ライフサイエンスコーパス: dexterity

1 to both enhanced visualization and technical dexterity.

2 injury, frequently results in impaired hand dexterity.

3 benefit from guidewires which exhibit higher dexterity.

4 ntial, and kinematically rich form of manual dexterity.

5 onal rigid neuroprosthetic hand in speed and dexterity.

6 stonia had a small but robust loss of finger dexterity.

7 gy to overcome age-related decline in manual dexterity.

8 t damage sensorimotor connections and impair dexterity.

9 on open-curve movement paths restrict their dexterity.

10 e fingertips are a cornerstone of human hand dexterity.

11 on the nine-hole peg test, a test of manual dexterity.

12 form of complex free-object-handling manual dexterity.

13 uidewire system capable of exhibiting higher dexterity.

14 ssing speed, auditory memory, and fine motor dexterity.

15 nism to link increased co-firing to enhanced dexterity.

16 g within task-related ensembles and improved dexterity.

17 extract and use energy with ever increasing dexterity.

18 e movement patterns without requirements for dexterity.

19 rength with manual testing as well as manual dexterity.

20 llenging for children with developing manual dexterity.

21 surgical training, the quintessence of human dexterity.

22 ecific rehabilitation showed improved manual dexterity.

23 ial and emotion processing; and sensorimotor dexterity.

24 rovide an objective measure of the surgeon's dexterity.

25 to impairments in gait, balance, and manual dexterity.

26 decreases in spontaneous activity and manual dexterity.

27 all tests except for grip strength and motor dexterity.

28 ng, reaction time, intelligence, memory, and dexterity.

29 ng how soft organs achieve both strength and dexterity.

30 for applications requiring adaptability and dexterity.

31 does it contribute to the recovery of manual dexterity?

32 th was a mediator between HEI and ADL manual dexterity (23.7% of the indirect effect was explained th

33 al processing (2p25 and 16q23), sensorimotor dexterity (2q24 and 2q32), prepulse inhibition (5p15), t

34 opposite limb, encompasses both strength and dexterity-a vital factor in daily activities.

35 and radically outperform robots in terms of dexterity, agility, and adaptability.

36 s study detected impaired simulated surgical dexterity among novice surgeons after acute sleep depriv

37 of the proposed advantages include increased dexterity and a superior ergonomic position for the oper

38 human-like features associated with enhanced dexterity and ape-like features associated with locomoto

39 ue to inherent constraints related to manual dexterity and cognitive abilities.

40 these features may be associated with manual dexterity and coordination of the hands, a characteristi

41 lecular foundations of the genus' astounding dexterity and diversity in secondary metabolism, and on

42 etic feedback will considerably increase the dexterity and embodiment of upper-limb neuroprostheses a

43 cross species and may explain differences in dexterity and even the capacity for tool use.

44 This implies that dexterity and force generation require intact attention

45 ties (HABIT-ILE) effectively improves manual dexterity and gross motor function in school-aged childr

46 cedures, surgeons rely on catheters with low dexterity and high aspect ratios to reach an anatomical

47 to advance surgical precision by increasing dexterity and optimizing surgical decision-making.

48 of motor learning to explain the exceptional dexterity and rapid adaptation to change, which characte

49 nes entirely, endowing them with exceptional dexterity and reconfigurability.

50 hat functional prosthetic wrists can improve dexterity and reduce compensation without significantly

51 and wrist, although with diminished digital dexterity and sensation.

52 also seen on lower level motor functions of dexterity and strength-by examining relationships betwee

53 an imperfect sense of touch, limiting manual dexterity and tactile experience.

54 stocene), indicating that humans with manual dexterity and the experiential knowledge to use hammerst

55 oscillations play a role in the altered hand dexterity and uncharacteristic adaptive sensorimotor con

56 en the autonomous hand and the user improves dexterity and user experience.

57 adily increased as it improves the surgeon's dexterity and visualization.

58 Throughout learning, improvements in dexterity and visuo-motor co-ordination correlated with

59 ppropriate rehabilitation to build strength, dexterity, and endurance.

60 er chronic pain and limitations in mobility, dexterity, and functional ability.

61 ess, brain volume expansion, improved manual dexterity, and large body size.

62 n the domains of executive abilities, manual dexterity, and peripheral motor strength.

63 e function, academic achievement, fine motor dexterity, and socioemotional health.

64 sual reasoning, processing speed, fine motor dexterity, and visual-motor integration (Pearson correla

65 o stimulus evaluation while coordination and dexterity are related to cortical activation underlying

66 Although general impairments in manual dexterity are well-documented in older adults, it is unc

67 s into adulthood and exhibit superior manual dexterity as compared with that of controls.

