ライフサイエンスコーパス: endurance

1 ge parameter variability and limited cycling endurance.

2 , in addition to variation in resistance and endurance.

3 cardiac contractility and prolongs exercise endurance.

4 et the commercial demands of scalability and endurance.

5 thickness remained relatively stable during ENDURANCE.

6 it is non-volatile, fast, and has unlimited endurance.

7 chronic exercise to metabolism and physical endurance.

8 h test and a test of lower-back trunk muscle endurance.

9 lism, C3KO mice demonstrate reduced exercise endurance.

10 biphasic stimulation cycles, confirming high endurance.

11 isms to regulate transcription and boost LTP endurance.

12 this inhibition is important for contractile endurance.

13 ed as a second redox strategy for increasing endurance.

14 maintained after folding tests, showing high endurance.

15 ritical for the Sestrin effects in extending endurance.

16 endent factors for predicting reduced muscle endurance.

17 ds annually, exhibiting astonishing feats of endurance.

18 ensity of legs maximizes nanomotor speed and endurance.

19 lso show desirable retention and programming endurance.

20 t combination of capacity, rate, and cycling endurance.

21 allest cell size, high write/erase speed and endurance.

22 neered EGTs show a quasi-linear update, good endurance (10(6) ) and retention, a high switching speed

23 .0 Newton-meters [Nm]/kg, 60 degrees /s) and endurance (-11.4 +/- 4.6 Nm/kg, 300 degrees /s), exercis

24 istor with fast switching speed, record high endurance (120 billion cycles) and reliable retention.

25 of data for these less prevalent genotypes, ENDURANCE-5,6 evaluated the efficacy and safety of gleca

26 ENDURANCE-5,6 was a phase 3b, single-arm, open-label, mu

27 dimensions of physical fitness [strength and endurance (+ 8.3%), power (+ 0.85%), mobility and stabil

28 impact on neurologic function, and cognitive endurance affect capacity throughout the lifespan.

29 endent factors for predicting reduced muscle endurance after adjusting for age (log10 GDF-15 [pg/mL]

30 metabolism, preserving glucose and physical endurance and are suggested as candidates for treating m

31 the polygenetic nature of cardiorespiratory endurance and be used as genetic biomarkers for future r

32 The low endurance and compound muscle action potential amplitude

33 lications that require low variability, high endurance and fast speed.

34 oimaging variate represented higher physical endurance and fluid intelligence as well as better funct

35 Here we report the electrical endurance and magnetic properties of thin (less than 100

36 y and consumption can lead to reduced muscle endurance and physical disability.

37 studies will examine the systemic effects of endurance and resistance exercise across a range of ages

38 Endurance and resistance exercise training induces speci

39 ain an incompatibility in adaptation between endurance and resistance exercise, it now seems likely t

40 oss different sports and seem to affect both endurance and resistance modes of exercise.

41 lin resistance in mice but markedly enhances endurance and resistance to muscle fatigue, despite redu

42 in modulating skeletal muscle adaptations to endurance and resistance training.

43 uin activator in red wine, improves exercise endurance and skeletal-muscle oxidative metabolism in an

44 g-mediated mitochondrial biogenesis, running endurance, and beneficial glycemic effects were lost in

45 onent training, including balance, strength, endurance, and flexibility training, with exercises arra

46 e switching with high retention time, cyclic endurance, and low set/reset voltages.

47 romuscular junction and for muscle strength, endurance, and motor coordination in mice in vivo.

