ライフサイエンスコーパス: sensory function

1 rive inhibited firing and suppressed overall sensory function.

2 cterized by progressive loss of motor and/or sensory function.

3 sily damaged, resulting in loss of motor and sensory function.

4 s characterized by impaired distal motor and sensory function.

5 rehabilitation without VNS failed to improve sensory function.

6 regenerate auditory hair cells that restore sensory function.

7 Adaptation is a hallmark of sensory function.

8 he above processes in addition to a specific sensory function.

9 word recognition to compensate for decreased sensory function.

10 two identical odor maps would contribute to sensory function.

11 ssed as noise and thought to play no role in sensory function.

12 he sensory epithelium will optimally restore sensory function.

13 nsive lesions, fully regenerates to maintain sensory function.

14 nization and provide systems for analysis of sensory function.

15 alized environment that enables and sustains sensory function.

16 ach cortical layer serves a distinct role in sensory function.

17 tis elegans aristaless orthologue, in amphid sensory function.

18 nucleotide ATP has long been associated with sensory function.

19 in newborns can cause deficits in motor and sensory function.

20 ation led to near-normal recovery of thermal sensory function.

21 rative failure leads to a persistent loss of sensory function.

22 strabismic patients with variable binocular sensory function.

23 naptic plasticity and facilitate recovery of sensory function.

24 d state, the resulting emitters can obtain a sensory function.

25 his sensory accessory membrane in vestibular sensory function.

26 l regeneration, accelerating the recovery of sensory function.

27 tween ToxR transcriptional activity and ToxS sensory function.

28 vement commands likely serve a fundamentally sensory function.

29 formation of a critical synapse required for sensory function.

30 trigeminal nerve (V2), with normal motor and sensory function.

31 reduced AHP for at least 3 years with stable sensory function.

32 gella on the great appendage with a presumed sensory function.

33 e and balance, and the impact of the loss of sensory function.

34 e assessed the impact of pou4-2 knockdown on sensory function.

35 orms the basis for mechanistic insights into sensory function.

36 lts such as trauma and infections can affect sensory function.

37 tment has been implicated in enhanced intact sensory function.

38 ptic dynamics in the mouse barrel cortex and sensory function.

39 xamine how morphological form contributes to sensory function.

40 regeneration and poor recovery of motor and sensory function.

41 hages, neuronal apoptosis, and impairment of sensory function.

42 regeneration and poor recovery of motor and sensory function.

43 circuitry, yet least understood in terms of sensory function.

44 nchops birds [8] and were likely involved in sensory function.

45 st 10 segments below the injury to influence sensory function.

46 the whisker to barrel map and for efficient sensory function.

47 lla are ancient organelles with motility and sensory functions.

48 cidate further roles of primary cilia beyond sensory functions.

49 tes, both nonmotile and motile cilia possess sensory functions.

50 otile organelles implicated in signaling and sensory functions.

51 for cilia/flagella biogenesis, motility, and sensory functions.

52 xpression of transcripts related to specific sensory functions.

53 epithelia suggest that primary cilia possess sensory functions.

54 indow without interfering animals' motor and sensory functions.

55 ed organelles that have diverse motility and sensory functions.

56 ant changes in vocalization, locomotion, and sensory functions.

57 variety of affective, cognitive, motor, and sensory functions.

58 e normal with respect to other cognitive and sensory functions.

59 nelles responsible for cellular motility and sensory functions.

60 tability to enable the development of normal sensory functions.

61 flagella are essential for cell motility and sensory functions.

62 y proteins tunes nematode TMC-1 to divergent sensory functions.

63 lobe that plays a key role in emotional and sensory functions.

64 to our knowledge, a new perspective on their sensory functions.

65 immune responses while protecting olfactory sensory functions.

66 tic lineages and have essential motility and sensory functions.

67 tive cells and mediate important defense and sensory functions.

68 ry movement might tune and calibrate ciliary sensory functions.

69 conferred benefits apply to a wide range of sensory functions.

70 y distinct components, which serve different sensory functions.

71 nd consequently compromise the corresponding sensory functions.

72 ptivity; most of these mutations also impair sensory functioning.

