ライフサイエンスコーパス: stance

1 e whole stance and for the 4 subdivisions of stance.

2 ly long execution times and an uncomfortable stance.

3 Most had a characteristic gait and stance.

4 en during the sway task as compared to quiet stance.

5 to the APAs in other phases and during quiet stance.

6 to cause oestrous sows to take up the mating stance.

7 bilateral stimuli are applied during normal stance.

8 tion of percentages of print area and single stance.

9 mean of 35% in early stance and 76% in late stance.

10 ns, both pertinent to the control of bipedal stance.

11 s on the Balance Error Scoring System tandem stance.

12 necessary to provide stability to the design stance.

13 entions is undermined by the artistic design stance.

14 ity was concentrated in the swing and end of stance.

15 rmined by sensory input from the limb during stance.

16 torque (T(z)) was investigated during quiet stance.

17 roprioceptive-vestibular interactions during stance.

18 jaw, long, gracile limbs, and a quadrupedal stance.

19 ough an investigative, non-judging, analytic stance, a focus on evidence-based practice and a curbed

20 wing an investigative, non-judging, analytic stance, a focus on evidence-based practice that curbs th

21 The artistic design stance, a requisite for artistic understanding, is an at

22 an intervention that encouraged their public stance against conflict at school.

23 causation, content domains, and explanatory stances, all of which have cognitive consequences.

24 during crouch gait by a mean of 35% in early stance and 76% in late stance.

25 ion of basic exposure to the artistic design stance and artistic understanding.

26 stride length and time, together with longer stance and double-support phases, are associated with in

27 e discharge rate, especially during the late stance and early swing phases, decrease discharge variab

28 knee adduction angular impulse for the whole stance and for the 4 subdivisions of stance.

29 nial measurements so far compiled to examine stance and gait in quadrupedal ornithischians.

30 d consequently, debate continues about their stance and gait.

31 l structure is critical to understanding the stance and locomotion of these enormous herbivores and,

32 ution are the development of upright bipedal stance and reduction in body hair.

33 Results Statistics reported are for stance and side configurations, respectively.

34 mate load, resilience, and toughness in both stance and sideways-fall loading configurations each had

35 These results were independent of stance and suggest an integrated and coordinated reorgan

36 alking along a circular path, adjustments in stance and swing phases are observed, which could alter

37 itioning, the H-reflexes elicited during the stance and swing phases of locomotion (i.e., the locomot

38 F test provided further information for the stance and swing phases.

39 imb functions essential to legged systems in stance and swing.

40 easoning that allegedly underlies the design stance and the segregation of the component stages), sug

41 es that a previously unrealised diversity of stances and gaits were employed by quadrupedal ornithisc

42 le coactivation during limb loading in early stance, and (2) changes in the magnitude of step to step

43 ted with mechanical stimulation during quiet stance, and 98% responded to stimulation.

44 exposure to an artwork, the artistic design stance, and artistic understanding.

45 nd longer steps, narrower base of support at stance, and lower variability in EMG parameters than non

46 An evolutionary stance appears to provide support for linguistic nativis

47 sensitivity to context, history, and design stance are crucial to theories of art appreciation.

48 our claim that basic exposure and the design stance are necessary conditions of artistic understandin

49 al Oncology (ASCO) believes that a proactive stance by the Society to minimize excessive exposure to

50 h as locomotion (reciprocal innervation) and stance (coactivation pattern).

51 one femur from each pair to the single-limb stance configuration (hereafter, stance configuration) a

52 single-limb stance configuration (hereafter, stance configuration) and assignment of the paired femur

53 ements, in a pattern consistent with upright stance control.

54 resulting in an increase in step length and stance duration and a decrease in swing and step cycle d

55 The stance duration decreased in the ipsilateral HL, and inc

56 associated with changes to leg force but not stance duration.

57 e phase/cycle duration relationships for the stance/extension phase decreased, whereas that of the sw

58 e phase/cycle duration relationships for the stance/extension phase increased in the varying limb fro

59 d Pennsylvania have adopted a tougher policy stance favoring the retention of preemptive oil and gas

60 artitioning the forces acting underneath the stance foot.

61 However, the conditioned change in the stance H-reflex was positively correlated with change in

62 O fascicle lengthening and shortening during stance in all walking conditions were evident after dene

63 career, Hughlings Jackson adopted a critical stance in his neurological papers, seeking to expose sho

64 consist of alternating movements, e.g. swing-stance in stepping, jaw opening and closing during chewi

65 release task was also performed during quiet stance in three positions: in the middle of the sway ran

66 s, including a limb-like substrate-supported stance in which the shoulder and elbow were flexed and t

67 uthors' recommendation "to assume the design stance" in the name of understanding works of art blurs

68 The artistic design stance is an important part of art appreciation, but it

69 Although I agree that an artistic design stance is important for art appreciation, I suggest that

70 al receptivity, quantified as the copulatory stance known as lordosis.

71 le" strategy involving systematic changes to stance leg hip moment.

