI 0.58 to 0.8

125 nses of pulmonary oxygen uptake (V(O(2))) to moderate-intensity exercise (i.e. below the lactate thre

126 nsisting of exercise facility and home-based moderate-intensity exercise (n = 87) or a stretching con

127 t-exercise hours were 1 per 129 456 hours of moderate-intensity exercise and 1 per 23 182 hours of hi

128 st circumference can be achieved by routine, moderate-intensity exercise and/or dietary interventions

129 reductions in endothelial function following moderate-intensity exercise at both sea level and high a

130 reductions in endothelial function following moderate-intensity exercise at both sea level and high a

131 = 0.043) reduction in FMD immediately after moderate-intensity exercise at sea level was abolished v

132 of mechanical ventilatory constraint during moderate-intensity exercise at ventilatory threshold in

133 Participants completed 30-min of moderate-intensity exercise before or after studying a s

134 to address whether an intervention of daily moderate-intensity exercise combined with moderate weigh

135 g patients with hypertrophic cardiomyopathy, moderate-intensity exercise compared with usual activity

136 Moderate-intensity exercise did not change MOR binding,

137 Moderate-intensity exercise has attracted considerable a

138 Antecedent moderate-intensity exercise has been shown to blunt auto

139 Available evidence suggests that regular, moderate-intensity exercise has beneficial effects on ne

140 s low after both high-intensity exercise and moderate-intensity exercise in a cardiovascular rehabili

141 augmented glycolytic metabolic responses to moderate-intensity exercise in class II and III HF.

142 substrate utilization across the legs during moderate-intensity exercise in young (n = 17; 23 +/- 1 y

143 -matched passive heat stress ABSTRACT: Acute moderate-intensity exercise increases core temperature (

144 We concluded that a 12-month moderate-intensity exercise intervention in postmenopaus

145 udy was to examine the effects of a 12-month moderate-intensity exercise intervention on serum estrog

146 rtia to oxidative metabolism at the onset of moderate-intensity exercise may result from competitive

147 Persons who get 30 min of moderate-intensity exercise per day are likely to achiev

148 e a useful tool to provide an individualized moderate-intensity exercise prescription for patients wi

149 e a useful tool to provide an individualized moderate-intensity exercise prescription for patients wi

150 -rated sleep quality by initiating a regular moderate-intensity exercise program.

151 ons on separate days: after a 60-min aerobic moderate-intensity exercise session, after a high-intens

152 ipants were randomly assigned to 16 weeks of moderate-intensity exercise training (n = 67) or usual a

153 To determine whether moderate-intensity exercise training improves exercise c

154 Randomized to 16 weeks of community-based, moderate-intensity exercise training or to a wait-listed

155 t high altitude, FMD was unaltered following moderate-intensity exercise, and administration of alpha

156 did not decrease immediately after 30 min of moderate-intensity exercise, and administration of alpha

157 elial function decreased following 30 min of moderate-intensity exercise, and this decrease was aboli

158 men during two-legged dynamic knee-extensor moderate-intensity exercise, as well as changes in key p

159 tandard error]) before and after 6 months of moderate-intensity exercise, followed by a high-altitude

160 is lower in high-intensity exercise than in moderate-intensity exercise, in part because of decrease

161 It is unknown whether moderate-intensity exercise, relative to an individual's

162 nt of peak oxygen consumption; or low-amount-moderate-intensity exercise, the equivalent of walking 1

163 a speeding of .VO2 kinetics at the onset of moderate-intensity exercise.

164 ure during a subsequent episode of prolonged moderate-intensity exercise.

165 aphragm can be viewed as undergoing constant moderate-intensity exercise.

166 he regulation of substrate metabolism during moderate-intensity exercise.

167 Moderate intensity fluorescence also was observed in the

168 rip exercise for 3 min, then transitioned to moderate intensity for 30 s.