73 1.05; 95% CI, 0.59-1.90; P = .85) or sacral sensory function (127 patients [24.6%] vs 144 patients [

74 during development and precede the onset of sensory functions [4, 5].

75 amined whether physical exercise can improve sensory function after experimental SCI by promoting neu

76 NgR may be a potential therapy for restoring sensory function after injuries to sensory roots.

77 amentally new method to increase recovery of sensory function after neurological injury.

78 Recovery of motor and sensory function after peripheral nerve injury is subopt

79 represent a promising therapy for restoring sensory function after spinal cord injury.

80 s one of the approaches to restore motor and sensory functions after an injury to the peripheral nerv

81 l growth and new insights on the recovery of sensory functions after root injury and repair.

82 retain extensive innervation suggestive of a sensory function akin to teeth(14-16).

83 Despite adequate motor and sensory functions, all failed to develop language (or lo

84 bnormal layout of cortical areas may disrupt sensory function and behavior.

85 l of transcription factor expression affects sensory function and behavior.SIGNIFICANCE STATEMENT Sen

86 e important for maintaining better binocular sensory function and better interocular alignment at lat

87 es in monkeys for defining hidden aspects of sensory function and for investigating the neuronal proc

88 L1-deficient mice had reduced sensory function and loss of unmyelinated axons, while s

89 however their contributions towards neuronal sensory function and maintenance of neuronal circuit arc

90 They contribute to sensory function and nociception in the peripheral nervo

91 onal role, specifically in gastric motor and sensory function and nodose ganglia neurones.

92 of ligating and cutting one tibial nerve on sensory function and on density of innervation in hind p

93 illuminate the logic supporting an important sensory function and provides a conceptually new algorit

94 has important implications for understanding sensory function and signaling mediated by carotenoid pi

95 Here we describe the effects of eliminating sensory function and structure on the development of the

96 somatosensory cortex interfered with normal sensory function and that it blocked motor memory consol

97 ith the polar clusters being associated with sensory function and the mobile complexes with maintenan

98 connection between the pattern of effects on sensory function and the nerve fiber types that appear t

99 CD73 to be a novel regulator of carotid body sensory function and therefore suggest that this enzyme

100 tudies show that ocean acidification impairs sensory functions and alters the behavior of teleost fis

101 the disruption of cdh23 abolishes the ear's sensory functions and identified a candidate lesion in l

102 lia are hairlike organelles involved in both sensory functions and motility.

103 leading to progressive decline of motor and sensory functions and permanent disability.

104 fect of the treatment was improved motor and sensory functions and rapid post-injury weight loss reco

105 tivity in a subset of around 30 neurons with sensory functions and the uv1 cells of the vulva in herm

106 This response required tuft cell sensory functions and tuft cell-derived acetylcholine (A

107 ms have been implicated in axonal targeting, sensory function, and cell survival.

108 level of consciousness, cranial nerve, motor-sensory function, and simple behavioral tests (best = 10

109 tubule (MT)-based organelles with motile and sensory functions, and ciliary defects have been linked

110 imary cilia carry out numerous signaling and sensory functions, and defects in them, "ciliopathies,"

111 ution to control and modulation of motor and sensory functions, and how this role might change after

112 s involved in autonomic, somatic, motor, and sensory functions, and in control of vigilance.

113 TRPP complex ciliary localization and sensory function are evolutionarily conserved.

114 As the molecular bases of colonic motor and sensory function are identified, new disease entities ar

115 Current detailed descriptions of anatomy and sensory function are limited to nematodes that recent mo

116 sensory cortical area is damaged, its basic sensory functions are 'taken over' by the corresponding

117 we must therefore understand how the skin's sensory functions are divided among signalling molecules

118 easing evidence suggests that both motor and sensory functions are regulated by rhythmic processes re

119 s problematic because myelin-dependent motor-sensory functions are required for quantitative behavior

120 Here, we show that distinct sensory functions arise from different combinations of O

121 atus--on chemoreceptor expression highlights sensory function as a key source of plasticity in neural

122 ma content, which could underlie an adaptive sensory function as well as common pathogeneses of both

123 n substantial and often irreversible loss of sensory functions as a result of the limited regenerativ

124 but correlated with greater normalization of sensory function at 6 months post-injury.