68 tronger theta ERS tended to have better hand dexterity, as indicated by the Box and Blocks Test and P

69 Dexterity assessment and embodiment questionnaire result

70 The primary outcome measure for hand dexterity assessment was the Jebsen-Taylor Hand Function

71 ller via isolated control and sensory tasks, dexterity assessments, embodiment and task load question

72 exibility, balance) and MC (coordination and dexterity, ball skills, agility and balance) test batter

73 in significant improvements in gross manual dexterity, bimanual coordination, and the functional act

74 Surgeons showed greater dexterity, but higher levels of swearing compared with o

75 ressing this instability is crucial for hand dexterity, but how the neuromuscular system does so is u

76 her show that advanced age and poorer manual dexterity can be predicted by the coupled activation of

77 rate effectors and show how natural forms of dexterity can serve as a model for understanding the beh

78 robustness, adaptive locomotion, human-level dexterity, continual learning, and human-robot collabora

79 To compare the requisite dexterity, coordination, and care involved in each techn

80 In the elderly, where both strength and dexterity decline, investigating the simultaneous transf

81 agnifier is influenced by age-related manual dexterity decline.

82 Dexterity develops during the later phases of refining a

83 did executive function (P < .01), but motor dexterity did not (P > .15), remaining below controls (P

84 -foot orthoses, full-time use of wheelchair, dexterity difficulties and also has significantly higher

85 er risk of ADL, ADL mobility, and ADL manual dexterity disabilities (hazards ratio [HR]: 0.96; 95% co

86 ut simple pointing tasks requiring less hand dexterity do not.

87 uts exhibited significant deficits in manual dexterity, dual-tasking and motion perception, and a str

88 ng myoelectric prostheses-and limited device dexterity, durability, and reliability among both myoele

89 on on the primary outcome measure, a test of dexterity during manipulation of food, at 50 days after

90 Responses to survey questions addressing dexterity, eating, mobility, mood, pain, sleep, speech,

91 core of vision, hearing, speech, ambulation, dexterity, emotion, cognition, and pain), Patient Health

92 mate [SE], 0.018 [0.006]; P = .005) and hand dexterity (estimate [SE], 0.091 [0.034]; P = .008) showe

93 y not be sufficient to explain superior hand dexterity exhibited by musicians, IHI may be a potential

94 ing measures of social complexity and manual dexterity, failed to predict success at opening the boxe

95 processing in impaired networks and improves dexterity following stroke.

96 rgery as well as increased magnification and dexterity for minimally invasive surgery.

97 stralopithecus africanus employed human-like dexterity for stone tool making and use 3 million years

98 ificant changes occurred in grip strength or dexterity from preoperative baseline to 3 and 12 months

99 graph recall test 0.29, -1.2 to 1.8), manual dexterity (Grooved Pegboard Test 4.2, -1.3 to 9.7), and

100 However, at 16-32 weeks later, when dexterity had largely recovered, RFs of cuneate neurons

101 Difficulties with manual dexterity have a major impact on activities of daily liv

102 Improvements in dexterity have enabled primates to manufacture and use t

103 In tests of forelimb dexterity, however, Sox11 overexpression in the cortex c

104 herence to HEI with lower risk of ADL manual dexterity (HR: 0.98; 95% CI: 0.97, 0.99) in fully adjust

105 These animals showcase impressive dexterity in employing the same appendages in different

106 Superior manual dexterity in higher primates emerged together with the a

107 ural mechanisms that underlie our effortless dexterity in manipulating objects.

108 e account for the emergence and expansion of dexterity in primates?

109 l rehabilitation promotes recovery of manual dexterity in rats with cervical spinal cord injuries.

110 h training improves hand strength and manual dexterity in subjects with SCI who have residual grip st

111 ning program on prehension strength and hand dexterity in the elderly (> 65 years).

112 ing interventions for enhancing strength and dexterity in the elderly.

113 Similarly, the dexterity in the non-dominant hand is usually decreased

114 er-nose tests, however, showed poorer manual dexterity in the older group, and these correlated with

115 ation compared with self-controlled baseline dexterity in the total score (559.1 +/- 39.3 vs. 593.8 +

116 Processing speed, verbal WM and manual dexterity increased following training in all groups.

117 Importantly, hand motor output and hand dexterity increased in individuals with spinal cord inju

118 al robots require more actuators for greater dexterity, increasing design and control complexity.

119 or tasks requiring different degrees of hand dexterity: index finger abduction, a precision grip, and

120 nt shows that a long-term motor skill-manual dexterity-influences the way the motor systems respond d

121 However, in attention to detail and dexterity involving executive function, although males w

122 Humans' manual dexterity is partly due to control loops driven by senso

123 According to Newell, "dexterity" is the ability of an organism to make goal-di

124 or abilities, such as turning speed and hand dexterity, is effective in slowing the decline of daily

125 animals and controls were assessed for motor dexterity (Kuypers' Task), attention, three-choice discr

126 possibly operating rooms where the surgeon's dexterity may be enhanced.

127 The dexterity may lead to new technologies, such as reconfig

128 ient determined disease steps (PDDS), manual dexterity (MDT), walking speed (WST), processing speed (

129 92), verbal fluency (mean, -0.89), and motor dexterity (mean, -2.5).