48 ve demonstrated genetic variation in disease endurance, and no study has demonstrated genetic variati

49 natural beauty, graceful movement, athletic endurance, and, as a result of its development in the ar

50 vices), fast switching (</=30 ns), excellent endurance ( approximately 10(12) cycles), stability (>10

51 nal loss, and reversible switching with high endurance are obtained in a complementary metal-oxide-se

52 x-knockout mice exhibited lower muscle force/endurance as well as increased muscle damage when compar

53 force ex vivo, and exhibit reduced exercise endurance, associated with increased adiposity under bas

54 Endurance athlete performance is greatly dependent on su

55 healthy white competitive elite male master endurance athletes (age range, 30-60 years) with a train

56 fter a strenuous exercise session.Eight male endurance athletes (mean +/- SEM age: 29 +/- 2 y; peak o

57 ng syndrome is a form of burnout, defined in endurance athletes by unexplained performance drop assoc

58 to an LCHF diet impairs performance in elite endurance athletes despite a significant improvement in

59 y explain the increased longevity typical of endurance athletes despite the presence of more coronary

60 Endurance athletes exceed the usual recommendations for

61 Type of sport has a relevant impact, with endurance athletes exhibiting the greatest degree of RV

62 creased risk of future adverse events, elite endurance athletes have an increased life expectancy com

63 In the longer term, some endurance athletes have an increased prevalence of coron

64 A large proportion of endurance athletes have raised levels of cardiac biomark

65 Subsequent experiments on elite endurance athletes performing the same HIIT exercise sho

66 ing as a substrate for fast VT in high-level endurance athletes that can be successfully treated by a

67 Most lifelong masters endurance athletes with a low atherosclerotic risk profi

68 cture and function in long-term elite master endurance athletes with special focus on the right ventr

69 F diet negated performance benefits in elite endurance athletes, in part due to reduced exercise econ

70 cause RyR1 fragmentation in muscles of elite endurance athletes, which may explain why HIIT is less e

71 ed a mild form of overtraining in a group of endurance athletes, which we compared to a group of norm

72 on metabolism and performance of world-class endurance athletes.

73 Deficiency in Sport (RED-S) in female elite endurance athletes.

74 antly develop resistance to fatigue (through endurance-based exercise) and increased muscle mass (thr

75 resulted in a significant decrease of muscle endurance both in vivo and in vitro, which could largely

76 An HTS endurance buffer was used for >25 000 injections with mi

77 f-selected walking speed by 18%, and walking endurance by 12% after the training.

78 ent with subsequent reduction of inspiratory endurance by half.

79 Orai1 enhances muscle endurance by promoting fatigue-resistant type I fiber co

80 Overall, the available data suggest exercise endurance can be augmented by redox-active supplements,

81 The development of endurance capabilities in Homo appears to parallel the e

82 Endurance capacity and life expectancy were normal.

83 bic fitness, as a physiological indicator of endurance capacity associated with physical activity, is

84 ce generation, HET mice have an intermediate endurance capacity compared with WT and KO.

85 group showed improvements in both speed and endurance capacity in acute treadmill running tests (P <

86 or mitochondrial energy production, and thus endurance capacity, is set by the mitochondria volume.

87 or mitochondrial energy production, and thus endurance capacity, is set by the mitochondria volume.

88 cific torque and contraction speed), but not endurance capacity, mitochondrial biogenesis, and fiber

89 orrelates with improvements in parameters of endurance capacity.

90 th growth and remodeling pathways and muscle endurance centered on TGFbeta and fibrosis pathways in m

91 derwent: 6-minute walk test (cardiopulmonary endurance), chair stands in 30 seconds (muscle endurance

92 nomy, but were likely still limited in their endurance compared to modern humans.

93 3%; group x time interaction, P < 0.05) and endurance (CON compared with LEU: -14% +/- 3% and -2% +/

94 ls that show low muscle PDH activity, severe endurance defects, and chronic lactic acidemia, recapitu

95 those engaged in skill, power, to mixed and endurance disciplines, with the endurance ones demonstra

96 y physiology, perceived exertion and running endurance during exercise, and changed satiety physiolog

97 The appearance of skeletal traits related to endurance (e.g., larger limb joints, spring-like plantar

98 economy (e.g., limb length and posture) and endurance (e.g., muscle volume and fiber type) and inves

99 d to increase women's participation in elite endurance events are also discussed as is the role of in

100 ccurred as bans on participation by women in endurance events were lifted.