125 Hypoxia has been found to adversely affect sensory function at altitudes above 3000 m, but sensory

126 ects is quite heterogeneous affecting visual sensory function at the levels of the ciliary body, reti

127 s showed significant subclinical deficits in sensory function before any therapy compared with health

128 Diabetic neuropathy is a loss of sensory function beginning distally in the lower extremi

129 y innervated by efferent fibers, even before sensory function begins.

130 ults in complete loss of voluntary motor and sensory function below the site of injury.

131 tein-coupled receptors which serve important sensory functions beyond their role as odorant detectors

132 Electronic skins endow robots with sensory functions but often lack the multifunctionality

133 ese organs are believed to be adapted to the sensory functions, but had not been probed directly.

134 implants have the potential to restore lost sensory function by electrically evoking the complex nat

135 cerebellar degeneration on primary auditory sensory function by means of a pitch discrimination task

136 ly from mechanical ventilation and preserved sensory function by multiple regression analysis.

137 lular distribution allows for a multitude of sensory functions by this class of channels.

138 Here, we show that sensory functions can be restored in the adult mouse if

139 Through both motility and sensory functions, cilia play critical roles in developm

140 les in mice led to improved ciliogenesis and sensory functions compared with those of either mutant a

141 Index finger sensory function correlated with MEP size during precisi

142 Sensory function declined more rapidly than autonomic fu

143 Sensory functions declined significantly after therapy (

144 avulsion results in permanent impairment of sensory functions due to disconnection between the perip

145 individuals is reorganized to a compensatory sensory function during development.

146 a and allodynia, that compensate for loss of sensory function during injury and help protect against

147 gives rise to a merging of cognitive and/or sensory functions (e.g. in grapheme-colour synaesthesia,

148 profound environment-dependent sculpting of sensory function early in life.

149 designed to assess complementary aspects of sensory functions, emotional reactivity, and cognitive o

150 ed controls, with respect to basic motor and sensory function, feeding behavior, reproduction, mood,

151 ality of life, eating, speech, and motor and sensory function following fVCA.

152 he importance of Kv1.6 in recovery of normal sensory function following nerve injury, and careful int

153 AWC-specific chemotaxis assays reveal novel sensory functions for kinesin II in these wing cilia.

154 s, while neurobehavioral characterization of sensory function found that E365del mutants have mechani

155 e provide an overview of top down control of sensory functions from the PAG, including selective cont

156 f fine motor skills (grooved pegboard test), sensory function (grating orientation test and 2-point d

157 e neural structures that support post-stroke sensory function have not been described.

158 The effects of these mutations on sensory functions have not been described so far.

159 s important than mental health (loneliness), sensory function (hearing), mobility, and bone fractures

160 taste organs are dynamic in cell biology and sensory function, homeostasis requires tight regulation

161 produced by these medications affect visual sensory function; however, some produce disturbances of

162 At the interface of this sensory function, immune cells in the intestines and bra

163 this one can boost our comprehension of how sensory function impacts the ecology, behaviour, and evo

164 involved in the pathogenesis of progressive sensory function impairment.

165 ory channel localization required for proper sensory function in both male and female flies.

166 ions in sudomotor, vasomotor, pilomotor, and sensory function in capsaicin-treated subjects (p < 0.01

167 ight determination in mammalian development, sensory function in ciliated neurons, and opsin transpor

168 tory and visual pathways that further reduce sensory function in each domain.

169 ymmetry to the forming stereocilia to enable sensory function in hair cells.

170 The C1 nerve may have an important sensory function in headache disorders that have orbital

171 l motion asymmetries and anomalous binocular sensory function in infantile esotropia (ET) has led to

172 We found that we could rescue sensory function in neurons expressing mutant dSpt1 by c

173 otonin, gastrointestinal symptoms, and motor-sensory function in patients with FC or IBS-C compared w

174 ERP) markers of impaired auditory and visual sensory function in schizophrenia.

175 , CHRM3 activation enhanced cilia length and sensory function in terms of eNOS activation.

176 e terminals, which are postulated to serve a sensory function in the enteric plexuses.

