ライフサイエンスコーパス: walking

1 indices, force of contraction, and speed of walking).

2 walking pattern (i.e., split-belt treadmill walking).

3 for cycling are approximately half those of walking.

4 e (161.4 vs. 123.4 mL/min, p = 0.03) in pool walking.

5 usion as a functional adaptation for knuckle-walking.

6 io-temporal gait parameters during treadmill walking.

7 e resulted in lower work requirements during walking.

8 rmuscular co-contraction of the TA-LG during walking.

9 s can instantaneously initiate goal-directed walking.

10 to execute key behaviors, such as flying and walking.

11 ty of intermediates encountered during chain-walking.

12 cle-tendons can reduce the metabolic cost of walking.

13 nit number index, muscle power, and speed of walking.

14 le in balance and energy minimization during walking.

15 in specific phases in the lower limbs during walking.

16 eous limb use, and hindlimb placement during walking.

17 er withstands the loads derived from knuckle-walking.

18 extensive experience of split-belt treadmill walking.

19 osing a challenge to maintain balance during walking.

20 erage of 90%, whether driving, bicycling, or walking.

21 ch of these features are interrelated during walking.

22 le stimuli at frequencies experienced during walking.

23 is crucial for balance and stability during walking.

24 -documented in vitro but not in vivo) during walking.

25 reliable signals during long duration loaded walking.

26 strains of 5.0% observed after 60 minutes of walking.

27 gonist and antagonist ankle muscles when toe walking.

28 kinematic, kinetic, and metabolic trends for walking.

29 haviors including sex, sleep and spontaneous walking.

30 learn new walking patterns without actually walking.

31 and shapes the user's metabolic rate during walking.

32 ponent of mechanical impedance varies during walking.

33 g kinematics for lower limb movements during walking.

34 ulated during the first and fifth minutes of walking.

35 driving, 65 min if bicycling, and 85 min if walking.

36 s (taking a shower: 53% versus 38%, P=0.030; walking 100 meter: 76% versus 54%, P=0.001; and walking

37 (Margin of Stability during normal/dual-task walking), (3) mobility (the Timed Up and Go test and the

38 utcome (community ambulation) was defined as walking 300 m or more in 6 minutes at 16 weeks after ran

39 requencies below ~ 14 Hz) compared with slow walking (50% signal power contained in frequencies below

40 d post-mortem inspection rejections, poorest walking ability, most hock burn and pododermatitis) and

41 Supervised exercise therapy (SET) improves walking ability, overall functional status, and health-r

42 is constrained during fixed-speed treadmill walking ABSTRACT: The bilateral symmetry inherent in hea

43 and perceptual recalibration with split-belt walking adaptation in adults and children aged 6-8 years

44 n's correlations assessed whether changes in walking after DBS were global (ie, related across gait p

45 uroprostheses aiming to restore standing and walking after paralysis have been extensively studied in

46 tify persistent dysplasia after 9 months and walking age (after 18 months).

47 abular index at age 10 months (p = 0.82) and walking age (p = 0.35).

48 Half of the patients needed walking aids after 10 years of disease duration and a qu

49 cognitive behavioural therapy, heat therapy, walking aids and splints, manual therapies and transcuta

50 A specialized tabu-search path walking algorithm was used to produce an initial backbon

51 ncillary ligand followed by additional chain walking allows the metal to migrate to the alpha-carbon

52 ring their commute from home to school while walking along (a) the shortest-distance routes and (b) a

53 ng sustained, physically demanding dual-task walking and (2) test hypotheses about how the P300 event

54 gy-consuming processes such as motor protein walking and actin polymerization.

55 the different shares of modes of transport (walking and by car, bus, and bike).

56 nership is associated with more recreational walking and considerably greater odds of meeting PA guid

57 feedback, balance control through overground walking and cue-based decoding of cortical motor command

58 Emissions from food required for walking and cycling are not negligible in economically d

59 ns (in kgCO(2)e) per kilometre travelled for walking and cycling from energy intake required to compe

60 y about the actual emissions associated with walking and cycling, and high variability based on count

61 required to fuel extra physical activity for walking and cycling.

62 separate brain pathways for object-directed walking and fast, straight, forward walking, providing i

63 SVS-COP coupling decreased from standing to walking and further dropped with faster locomotion.

64 In contrast, BPN drives straight, forward walking and is not required during courtship.

65 se to visual perturbations during overground walking and may help to establish new methods for early

66 Replacing sitting with walking and MVPA showed stronger associations among high

67 Walking and other forms of self-motion create global mot

68 healthy articular cartilage behavior during walking and provide a much-needed baseline for studies i

69 in) in response to impact forces elicited by walking and running at a range of speeds.