101 ndurance training, competitive long distance endurance events, and high-intensity interval training h

102 Three months of progressive endurance exercise (up to 90 minutes at 4.5 mph) was per

103 r women who have performed regular, lifelong endurance exercise acquire the same beneficial adaptatio

104 r, it is unknown if the relationship between endurance exercise and AF is dependent on an atrial myop

105 ondrial content and function are enhanced by endurance exercise and impaired in states or diseases wh

106 ively, these findings indicate that lifetime endurance exercise appears to be extremely effective at

107 Endurance exercise begun with reduced muscle glycogen st

108 raining studies provide robust evidence that endurance exercise can attenuate muscle hypertrophy and

109 Routine endurance exercise confers numerous health benefits, and

110 al population raises the question of whether endurance exercise could be detrimental for some individ

111 Endurance exercise drives physiological changes in the m

112 Athletes had participated in endurance exercise for an average of 31+/-12.6 years.

113 he way for clinical studies of the impact of endurance exercise in FRDA patients.

114 ed regulator, muscle 1) as a gene induced by endurance exercise in skeletal muscle, and regulating mi

115 GF-beta1 overexpression) to demonstrate that endurance exercise in the setting of an underlying atria

116 whether the cumulative effects of intensive endurance exercise induce chronic cardiac damage, mainly

117 However, a high level of endurance exercise is associated with an increased AF pr

118 There is increasing evidence that endurance exercise is associated with increased risk of

119 Endurance exercise is effective to attenuate muscle atro

120 Protein ingested after endurance exercise is efficiently digested and absorbed

121 Endurance exercise is the most powerful intervention for

122 cern that athletes who perform extraordinary endurance exercise may injure the right ventricle.

123 effects of sustained or lifelong (>25 years) endurance exercise on cardiovascular structure and exerc

124 , we assessed the effect of a single bout of endurance exercise on the skeletal muscle clock in vivo

125 ure of both glucose and fructose can improve endurance exercise performance compared to equivalent am

126 Although long-term endurance exercise promotes insulin sensitivity and expa

127 Furthermore, endurance exercise seems to increase inducible AF second

128 who had consistently performed four or more endurance exercise sessions weekly for at least 25 years

129 ction by muscle, limiting performance during endurance exercise tasks.

130 We determined whether endurance exercise training (EET) alters macrophage cont

131 ht loss from calorie restriction (CR) and/or endurance exercise training (EX) is cardioprotective.

132 In contrast, endurance exercise training (initiated 2 weeks after AAV

133 tion would affect the response to 3 weeks of endurance exercise training in CACs, muscle mitochondria

134 Six weeks of endurance exercise training increased the transcriptiona

135 We show that endurance exercise training increases multiple CAC types

136 In conclusion, endurance exercise training induced increases in multipl

137 blot data of other laboratories suggest that endurance exercise training leads to similar changes in

138 tion would affect the response to 3 weeks of endurance exercise training on CD3(+) , CD3(+) /CD31(+)

139 Endurance exercise training partially reversed these abn

140 We conclude that endurance exercise training prevents symptomatic onset o

141 The moderate-intensity endurance exercise training program improved the muscle

142 Endurance exercise training should be considered a key s

143 defined physiological system, regardless of endurance exercise training status.

144 ITAGE Family Study who completed 20 weeks of endurance exercise training.

145 is not required for metabolic adaptation to endurance exercise training.

146 sed by energy stress (glucose starvation and endurance exercise) and decreased by a BCL2 mutation(3,5

147 n concentrations are commonly observed after endurance exercise, but the clinical significance of thi

148 lar metabolic perturbation during whole body endurance exercise, eight subjects performed 5 km cyclin

149 roup III/IV muscle afferents in limiting the endurance exercise-induced metabolic perturbation assaye

150 dult skeletal muscle, nor is it required for endurance exercise-mediated mitochondrial adaptations.

151 (Body VO2 max , indirect calorimetry) in 10 endurance exercise-trained and 10 untrained young males.