130 In this study, we investigated how manual dexterity modulates spontaneous functional connectivity

131 tcomes (working memory reaction time, manual dexterity, mood, and depression) did not significantly d

132 nipulative motor tasks requiring higher hand dexterity necessitate feedback-based control of arm reac

133 great promise for improving the accuracy and dexterity of a surgeon and minimizing trauma to the pati

134 that provide sensory feedback and enable the dexterity of the human grasp(2) remain difficult to repl

135 sed glove allows us to take advantage of the dexterity of the human hand with potential applications,

136 t people from multitasking or using the full dexterity of their prosthetic hands.

137 res through a single incision, with enhanced dexterity, optimized use of confined spaces and improved

138 minimising the functional deficit in manual dexterity or ambulation for the patient.

139 Dexterity, or skill in performing motor tasks, depends o

140 patients with poor vision, decreased manual dexterity, or strong preference.

141 CT but declined significantly for fine motor dexterity ( P < .001) after myeloablative HCT.

142 omotor skills (P = .02), and motor speed and dexterity (P < .001), with the benefits of donepezil gre

143 iscrimination, P = .007) and motor speed and dexterity (P = .016).

144 (p=0.053), the Purdue pegboard test of hand dexterity (p=0.318), the reduction in off time (p=0.105)

145 ose oil, and thyme oil (P < 0.007 for manual dexterity, P < 0.02 for ball skills, and P < 0.03 for st

146 centuating the risk of falls and undermining dexterity, particularly in settings with concurrent addi

147 The study of manual dexterity provides a unique lens into the sensorimotor m

148 nique in the animal kingdom for unparalleled dexterity, ranging from complex prehension to fine finge

149 ine cortical areas that contribute to manual dexterity, reaching, and grasping.

150 ce inspired structured learning in enhancing dexterity, rehabilitation, and motor control, paving the

151 Although dexterity relies on the constant transmission of sensory

152 Manual dexterity requires proprioceptive feedback about the sta

153 s were divided using the median split of the dexterity score, we found the same connectivity patterns

154 , although not a control, achieved video and dexterity scores equivalent to expert levels of performa

155 hanism underpinning the problems with manual dexterity seen in Parkinson's patients and highlight the

156 s for measurement were identified (strength, dexterity, sensation, gait, balance, power, endurance),

157 Manual dexterity should be considered as a possible prognostic

158 Participants with lower manual dexterity showed an opposite pattern.

159 alpha band, participants with higher manual dexterity showed distributed decreases of connectivity,

160 ance, with higher levels of coordination and dexterity showing an additional association with greater

161 ng, and significant weaknesses in fine motor dexterity/speed and nonsignificant weaknesses in nonverb

162 MC and its coordination and dexterity sub-component were positively related to task

163 inter-limb transfer effects in strength and dexterity support the potential of cross-education for h

164 electromyographic activity as well as a hand dexterity task were measured before and after both proto

165 Using a dexterity task, calcium imaging, optogenetic perturbatio

166 (r = -0.48, 95% CI -0.72, -0.14) and manual dexterity tasks (r = -0.37, 95% CI -0.62, -0.06), and wi

167 of a mean of 15 timed arm movements and hand dexterity tasks).

168 le dorsiflexion strength and functional hand dexterity test being most affected.

169 with CMT4C recorded more affected functional dexterity test scores than did those with all other type

170 meaningful improvements in quantitative hand dexterity tests and health-related quality of life.

171 oke dynamics, could translate classic finger dexterity tests from clinics to populations in-the-wild

172 s, 2 of 25 visual spatial tests, and 2 of 19 dexterity tests.

173 This results in a deficit in fine dexterity that recovers over several months.

174 ol that combine with individuation to create dexterity, the impairment of individuation by disease, a

175 ontributes to learned movement execution and dexterity through mechanisms that include regulation of

176 the networked operating room, enhancement of dexterity to facilitate microscale operations, and devel

177 atrium, the robotic platform provides enough dexterity to reach multiple anatomical targets, enough s

178 Children born MLP had similar manual dexterity to those born early term or later (mean [SD] s

179 development and dissemination of a cultural dexterity training program that will provide surgeons wi

180 multijoint limb and digit movements-"manual dexterity"-underlie both specialized skills (e.g., playi

181 Insufficient dexterity, visual impairment, and cognitive dysfunction,

182 The improved dexterity, visualization, and ergonomics of robotic syst

183 The recovery of manual dexterity was analyzed in the macaque following a cervic

184 Manual dexterity was assessed using the Jebsen-Taylor hand-func

185 Pain score, grip strength, and dexterity were measured before surgery and at 3 and 12 m

186 Grip strength and manual dexterity were not changed by radial artery harvesting a

187 in the substantia nigra and improved manual dexterity were noted but did not reach statistical signi

188 Assessments of hand dexterity were performed at baseline (at week 1), post-t

189 y discernible impact on grip force or manual dexterity when administered alone or in combination with

190 These age-associated impairments in dexterity while interacting with low-friction surfaces m

191 ecovery in general motor tests and in manual dexterity with remarkable restoration of pre-lesion move

192 ted an initial post-injury deficit in manual dexterity, with gradual functional recovery over 2 month

193 prosthetic limbs can autonomously move with dexterity, yet they are not perceived by the user as bel