169 cesses of care (high-intensity group, 60.9%; moderate-intensity group, 28.3%; low-intensity group, 25

170 cesses of care (high-intensity group, 44.3%; moderate-intensity group, 30.1%; low-intensity group, 23

171 ntensity group (high-intensity group, 61.9%; moderate-intensity group, 61.0%; low-intensity group, 37

172 sity physical training group, but not in the moderate-intensity group, was significantly greater than

173 The SBAS of physical activity at moderate intensity had a sensitivity of 0.73 and a speci

174 otassium chloride (KCl) at rest; (2) mild or moderate intensity handgrip exercise; and (3) combined m

175 an pacemaker to late evening light of dim to moderate intensity has not been well established.

176 ous intensity/high duration = 22.0% [19.9%]; moderate intensity/high duration = 14.9% [18.6%]; modera

177 rous intensity/high duration = 8.9 [7.3] kg; moderate intensity/high duration = 8.2 [7.6] kg; moderat

178 se groups (vigorous intensity/high duration; moderate intensity/high duration; moderate intensity/mod

179 A 12-week moderate-intensity home-based exercise training program

180 sity training hours was 36% of the number of moderate-intensity hours, the rates of complications to

181 eated constant-load quadriceps exercise of a moderate intensity in a whole-body MRS system.

182 images revealed focally increased uptake of moderate intensity in all patients with cardiac pacemake

183 e iris root and ciliary processes and was of moderate intensity in the adjacent sclera.

184 ted immune-related adverse events of mild-to-moderate intensity, including two cases of hyperthyroidi

185 U at 48 hours was significantly lower in the moderate-intensity insulin therapy cohort (0.34; p = 0.0

186 hypoglycemia were significantly lower in the moderate-intensity insulin therapy cohort.

187 The hypothesis of this study was that moderate-intensity insulin therapy decreases hospital le

188 Moderate-intensity insulin therapy for diabetic ketoacid

189 p = 0.044) were significantly reduced by the moderate-intensity insulin therapy strategy.

190 Moderate-intensity insulin therapy was designed to mitig

191 High-intensity insulin therapy versus moderate-intensity insulin therapy.

192 Only the moderate-intensity interruptions resulted in greater cap

193 Although moderate-intensity interventions may be effective in ado

194 tional ability following parasagittal TBI at moderate intensities is also discussed.

195 Regular aerobic physical exercise of moderate intensity is undeniably associated with improve

196 engaging in the equivalent of 300 min/wk of moderate-intensity leisure-time physical activity (2008

197 o engaged in the equivalent of 150 min/wk of moderate-intensity leisure-time physical activity (minim

198 nes is also normal, but it is insensitive to moderate intensity light.

199 ity of at least 75 vigorous-intensity or 150 moderate-intensity minutes.

200 ate intensity/high duration = 14.9% [18.6%]; moderate intensity/moderate duration = 13.5% [16.9%]; vi

201 rate intensity/high duration = 8.2 [7.6] kg; moderate intensity/moderate duration = 6.3 [5.6] kg; vig

202 duration; moderate intensity/high duration; moderate intensity/moderate duration; or vigorous intens

203 disrupted in rat pups reared in continuous, moderate-intensity noise.

204 Moderate intensity nonoccupational activity increased by

205 Adverse events (all of mild or moderate intensity) occurred in 26 participants (52.0%)

206 and after walking in a hallway to provoke a moderate intensity of breathlessness (to compare recall

207 Patients with mild to moderate intensity of pain responded better to treatment

208 ereas they reported significant increases in moderate intensity (OR = 1.26, 95% CI (1.01, 1.57)), mod

209 treadmill walking at an intensity of 45-50% (moderate-intensity) or 70-75% (vigorous-intensity) of he

210 rast, the time spent sedentary and in low-to-moderate-intensity PA was unrelated to adiposity.