70 timates show that the trackways reflect both walking and running behaviors.

71 reases in vertical impact forces with faster walking and running was consistent with changes in both

72 ee commercially available sports bras during walking and running.

73 During walking and swimming, both locally rewired as well as co

74 gait is adapted during split-belt treadmill walking and tested the hypothesis that asymmetry is adap

75 y energetically optimal in constrained human walking, and (2) people may prefer to walk asymmetricall

76 molecular markers on LG10 through chromosome walking approach led to the identification of a major ca

77 osis and pelvic stabilization during upright walking are not present in O. bambolii However, O. bambo

78 onse of tibial cartilage to various doses of walking as a mechanical stimulus, with maximal strains o

79 retained from an LCA that exhibited knuckle-walking as part of its locomotor repertoire and that was

80 vascular improvements and less dependency on walking assistance, but also partial neurological recove

81 n can reduce the metabolic rate of treadmill walking at 1.5 meters per second by 9.3% and that of run

82 ssociations of osteopontin with standing and walking at 12 mo (P = 0.007 and 0.002, respectively).

83 r 25(OH)D concentrations had higher rates of walking at 30 d (P = 0.031): 12 to <20 ng/mL (adjusted O

84 center-of-pressure, COP) during standing and walking at different speeds and compared it to activity-

85 we have characterized limb coordination and walking behavior in response to transient activation of

86 how sensory feedback from each limb affects walking behavior.

87 ing and required for fast, straight, forward walking bouts.

88 lations of the hominoid wrist during knuckle-walking by virtually generating fused and unfused morpho

89 or studying adaptation, split-belt treadmill walking, can be understood from a perspective in which p

90 ovement in health-related quality of life or walking capacity compared to a noninvasive treatment str

91 Chain walking combined with blue-light irradiation functions a

92 c backgrounds at school, at home, and during walking commutes.

93 rrelated with average stride times in either walking condition.

94 conventional shoes, independent of visual or walking condition.

95 During the walking conditions and during a seated control condition

96 Consider that symmetric walking could be preserved by matching the movement of t

97 Our results suggest that split-belt walking could modulate the deficient perception of step

98 ions such as gripping, lifting, or motility (walking, crawling, swimming, and flying).

99 Recently developed chain walking (CW) catalysis is an elegant approach to produce

100 creasing active transport (i.e. transport by walking, cycling and other active modes) may reduce gree

101 ital status, leisure time physical exercise, walking/cycling, height, energy intake, smoking habits,

102 d and often preceded by decades the onset of walking difficulty.

103 Mean improvement in maximal walking distance after 6 months was 439 m [99% confidenc

104 imary endpoint was the difference in maximum walking distance at long-term follow-up.

105 ed vital capacity (FVC) and stabilised 6-min walking distance compared with placebo over a 28-week pe

106 The secondary outcome was 6-minute walking distance from baseline to 24 weeks.

107 The baseline and 24-week 6-minute walking distance mean scores in the 15-mg/d vericiguat,

108 predicted FVC of -3.6% per year and in 6-min walking distance of -10.5 m per year at week 52.

109 walking performance (maximal and functional walking distance on a treadmill test, 6-minute walk test

110 y, demonstrated no significant difference in walking distance or quality of life between the treatmen

111 Whereas the difference in maximum walking distance significantly favored combination thera

112 The 6-minute walking distance was 451+/-147 m for those in the leafle

113 No difference in pain-free walking distance, ankle-brachial index and quality of li

114 endpoints included differences in pain-free walking distance, ankle-brachial index, quality of life,

115 nd domain scores (n=116, NS) or in treadmill walking distances (n=91, NS).

116 quality of life questionnaire) and treadmill walking distances were secondary end points.

117 Optical in vivo recordings from freely walking Drosophila are currently possible only for limit

118 Previous work has characterized how walking Drosophila coordinate the movements of individua

119 a co-contraction activation pattern when toe walking due to weak muscles and insufficient motor and s

120 leading to decreased ambulation and reduced walking endurance remain poorly understood.

121 ip between spatiotemporal gait asymmetry and walking energetics is currently under debate.

122 ying objects in the periphery in a simulated walking environment, was significantly better with the D

123 is constrained during fixed-speed treadmill walking, especially when the constraint is large.

124 iate alkyl-Pd complexes can undergo a "chain-walking" event, to allow for remote functionalization th

125 light- or (iii) moderate-intensity treadmill walking every 20 minutes.