177 n activities of daily living and worse motor-sensory function in the following year.

178 Results indicated that preservation of sensory function in the T11-L2 dermatomes is associated

179 sts was performed weekly to assess motor and sensory functions in all 3 groups for 12 weeks.

180 d involved in a wide range of regulatory and sensory functions in all domains of life.

181 crotubule (MT)-based organelles that mediate sensory functions in multiple cell types.

182 Animals can evolve dramatic sensory functions in response to environmental constrain

183 developmental path by which M1 develops its sensory functions in support of its later-emerging motor

184 derived appendage required for a variety of sensory functions including olfaction and audition.

185 und Phr1 expression in cells with a possible sensory function, including peripheral retinal ganglion

186 By contrast, this sensory function is apparently shared by one or more oth

187 Sensory function is mediated by interactions between ext

188 Whether gastrointestinal motor and sensory function is primary cause or secondary effect of

189 It seems that sound sensory function is provided to the denervated skin of t

190 static environment where the requirement for sensory functions is expected to be relaxed.

191 f the K(+) channel KVS-1 during aging causes sensory function loss in Caenorhabditis elegans and that

192 ow that brain regions that support motor and sensory function mature earliest, whereas higher-order a

193 is) and the potential feedback loop by which sensory function may be impacted by central nervous syst

194 tional studies suggest that abnormal gastric sensory function may explain the upper gut symptoms pres

195 exicanus populations to reveal how shifts in sensory function may shape behavioral diversity.

196 cipating in sympathetic, parasympathetic and sensory functions may be functionally different from tho

197 These sensory functions may be profoundly affected by the stat

198 ensory regions, in addition to their primary sensory functions, may be actively involved in perceptua

199 of sensory neurons, suggesting that aberrant sensory function might be a common feature of ASDs.

200 Beyond impaired motor and sensory function, neuropathic pain and loss of bladder c

201 previously reported, transient impairment of sensory function observed following intestinal capsaicin

202 lines of evidence to explore the specialized sensory function of bivalve tentacles in the common jing

203 family, myosin VII, plays vital roles in the sensory function of Drosophila and mammals.

204 The sensory function of HOB requires the combined action of

205 ostulate a heme-based redox/dimethyl sulfide sensory function of MA4561 and propose to designate it M

206 loss of Fmr1 in the mouse retina affects the sensory function of one retinal neuron type.

207 factors, altered motility, and/or heightened sensory function of the intestine.

208 re also applicable to study of the motor and sensory function of the other regions of the gastrointes

209 for the proper development, maintenance and sensory function of the piloneural mechanoreceptor.

210 urons, which must be repaired to restore the sensory function of the skin.

211 e at the plasma membrane associated with the sensory function of these cells.

212 hat this release occurs independently of the sensory function of these nerves.

213 To phenotype in rats the sensory function of TRPV1(+) afferents, we rapidly and s

214 daf-19m genetically programs the sensory functions of a subset of ciliated neurons, indep

215 edback, and therefore the putative motor and sensory functions of beta oscillations may reciprocally

216 The sensory functions of cilia reside largely in the membran

217 ssemble normal flagella or in defects in the sensory functions of cilia.

218 o appears critical for maintenance of RF and sensory functions of CSF-cNs to keep a straight body axi

219 First, we assess the specificity of the sensory functions of individual rGC proteins.

220 The motor and sensory functions of muscle are intimately linked, and d

221 Thus, different sensory functions of OCR-2 arise from separable intrinsi

222 Sensory functions of organs of the head and neck allow h

223 Sensory functions of primary cilia rely on ciliary-local

224 Here we elucidate the sensory functions of spinal opioid-related peptides and

225 ata add to the understanding of the multiple sensory functions of the insular cortex and of the corti

226 Motor and sensory functions of the spinal cord are mediated by pop

227 expression of genes considered important for sensory function often differed between species.

228 rthognathic surgery, impairing sensation and sensory function on the face.

229 g at a behaviorally relevant location (i.e., sensory functions) or shifting to another location (i.e.