152 was sufficient to maximize MyoPS rates after endurance exercise.

153 ne catabolism, as part of the adaptations to endurance exercise.

154 oxylic acid cycle, which is generated during endurance exercise.

155 to eliminate participation in competitive or endurance exercise.

156 om wild type (WT) and C3KO mice subjected to endurance exercise.

157 Blood glucose is an important fuel for endurance exercise.

158 e adaptations that also occur in response to endurance exercise.

159 muscle and brain in times of stress, such as endurance exercise.

160 hanges in the expression of genes related to endurance exercise.

161 olic reprogramming that drives adaptation to endurance exercise.

162 protein synthesis rates during recovery from endurance exercise.

163 protein synthesis rates during recovery from endurance exercise.

164 l-[1-13C]-leucine labeled milk protein after endurance exercise.

165 rates during recovery from a single bout of endurance exercise.This trial was registered at trialreg

166 e effects on skeletal muscle development and endurance-exercise-induced muscle adaptation.

167 DME trial were maintained through M12 of the ENDURANCE extension study with a reduced treatment frequ

168 ts completing VISTA DME elected to enter the ENDURANCE extension study.

169 dardized tests of maximal strength, muscular endurance, flexibility, and cardiorespiratory fitness (C

170 and stable with individualized dosing during ENDURANCE, fluctuating by <1.5 mean letters from the bas

171 le fatigue during leaning, which may improve endurance for various occupations.

172 atio (10(4) ), good data retention, and high endurance (>10(4) cycles).

173 yields a large nonlinearity (>10(4) ), high endurance (>10(8) ), low variability, and low temperatur

174 observed trade-off between maximum speed and endurance in athletes and some animals that has been exp

175 rformed regarding ion suppression and system endurance in combination with minor sample preparation.

176 and in vivo exercise assays revealed reduced endurance in constitutive muscle-specific Orai-KO mice.

177 gher aerobic fitness and better trunk muscle endurance in models including adjustment for age, sex, b

178 important for the maintenance of contractile endurance in rat muscle it is unknown whether a similar

179 and propulsion would have reduced locomotor endurance in the earliest hominins and likely restricted

180 id not reveal changes in muscle strength nor endurance in treated C3KO mice.

181 durance), chair stands in 30 seconds (muscle endurance), isometric knee extension (lower extremity st

182 outstanding dataset relying mostly on glider endurance lines but also on other platforms to track the

183 s, chronic right ventricular damage in elite endurance master athletes with lifelong high training vo

184 ore importantly, interventions that increase endurance may benefit individuals whose physical activit

185 the identified mQTLs, those associated with endurance metabolites were determined.

186 When focusing on endurance metabolites, one novel mQTL linking androstene

187 on respiratory motor output and inspiratory endurance.Methods: Inspiratory endurance was investigate

188 ion of longer than 10(6) seconds and cycling endurance of 300 cycles.

189 The endurance of charge collection by rubbing the CGM tip on

190 Rationale: Sleep deprivation can alter endurance of skeletal muscles, but its impact on respira

191 ctively, we observed a dramatically improved endurance of the TaO(x) memristor.

192 Pb/Pt nanoplates appear to underlie the high endurance of these catalysts, which can undergo 50,000 v

193 The robustness and endurance of this new coating were investigated by direc

194 h surface area, tunable porosity, mechanical endurance, offer compatible environment for drug encapsu

195 to mixed and endurance disciplines, with the endurance ones demonstrating the greatest degree of RV d

196 at result after undertaking either prolonged endurance or resistance training.

197 as muscular strength (push-ups) and aerobic endurance (PACER).

198 tion, histopathology, swimming behaviour and endurance, parasite infestation, and reproduction.