126 Walking exhibits considerable variability and equifinali

127 daptations in movement kinematics related to walking faster, and adopted a 'checking strategy' by sho

128 he TLAs decreases the extent to which freely walking flies back up upon encountering a physical barri

129 Here we find that walking flies combine signals from both antennae to orie

130 Walking flies find the source of attractive odors by cha

131 endent, tethered navigational behavior where walking flies maintain a straight trajectory along a spe

132 ncounters are random in both space and time, walking flies navigate with random walks biased by encou

133 a visual object-induced stopping behavior in walking flies, a form of short-term freezing, and its ac

134 mplex odor plumes simultaneously with freely-walking flies, quantifying how behavior is shaped by enc

135 at specific joint angles, elicits pausing in walking flies.

136 tertiary C-radical generation through chain-walking followed by Ni-C bond homolysis.

137 DO were far more likely than NDO to report walking for recreation (OR = 14.35, 95% CI = 5.77-35.79,

138 of the built environment in the promotion of walking for travel and provides new findings to help in

139 Although walking for travel can help in reaching the daily recomm

140 oject, we aimed to explore the correlates of walking for travel in European cities.

141 ow relatively little about the correlates of walking for travel in the European context.

142 endly social environment was associated with walking for travel.

143 to life-like motions, from simple bending to walking, for example.

144 study finds that viewing small spots causes walking fruit flies to stop in their tracks, and identif

145 ed similar results: the model adopted a "toe-walking" gait with excessive hip and knee flexion during

146 late stepping movements to achieve different walking goals.

147 Increased walking, greater time spent doing moderate-to-vigorous p

148 adership in the specific scenario of a small walking group.

149 problem in human ensembles, e.g. pedestrian walking, group dance.

150 oria biometric bra was valid during rest and walking (ICC = 0.96, MAPE = 1.9%, LoA = -15 to 12).

151 wed no difference in mean improvement in the Walking Impairment Questionnaire score (-0.8%; 95% CI: -

152 RI) is associated with mortality or rates of walking in a patient cohort after hip fracture surgery.

153 nuous visual perturbations during overground walking in a virtual reality headset.

154 We developed a paradigm involving walking in an omnidirectional treadmill in which partici

155 ed adults and compared it to involuntary toe walking in children with cerebral palsy.

156 cipants were more stable during standing and walking in minimal shoes than in conventional shoes, ind

157 Walking in our complex environment requires continual hi

158 we investigated maturation of voluntary toe walking in typically-developing children and typically-d

159 Bicycling, rather than walking, in rural areas would substantially increase the

160 e the 99(th) percentile after 30 to 55 km of walking independently predicted higher mortality and car

161 ed coordination patterns in 11-month-old pre-walking infants with a range of cruising (moving sideway

162 Postural and walking instabilities contribute to falls in older adult

163 Short-term primary care pedometer-based walking interventions can produce long-term health benef

164 Two primary care 12-week pedometer-based walking interventions in adults and older adults (PACE-U

165 cts on long-term health outcomes relevant to walking interventions, using routine primary care data.

166 bilateral symmetry inherent in healthy human walking is often disrupted in clinical conditions that p

167 frican great-ape-like ancestor using knuckle-walking is still the most parsimonious hypothesis for th

168 Healthy human walking is symmetric and economical; hemiparetic and amp

169 derwater locomotion modes, such as crawling, walking, jumping, and swimming, by local deformations in

170 anges in leg muscle activity during backward walking: LBL40 neurons provide the hindleg power stroke

171 ability, greater upper body strength, faster walking, less obesity and central adiposity, more favora

172 an mass, exhaustion, low energy expenditure, walking limitations, and weakness.

173 ith cessation of hunting, tree chopping, and walking long distances, but not tool manufacture.

174 e, smartphone-based assessments of dual task walking may be utilized to capture meaningful data sensi

175 Pool walking may improve renal function in pregnant women par

176 e a stable polymeric chelate through a chain-walking mechanism.

177 or muscle activity that produced an observed walking motion while minimizing squared muscle excitatio

178 weakness may cause deviations from a normal walking motion.

179 These results illustrate that the chain-walking of alkyl-palladium complexes can be controlled t

180 tifying the gender, emotion, or direction of walking of point-light animations of human movement); an

181 new strategy to regulate branching in chain-walking olefin polymerization by triggering a rapid isom

182 id soles influenced balance performance when walking on a beam.

183 The task involved walking on a horizontal ladder while blindfolded, which

184 ver, learning in these mutants is rescued by walking on a motorized treadmill during training.