211 ly more total minutes of PA, more minutes of moderate-intensity PA, and higher energy expenditure per

212 First, moderate-intensity PEF (MIPEF) was applied to raw tomato

213 High levels of moderate intensity physical activity (ie, about 60-75 mi

214 minutes per week or <150 minutes per week of moderate intensity physical activity), moderate (600-300

215 Recommendations for "moderate"-intensity physical activity may need to consid

216 nct to PR can enhance time spent in at least moderate-intensity physical activity (time expending >/=

217 Moderate-intensity physical activity after a diagnosis o

218 An increase in daily moderate-intensity physical activity by 10-20% was assoc

219 , aged 39 +/- 4 years, completed 16 weeks of moderate-intensity physical activity combined with calor

220 alth guidelines that emphasize engagement in moderate-intensity physical activity in a 'one-size-fits

221 ing an outpatient PR program did not enhance moderate-intensity physical activity levels in people wi

222 iterature suggesting that at least 60 min of moderate-intensity physical activity may be necessary to

223 Although there is evidence that 30 min of moderate-intensity physical activity may improve health

224 public health recommendations for increased moderate-intensity physical activity on most days.

225 test in those with higher baseline levels of moderate-intensity physical activity or improvement in Q

226 articipants were randomized to a structured, moderate-intensity physical activity program (n = 818) c

227 A structured, moderate-intensity physical activity program (n = 818) t

228 Among sedentary older adults, a 24-month moderate-intensity physical activity program compared wi

229 A structured, moderate-intensity physical activity program compared wi

230 Current recommendations prescribe at least moderate-intensity physical activity, requiring >or=3 ME

231 hysical training was more effective than the moderate-intensity physical training in enhancing body c

232 biweekly lifestyle education (LSE), 2) LSE + moderate-intensity physical training, or 3) LSE + high-i

233 activity (PA) intervention was a structured moderate-intensity program, predominantly walking 2 time

234 The influence of moderate intensity pulsed electric field pre-processing

235 ing approach was used to study the effect of moderate-intensity pulsed electric field (MIPEF) treatme

236 Acoustic enrichment (AE) with moderate intensity, pulsed white noise immediately after

237 ation with E6E7 and hTERT, suggesting that a moderate intensity ras signal can provide sufficient onc

238 for increasing physical activity of at least moderate intensity rather than reducing sedentary time.

239 ith a lower risk for statin discontinuation (moderate intensity: relative risk [RR], 0.93; 95% confid

240 n mechanism plays a major role in generating moderate-intensity resistance or high-intensity resistan

241 tance decay to become fully susceptible from moderate-intensity resistance took 15 generations, suppo

242 are obligatory to the hyperpnoea of mild to moderate intensity rhythmic, large muscle, steady-state

243 negative pressure (LBNP) at rest and during moderate-intensity rhythmic handgrip exercise.

244 The light-dark cycle consisted either of moderate intensity 'room' light ( approximately 90-150 l

245 randomly assigned to a progressive, 3-d/wk, moderate-intensity RT intervention with a weight-loss in

246 duced hyperaemia appears greatest for low to moderate intensity single muscle contractions, and this

247 precursor cells (OPCs) were stimulated with moderate intensity SMF (0.3 T) for a period of two weeks

248 cells such as OPCs to positively respond to moderate intensity SMF stimulation by exhibiting enhance

249 y (CPD), high-intensity smokers (>/=20 CPD); moderate-intensity smokers (10-19 CPD); low-intensity sm

250 and home-based exercise (45 min, 5 days/week moderate intensity sports/recreational exercise).

251 Women in the exercise group participated in moderate-intensity sports/recreational activity for a me

252 and 22.0%, 37.2%, and 0.6% were taking a low-moderate intensity statin, a high-intensity statin, and

253 Among patients on no statin or low/moderate-intensity statin at baseline, 14.8% and 13.4%,

254 rst post-discharge statin fill was for a low/moderate-intensity statin filled a high-intensity statin

255 For moderate-intensity statin groups, evolocumab every 2 wee

256 ials investigating statin therapy, including moderate-intensity statin plus ezetimibe therapy, rates

257 ity statin therapy, 232293 (45.6%) receiving moderate-intensity statin therapy, 33920 (6.7%) receivin

258 y, 4.8% (9703 of 200709) for those receiving moderate-intensity statin therapy, 5.7% (1632 of 28765)

259 Moderate-intensity statin use in all men 45 to 74 years

260 -titration was defined by switching to a low/moderate-intensity statin with a proportion of days cove

261 Among 589 participants (12%) considered for moderate-intensity statin, 338 (57%) had a CAC = 0, with

262 d outcomes similar to those of recipients of moderate-intensity statin.