199 Cardiorespiratory fitness (CRF) and endurance performance are characterized by a complex gen

200 deas about the physiological determinants of endurance performance but also touches on some historica

201 prove skeletal muscle oxidative capacity and endurance performance during 10 wk of endurance training

202 ydrate availability is important to maximize endurance performance during prolonged bouts of moderate

203 mers) only to help trained athletes maximize endurance performance during prolonged moderate- to high

204 ssociated with cardiorespiratory fitness and endurance performance in Chinese non-athlete young femal

205 sgenic (mTg) overexpression, which stimulate endurance performance in mice, result in markedly differ

206 eries resistor (R(S)) on the variability and endurance performance of memristor was studied in the Ta

207 iew summarizes factors associated with elite endurance performance, trends in distance running traini

208 Both devices show good retention and endurance performance.

209 pe; 17 proteins) and 6 min walk performance (endurance phenotype; 17 proteins) including some shared

210 was dependent on lifelong moderate-intensity endurance physical activity (EPA), which creates a cardi

211 area, excellent scalability, retention, and endurance properties.

212 ictus) are described as highly collaborative endurance pursuit hunters based on observations derived

213 on sufficient post-race system recovery, as endurance races have substantial physiological, immunolo

214 ning to metabolic recovery of athletes after endurance races without the utilisation of recovery moda

215 on or prolonged changes in the expression of endurance-related genes.

216 to decreased ambulation and reduced walking endurance remain poorly understood.

217 ti-bit memory capacity, low-power operation, endurance, retention and stability.

218 ng female participants were recruited and an endurance run test was used to determine CRF.

219 igins of humans' economical walking gait and endurance running capabilities remain unclear.

220 IL-37 resulted in a further 326% increase in endurance running time compared with the performance lev

221 TLs linked to elite athletic performance and endurance sports with potential applications in biomarke

222 hletes and to identify those associated with endurance sports.

223 inct from liver dysfunction and incorporates endurance, strength, and balance.

224 ng PGC-1alpha and SIRT1, to improve physical endurance, strongly suggesting myricetin as a mitochondr

225 ) in Homo was somewhat mosaic, with the full endurance suite apparent only approximately 1 million ye

226 e efficiency, and enhance performance during endurance tasks.

227 ss is thus substantial for high strength and endurance tasks.

228 ion to the resistance ratio over a 100-cycle endurance test.

229 during pulmonary function tests, inspiratory endurance testing, dynamic kinematic MRI of the thorax,

230 speed, lower operating voltage, and superior endurance than other existing flexible counterparts.

231 knockout (muHuR-KO) mice have high exercise endurance that is associated with enhanced oxygen consum

232 undergoing an epidemic are also affected by endurance (the propensity of diseased individual to surv

233 lic benefits of exercise and improving their endurance through training.

234 Exercise endurance time and total work output were almost twice a

235 PI(MAX), spirometry, endurance time, and maximal diaphragm descent were signi

236 (PTL), women have greater inspiratory muscle endurance time, slower rate of diaphragm fatigue develop

237 The model accurately estimated endurance times for sustained isometric contractions acr

238 function significantly influenced breathing endurance, timing and loading compensations.

239 when exposed to As salts and had a superior endurance to physiological redox insults.

240 However, endurance trained athletes and type 2 diabetes mellitus

241 ferences of such associations in a cohort of endurance trained athletes.

242 endurance trained/rested, untrained/EB, and endurance trained/EB).

243 exercise condition (i.e., untrained/rested, endurance trained/rested, untrained/EB, and endurance tr

244 ) hampers insulin sensitivity, albeit not in endurance-trained athletes (Trained).

245 ochondrial inner membranes in leg muscles of endurance-trained athletes have an increased ratio of su

246 bility of orange juice (OJ) (poly)phenols in endurance-trained males before and after cessation of tr

247 after cessation of training for 7 d.Ten fit, endurance-trained males, with a mean +/- SD maximal oxyg

248 d, parallel-group design, 48 healthy, young, endurance-trained men (mean +/- SEM age: 27 +/- 1 y) rec

249 raction did not affect the increased mVO2 in endurance-trained muscle, the O2 release rate from Mb in

250 Thirty (18 males and 12 females) endurance-trained runners without a history of spinal pa

251 ty): seven participants performed 2 weeks of endurance training (cycling) and were tested pre-post in

252 The novel methods show that endurance training (ET) and high intensity interval trai

253 plementation neither enhances nor attenuates endurance training adaptations in young healthy men.