185 Maintaining balance while walking on a narrow beam is a challenging motor task.

186 be optogenetically induced in tethered flies walking on a spherical treadmill, laying the groundwork

187 asymmetry on energy cost during steady-state walking on a split-belt treadmill at increasing speed-di

188 mposing dynamic scenes: When we see a person walking on a train or an animal running in a herd, we re

189 eadmill stepping, exploratory locomotion, or walking on an uncoated, slick surface.

190 d vL(R) in all three planes of motion during walking on an uneven in comparison to a flat surface.

191 During walking on complex surfaces, gaze behaviours are typical

192 h large changes in indirect calorimetry from walking on different grades showing that both methods ac

193 pact of dose of moderate intensity treadmill walking on experimentally-induced pain in healthy human

194 ics and kinetics in three individuals during walking on level ground, ramps and stairs.

195 is study aimed to examine the effect of pool walking on renal function in pregnant women.

196 We found that even during walking on the flat surface in the darkness, all gaze be

197 Difficulty walking one-quarter mile or climbing stairs was measured

198 Walking onto a stationary platform that had been previou

199 uman foot enables an efficient push-off when walking or running, and was critical for the evolution o

200 airflow velocity, and alerting blind people walking outside about potential hazard induced by nearby

201 eel left leg raise (p = 0.019), and 6-minute walking (p = 0.006), depression (p = 0.017).

202 Troponin I concentrations increased after walking (P<.001), with 63 participants (9%) demonstratin

203 g can facilitate learning of an entirely new walking pattern (i.e., split-belt treadmill walking).

204 teach healthy, young participants a modified walking pattern and compared their performance to those

205 ch to predict how people should adjust their walking pattern to take advantage of the assistance prov

206 of visual information to learn the same goal walking pattern.

207 But what is required to learn a new walking pattern?

208 nd that this group of children adapted their walking patterns more slowly than adults, though individ

209 er or longer step than preferred, asymmetric walking patterns were less metabolically costly than sym

210 ere less metabolically costly than symmetric walking patterns When one leg was constrained to take a

211 re, we demonstrate that people can learn new walking patterns without actually walking.

212 se findings reveal that people can learn new walking patterns without bilateral gait training, as ste

213 alysis to gradually mesh amputee and typical walking patterns.

214 itiate and maintain two distinct coordinated walking patterns.

215 Humans are capable of learning many new walking patterns.

216 ion in attention is not caused by the act of walking per se.

217 we collected information on total minutes of walking per week, individual characteristics, mobility b

218 Changes from baseline walking performance (maximal and functional walking dist

219 lthough aortoiliac disease patients improved walking performance and health-related quality of life s

220 to assess whether 6 months of cocoa improved walking performance in people with PAD, compared with pl

221 lts suggest a therapeutic effect of cocoa on walking performance in people with PAD.

222 termine whether cocoa significantly improves walking performance in people with PAD.

223 No between group differences in walking performance or vascular quality of life question

224 P300 event-related potential is affected by walking physical exertion.

225 re more evident in pool walking than in land walking (plasma renin activity, -1.27 vs. 0.81 ng/mL/h,

226 airways, causing bronchitis and atypical or "walking" pneumonia in humans.

227 r model system of differently branched chain walking polyethylenes in five different solvents, which

228 ith high branching (0 equiv.), regular chain-walking polymerization (1 equiv.), and alkene isomerizat

229 tructures modeled with different reaction-to-walking probabilities.

230 on to investigate the mechanism of the chain-walking process and termination events.

231 w methods to selectively interrupt the chain-walking process at a prescribed location.

232 how the brain initiates context-appropriate walking programs.

233 Perturbations delivered while subjects were walking provided greater discriminability (average accur

234 directed walking and fast, straight, forward walking, providing insight into how the brain initiates

235 food intake required to fuel a kilometre of walking range between 0.05 kgCO(2)e/km in the least econ

236 ic bottle brushes and can be adjusted by the walking rate/reaction probability of the catalyst.

237 that the reduction in attention seen during walking reflects the linear and additive sum of the proc

238 lates, providing complimentary insights into walking regulation.

239 one leg is constrained, even when symmetric walking remains possible.

240 it is demonstrated on an 8-degree-of-freedom walking robot where each limb comprises two actuators wi

241 rotocols to prototype sub-hundred-micrometre walking robots.