230 , Ben-Shaanan et al.(1) show that beyond its sensory function, pain can activate hair follicle stem c

231 over 8 y in six domains-physical capability, sensory function, physiological function, cognitive perf

232 o maintain proper dendritic arborization and sensory function, providing a strong link between develo

233 improved electrophysiological, locomotor and sensory function recovery.

234 ccelerates the regrowth of sensory axons and sensory function recovery.

235 which promotes sensory axon regeneration and sensory function recovery.

236 genomic and phenotypic features that support sensory functions remain enigmatic for many invertebrate

237 Yet, its contributions to cognitive and sensory functions remain largely unexplored.

238 cular and neural mechanisms underlying these sensory functions remain poorly defined.

239 n of DSBs should generate deficits in distal sensory function remains unclear.

240 es resulting from disorders of the motor and sensory functions represent almost half the patients pre

241 lack rootlets and have dramatically impaired sensory function, resulting in behavior defects associat

242 ventually fully re-extended into muscles and sensory function returned; rather, it resulted from a la

243 Although sensory function seems to be mediated by G proteins, axo

244 trength, gait speed, and physical activity), sensory function (sight impairment), physiological funct

245 is a measure that reflects decline in visual sensory function, slowed visual processing speed, and im

246 corollary, cortical injury strongly impairs sensory function, so we hypothesized that cortical lesio

247 Participants in the binocular sensory function study were a subgroup of 41 children en

248 In the binocular sensory function study, random-dot stereoacuity was abno

249 S, particularly brain tumors, or that impact sensory functioning, such as hearing loss, are associate

250 anosine 3',5'-monophosphate, control several sensory functions, such as phototransduction, chemosensa

251 Over the past few decades, abnormalities in sensory functions, such as tactile, proprioceptive and n

252 Although deficits in sensory function suggest that primary sensory cortices a

253 hin regions subserving motor, autonomic, and sensory functions suggests that CNTFR alpha supports man

254 Thermosensation is an essential sensory function that is subserved by a variety of trans

255 s of graded height, a property essential for sensory function that remains poorly understood at the m

256 mphasizes the importance of daily rhythms in sensory functions that are likely to impact on organism

257 defects in conduction velocity and motor and sensory functions that could be rescued with therapeutic

258 ASICs affect a range of sensory functions that includes perception of gentle tou

259 lity of corresponding laminar differences in sensory function, that is, to examine relationships betw

260 hat, nowadays, we think about vision, somato-sensory function, the spinal cord and the cerebellum.

261 SR1 SNPs associated with individual motor or sensory functions; the associations of SNPs rs2609234, r

262 es included improvements in sacral motor and sensory function to assess the specificity of any observ

263 ncer and cumulative chemotherapeutic dose on sensory function to gain mechanistic insight into the su

264 experimental data with other knowledge about sensory function to obtain a description that optimally

265 aintaining normal dendritic arborization and sensory function to regulate escape and social behavior.

266 be on the engineering of novel couplings of sensory functions to signaling outputs.

267 m adults, including excellent restoration of sensory function (to normal limits in all dermatomes for

268 Sensory function was assessed by measuring thermal and m

269 Recovery of sensory function was assessed by toe pinch, footpad pric

270 Sensory function was restored by 50 days after surgery.

271 olinergic neurotransmission in cognitive and sensory functions, we examined whether alpha4-containing

272 rves, no differences in nerve morphology and sensory function were detected between wild-type and LAR

273 apable of activating the putative hexokinase sensory function were not effective in eliciting the phy

274 their feet while other measures of motor and sensory function were unaffected.

275 Visual, olfactory, auditory, and touch sensory functions were assessed between 2000 and 2002.

276 Inflammation, intestinal motor and sensory functions were investigated weekly for 6 weeks.

277 iated with language, cognitive function, and sensory function, which are impaired in schizophrenia an

278 ng of cilium and impairment of its motile or sensory function, which was reflected by hearing, vision

279 -synchronization supports the integration of sensory functions, while synchronization in theta/alpha

280 ents of sudomotor, vasomotor, pilomotor, and sensory function with simultaneous assessment of innerva

281 Declines in sensory functioning with aging are evident for many of t

282 IB mice developed progressive impairments in sensory functions, with significantly reduced response t

283 terations were significantly associated with sensory function within each domain.