254 rehabilitation, which includes strength and endurance training and educational, nutritional, and psy

255 This should have application in endurance training and future exercise industry.

256 flavanone bioavailability.A 7-d cessation of endurance training enhanced, rather than reduced, the bi

257 All group B patients underwent intensive endurance training for a median of 15 h/week (interquart

258 High-level endurance training has been associated with right ventri

259 type 2 diabetes and are decreased following endurance training in healthy young men and in rats.

260 ty and endurance performance during 10 wk of endurance training in healthy, young males.

261 physiological cardiac remodelling induced by endurance training in mice.

262 e-type specific in the posterior muscles and endurance training increased its content in type I muscl

263 Endurance training increased the basal mRNA level of hex

264 Endurance training induces numerous cardiovascular and s

265 ated in both LRT and HRT rats that underwent endurance training on a treadmill compared with those th

266 The beneficial effects of endurance training on microvasculature are widely known.

267 y was, therefore, to determine the effect of endurance training on O2 saturation of Mb (SmbO2) and Pm

268 Although endurance training preferentially induces PGC-1alpha1 ex

269 this study was to evaluate the effects of an endurance training program on microvasculature of skelet

270 ) followed a personalized moderate-intensity endurance training program, while the nontraining (n = 1

271 evaluated in mice after completing a 6-week endurance training program.

272 6J mice were compared with or without a 5 wk endurance training protocol at rest or after an acute ex

273 Subjects performed 3 endurance training sessions per week for 10 wk.

274 We aim to investigate associations of endurance training with incidence of atrial fibrillation

275 er." As a result, worldwide participation in endurance training, competitive long distance endurance

276 bility before and after exercise may augment endurance training-induced adaptations of human skeletal

277 egulate hallmark adaptations associated with endurance training.

278 egulate hallmark adaptations associated with endurance training.

279 ere measured before and after 5 and 10 wk of endurance training.

280 instead, exhibits plasticity with long-term endurance training.

281 cise and facilitates molecular adaptation to endurance training.

282 events the adaptive intrinsic bradycardia of endurance training.

283 me of the adaptations to exercise induced by endurance training.

284 tation on changes in VO2max during prolonged endurance training.

285 lated significantly with the duration of the endurance trial.

286 l, phase 3, randomised controlled trial (the ENDURANCE trial; E1A11), we recruited patients aged 18 y

287 have been shown to delay fatigue or increase endurance under a variety of experimental conditions.

288 sterol trafficking and degradation, physical endurance under fasting conditions, autophagy regulation

289 fibres and strength/power performance versus endurance/untrained phenotypes.

290 uscle fibres and favoured strength/power vs. endurance/untrained phenotypes.

291 ch exhibited long shelf and high-temperature endurance (up to 1 week at 100 degrees C).

292 aerobic fitness, muscle strength, and muscle endurance, using data on 31-year-old participants of the

293 as an anti-fatigue protein to enhance muscle endurance via the CCR5 pathway.

294 Higher preflight upper body muscular endurance was associated with a 39% reduced risk of vira

295 ical profile of patients with reduced muscle endurance was described.

296 d inspiratory endurance.Methods: Inspiratory endurance was investigated twice in random order, follow

297 d was measured using the 10-meter walk test, endurance was measured using the 6-minute walk test, and

298 ncreased muscle glycogen and enhanced muscle endurance, whereas ORM1 deficiency resulted in a signifi

299 ch as low operation speed, and limited cycle endurance, which prevents it from becoming the "universa

300 eated with CK-2066260 showed improved muscle endurance., which was accompanied by decreased ATP deman

301 cle energy expenditure and improved physical endurance, with no change in body weight.