72 During stance, LWIs failed to reduce medial peak pressures apar

73 promote network adequacy, but a pro-provider stance may not be inherently pro-consumer or even pro-pa

74 Sentinel lymph nodes set the stance of the immune system to a localized tumor and are

75 This is consistent with the stance of the Institute of Medicine on guideline develop

76 ated feline soleus (SO) change length during stance of walking when intact SO synergists are actively

77 or a less punitive and more permissive legal stance on cannabis, such as decriminalisation and legali

78 ge, and clear information on each religion's stance on organ donation.

79 ordable Care Act with a "better reform", his stance on reproductive rights, and his approaches to oth

80 However, little is known about the public's stance on this issue.

81 eural substrate (i.e., a sensory recruitment stance on VWM storage).

82 During overground or treadmill walking, the stance phase and cycle durations are reduced as speed in

83 ces forward during the midabdominal prolegs' stance phase and is therefore decoupled from visible tra

84 tralateral forelimb are retracted during the stance phase in locomotion.

85 ee flexion at the heel strike and 50% of the stance phase increased while the peak knee flexion in th

86 inetics and muscle co-contraction during the stance phase of gait.

87 During the stance phase of locomotion, ankle plantarflexion increas

88 degree of crouch, nor one another during the stance phase of locomotion.

89 while subjects were standing and during the stance phase of step initiation.

90 weight exerted on the heel during the early stance phase of the gait cycle.

91 responses occurred overwhelmingly during the stance phase of the step cycle in the ipsilateral foreli

92 and soleus co-contraction (standing and late-stance phase of walking) when compared with sitting and

93 extension and a delay in the transition from stance phase to swing phase, demonstrating V2b INs are r

94 ed internally at the heel strike, 50% of the stance phase, and maximum angle of the swing phase.

95 sulting control law applies control once per stance phase, at the instant of leg touch-down, and depe

96 s were observed between the two lines (short stance phase, little double-support, low leg lift, and l

97 d distally at the heel strike and 50% of the stance phase.

98 oot and the ground moves forwards during the stance phase.

99 Two other limb mechanisms operate in the stance phase; they counteract distortions of the locomot

100 Peak stance-phase knee and hip extension increased by 12 degr

101 n assistance favorably reduced the excessive stance-phase knee extensor moment present during crouch

102 ntact angle explains 80% of the variation in stance-phase limb loading following the perturbation.

103 26% of the energy used by the limbs and the stance-phase muscles consume the remaining 74%, independ

104 dlegs and the relative duration of swing and stance phases for individual limbs is unchanged compared

105 vered during the early swing, late swing and stance phases of the step cycle in three separate sessio

106 k firing at the transition between swing and stance phases.

107 d visual dual-task interference effects with stance postural control in healthy young adults.

108 g levels of interactions with tandem Romberg stance postural control, and that interactions within th

109 Our model predictions suggest that upright stance probably evolved for nonthermoregulatory reasons.

110 realignment may improve knee function during stance, probably because of change of lever arm.

111 In toddlers, the stance-related motor pool activity migrates to the sacra

112 to physics, this fundamental epistemological stance severely limits the ability of quantum theory to

113 center of pressure sway velocity (Unilateral Stance Test, UST scores) were taken at baseline, immedia

114 y was significantly greater in swing than in stance; the difference was more marked for the nuclear p

115 tension (lower extremity strength), unipedal stance time (static balance), and maximal step length (d

116 subjects' perceived exertion and intact-limb stance time when they carried load.

117 iding good predictions of peak vertical GRF, stance time, contact length and vertical centre of mass

118 f peak vertical ground reaction force (GRF), stance time, contact length and vertical centre of mass

119 city, stride frequency, symmetry, percentage stance time, stride length, and step width.

120 n stride time with a concomitant increase in stance time.

121 gaits characterized by increased percentage stance times and shorter stride lengths.

122 factors, lower stride frequencies and longer stance times compared to mammals at self-selected speeds

123 discuss adopting a legal rather than a moral stance to enforce ethical standards.

124 Bullot & Reber (B&R) put forth a design stance to fuse psychological and art historical accounts

125 d contralateral responses peaking during the stance-to-swing transition and swing phase of the ipsila

126 Finding the right stance toward technology requires great balance and sens

127 ay help physicians to take a more empathetic stance toward their patients' requests and to devise mor

128 cutors might know and adopt an interrogative stance toward them.

129 Normal quiet stance was associated with intermediate values.

130 tor functions, weight-support and posture in stance was the only obvious one.

131 s muscle, a hindlimb muscle activated during stance, was used to identify extent of atrophy.

132 Taking a dynamic stance, we consider cognitive tests as functions that tr

133 While stance width changes the mechanical state of the body, t

134 However, when stance width was increased so that the body was more sta

135 three segments was reduced by increasing the stance width.

136 wards with eyes closed standing with various stance widths and sitting.

137 tion across a range of head orientations and stance widths in healthy humans.

138 (COP) was measured during 4 minutes of quiet stance with eyes opened.

139 similar to feedback that stabilizes upright stance with near-minimum muscle activation, but was not

140 thy young adults stood in normal and Romberg stances with six vibrating actuators positioned on the t