242 sing static test images, followed by dynamic walking simulations to determine if they could identify

243 turbances; restrict daily activities such as walking, sitting and bathing; and complicate rehabilitat

244 rs in an optimized sequence over kilometers, walking solitary foraging ants can precisely recapitulat

245 Among swimming and walking species, migrants tend to have larger body size,

246 s increased energy cost by 9.6% at a typical walking speed (1.25 m/s, p = 0.026), but reduced energy

247 nd diastolic BPs were associated with slower walking speed (both P=0.010), smaller step length (P=0.0

248 e learning models predict parameters include walking speed (r = 0.73), cadence (r = 0.79), knee flexi

249 decrease was accompanied by improvements in walking speed and in the modulation of locomotor electro

250 ps produced a greater improvement in fastest walking speed at 1 day and 3 months postintervention tha

251 Decreased walking speed correlated with increased gait variability

252 Walking speed decreased by >30% in two participants and

253 did not significantly improve disability or walking speed in patients with progressive multiple scle

254 While the Argus II device was active, walking speed increased from baseline to immediately aft

255 uring pushoff increased from 41 to 48 MPa as walking speed was increased, and were comparable to esti

256 ed nerve regeneration (p < 0.001), increased walking speed, and improved skilled locomotion.

257 amputations, robotic prostheses can increase walking speed, and reduce energy use, the incidence of f

258 Primary outcome was fastest walking speed, and secondary outcomes were timed up-and-

259 It appeared that a mismatch in walking speed, but also age, sex and BMI may lead to err

260 asymptomatic population database in terms of walking speed, demographic and anthropometric parameters

261 cs using multiple regression models based on walking speed, gender, age and BMI as predictors.

262 they had >=3 of the following criteria: slow walking speed, low grip strength, weight loss, exhaustio

263 ing 5 components: weak grip strength, slowed walking speed, poor appetite, physical inactivity, and e

264 We then generated a gait at self-selected walking speed; quantitative comparisons between our simu

265 d whole-body energy expenditure across three walking speeds (1.25, 1.75, and 2.0 m/s) and three level

266 ce whole-body energy cost differently across walking speeds.

267 er of pressure during eyes open/closed), (2) walking stability (Margin of Stability during normal/dua

268 king 100 meter: 76% versus 54%, P=0.001; and walking stairs: 74% versus 54%, P=0.011).

269 s from a non-walking state to an appropriate walking state is unclear.

270 inputs trigger rapid transitions from a non-walking state to an appropriate walking state is unclear

271 During human walking, step width is predicted by mediolateral motion

272 tings of interpersonal closeness between two walking stick-figures in a video.

273 d with a reference sequence-based chromosome walking strategy and high-density mapping populations, w

274 me addresses and schools attended for 14,091 walking students.

275 e not adjustable and did not create a convex walking surface.

276 ps them develop a variety of skills, such as walking, talking, and avoiding danger.

277 Cardiopulmonary exercise test and 6-minute walking test are frequently used tools to evaluate physi

278 , cardiopulmonary exercise testing, 6-minute walking test, isokinetic muscle function, and skeletal m

279 earable metabolic cart, performed a 6-minute walking test, two 4-minute treadmill exercises (at 2 and

280 aldosterone levels were more evident in pool walking than in land walking (plasma renin activity, -1.

281 aldosterone level was suppressed during pool walking: the mean starting and ending values of plasma r

282 During walking, there were no significant differences in reduct

283 zards models (including gait speed and daily walking time as measures of physical function) without a

284 ation of internal alkenes proceeds via chain-walking to give polymers with much higher branching than

285 oskeletal model and generated simulations of walking to predict gait adaptations due to these deficit

286 n unusual remote functionalization via chain walking to the most sterically hindered tertiary C(sp(3)

287 Thirty participants performed standing and walking trials in three footwear conditions, i.e. conven

288 ry of knee OA, or pain on climbing stairs or walking up slopes all had LRs of 2.1 (sensitivity range,

289 she had been traveling in Italy and had been walking up to 4 miles per day.

290 P300 amplitude was reduced during loaded walking versus seated, but there was no effect of time o

291 , participants who spent the day standing or walking versus sitting had 58% decreased odds of glaucom

292 2.5 exposure and physical activity (overall, walking, vigorous activity) in association with CVD risk

293 ult-like conformation only after independent walking was established.

294 (TA), and lateral gastrocnemius (LG) during walking were recorded.

295 articularly during dual task conditions (ie, walking while performing an additional cognitive task),

296 rring over multiple training sessions, while walking with a soft exosuit assisting the hip joint.

297 ubtle changes in indirect calorimetry due to walking with different shoe inclinations, and both the m

298 P9 drives forward walking with ipsilateral turning, receives inputs from c

299 We also show that walking with positive step length asymmetries, defined b

300 Results showed that walking with rigid soles improved balance performance in