263 or at least 4 weeks; >=2.3 mmol/l on low- or moderate-intensity statin; or >=3.2 mmol/l on no stable

264 >=70 mg/dL), including 59.8% of those on low/moderate-intensity statins and 76.1% on no statin; only

265 r participants taking high-intensity and low/moderate-intensity statins before their CHD event, respe

266 58.8% in Medicare) and those taking low- or moderate-intensity statins prior to hospitalization (fro

267 The magnitude of benefit of high- vs moderate-intensity statins was similar, for an incident

268 king statins pre-hospitalization, taking low/moderate-intensity statins, and taking high-intensity st

269 Reinitiating therapy with moderate-intensity statins, down-titration, and using a

270 significant survival advantage compared with moderate-intensity statins, even among older adults.

271 CI, 0.88-0.93) for those receiving high- vs moderate-intensity statins.

272 Moderate-intensity stimulation produced larger IPSCs tha

273 Fourteen participants opted for a 16 week moderate intensity supervised exercise intervention, whi

274 gh intensive therapy was more effective than moderate-intensity therapy.

275 Moderate-intensity to high-intensity statin and nonstati

276 1 cardiology practices, trends in the use of moderate-intensity to high-intensity statin and nonstati

277 evaluate for differences in trend in use of moderate-intensity to high-intensity statin and nonstati

278 Time trend in the use of moderate-intensity to high-intensity statin and nonstati

279 Cholesterol Management Guideline recommends moderate-intensity to high-intensity statin therapy in e

280 The use of moderate-intensity to high-intensity statin therapy was

281 ere was a significant increase in the use of moderate-intensity to high-intensity statins in the over

282 h there was a trend toward increasing use of moderate-intensity to high-intensity statins overall and

283 ignificant difference in trend in the use of moderate-intensity to high-intensity statins was observe

284 nsity interval training (HIT) is superior to moderate-intensity training (MIT) in counteracting obesi

285 aining (HIIT), HIIT + resistance (HIIT + R), moderate-intensity training (MIT), MIT + R and stretchin

286 igh-intensity interval exercise training and moderate-intensity training among 4846 patients with cor

287 exercise did not lead to a greater CFI than moderate-intensity training.

288 udy aimed to determine the impact of dose of moderate intensity treadmill walking on experimentally-i

289 rate than WT within minutes of the onset of moderate-intensity treadmill running.

290 with 2-minute bouts of (ii) light- or (iii) moderate-intensity treadmill walking every 20 minutes.

291 eliver intermediate-frequency (100-400 kHz), moderate-intensity (up to and exceeding 6.5 V/cm pk-pk)

292 sitting interrupted with light-intensity or moderate-intensity walking every 20-min (n = 8); and, af

293 Any daily IPA amount of vigorous or moderate intensity was associated with lower CVD risk in

294 Signals of moderate intensity were in cardiomyocytes whereas low si

295 was achieved when the conditions of low and moderate intensity were put in one model; high-intensity

296 sickle cell anemia (SS) clinical syndrome of moderate intensity, while the lower expressors have no c

297 act of BL treatment on SOB3 mutants grown in moderate-intensity white light was reduced when polar au

298 By choosing conditions (namely, flashes of moderate intensity with a surround) to minimize the effe

299 multicomponent circuit training program at a moderate intensity with high perceived exertion could re

300 exercises arranged in a circuit setup and a moderate intensity with high perceived exertion.