ライフサイエンスコーパス: neurophysiology

1 rate eye tracking and head stabilization for neurophysiology.

2 ccurs is one of the ultimate aims of sensory neurophysiology.

3 2 as a powerful tool for investigating CLC-2 neurophysiology.

4 come an effective tool for studying cortical neurophysiology.

5 pontaneous BOLD signals and their underlying neurophysiology.

6 hat OTR signaling may participate in enteric neurophysiology.

7 ve assessment of neuroanatomy, behavior, and neurophysiology.

8 fects on learning performance, behavior, and neurophysiology.

9 is simple, non-invasive, and widely used in neurophysiology.

10 as well as of the highly successful textbook Neurophysiology.

11 mined the influence of melatonin on crayfish neurophysiology.

12 t from recent studies of monkey behavior and neurophysiology.

13 , i.e. frequency coupling, powerfully reveal neurophysiology.

14 e in a pivotal position to influence ADN/PoS neurophysiology.

15 ntradendritic subunit processing in cortical neurophysiology.

16 ha/versus/walpha/) also was reflected in the neurophysiology.

17 s limited sensitivity to psychiatry-relevant neurophysiology.

18 f the acute effects of VNS on human cortical neurophysiology.

19 amples hampers making connections with sleep neurophysiology.

20 ights into how regional synapse loss affects neurophysiology.

21 ploratory research of early life pain system neurophysiology.

22 seizure diaries and laboratory-based animal neurophysiology.

23 n not optimised for combining behaviour with neurophysiology.

24 principal role in all aspects of hippocampal neurophysiology.

25 tor tasks can improve our knowledge of human neurophysiology.

26 ain these effects in terms of the underlying neurophysiology.

27 w alterations in CRY1/2 stability affect SCN neurophysiology.

28 of electrical stimulation on perception and neurophysiology.

29 in part, by adopting strategies motivated by neurophysiology.

30 ogy without directly altering the underlying neurophysiology.

31 d popularity in some theoretical accounts of neurophysiology.

32 provoke longer-lasting changes in swallowing neurophysiology.

33 -VSP likely plays an important role in mouse neurophysiology.

34 A major shift is happening within neurophysiology: a population doctrine is drawing level

35 k-independent and task-dependent hippocampal neurophysiology accommodates a Met allelic background di

36 ent with cisplatin and the changes in spinal neurophysiology accompanying the development of chemothe

37 e fields of psychology, neuropsychology, and neurophysiology, all of which supports the idea that the

38 ns of ERK/MAPK signaling in striatum-related neurophysiology and behavior is lacking.

39 t response, and a number of other aspects of neurophysiology and behavior.

40 onger stimulation effects in both swallowing neurophysiology and behaviour than that without precondi

41 ant) pharyngeal projection alters swallowing neurophysiology and behaviour.

42 reconditioning effects of rTMS on swallowing neurophysiology and behaviour.

43 e need to integrate studies of neuroanatomy, neurophysiology and behaviour.

44 Increased understanding of the neurophysiology and brain regions associated with motion

45 oach to the brain, linking cytoarchitecture, neurophysiology and cerebral localization.

46 cuits across brain regions, depending on the neurophysiology and connectivity of different areas.

47 s that astrocytic calcium elevations play in neurophysiology and especially in modulation of neuronal

48 These facts, with deep implications for neurophysiology and evolutionary biology, are not ground

49 l avoidance behaviour and alterations in NAc neurophysiology and extracellular space.

50 The results from neurophysiology and functional magnetic resonance imagin

51 Our findings elucidate sleep neurophysiology and impacts of DBS on sleep in PD inform

52 Despite similarities of neurophysiology and innervation, their embryonic origins

53 us to link clinical phenomenology to primate neurophysiology and interpret findings within a biologic

54 A better understanding of LS neurophysiology and its functional output is therefore i

55 nesthetic, procaine (MS Pro), on hippocampal neurophysiology and learning of the rabbit (Oryctolagus

56 to the medial septum (MS Scp) on hippocampal neurophysiology and learning of the rabbit's classically

57 n called into question by monkey single-cell neurophysiology and lesion studies in monkeys and humans

58 The marriage of cognitive neurophysiology and mathematical psychology to understan

59 cial to our understanding of airway afferent neurophysiology and may also provide insight into novel

60 Growing evidence from primate neurophysiology and modeling indicates that in reaction

61 tudies as well as animal studies of cellular neurophysiology and molecular biology.

62 ther, our data provide new details regarding neurophysiology and nAChR localization and function in c

63 To review the neurophysiology and neuroanatomy of normal aging and the

64 The neurophysiology and neuroanatomy of these reflex pathway

65 Our analysis suggests that understanding the neurophysiology and neuroanatomy should be part of the s

66 Neurophysiology and neuroimaging evidence shows that the

67 Neurophysiology and neuromodulation strive to understand

68 onal imaging and neuropsychology, and monkey neurophysiology and neuropsychology also suggests a role

69 Neurophysiology and neuropsychology studies have establi

70 niques, which permit noninvasive measures of neurophysiology and neuroreceptor binding, are powerful

71 ments using predictive models in closed-loop neurophysiology and online estimation of neural properti

72 physiology," because of his contributions to neurophysiology and other aspects of physiology includin

73 understanding of human cardiac neuroanatomy, neurophysiology and pathophysiology in specific disease

74 l underpinnings of individual differences in neurophysiology and potential vulnerabilities to disease

75 assroom FM system use for 1 year on auditory neurophysiology and reading skills in children with dysl

76 A major goal in neurophysiology and research on enveloped viruses is to

77 framework that integrates recent advances in neurophysiology and sensory ecology with a classic decis

78 allopregnanolone and ethanol on hippocampal neurophysiology and that allopregnanolone plays a key ro

79 cal studies, much is being learned about the neurophysiology and the neuroanatomy of normal aging.

80 Most of our understanding of appetite neurophysiology and tumor-associated anorexia is derived

81 nful compared to painless DN, had comparable neurophysiology and vibration perception, but lower corn

82 se correlations that is consistent both with neurophysiology and with behavioral thresholds, without

83 reasing associations between the microbiota, neurophysiology, and behavior, we consider whether inves

84 rates integration of data from neuroanatomy, neurophysiology, and behavioral studies, uses evidence f

85 stonic movements from the study of genetics, neurophysiology, and functional imaging in the most prev

86 icrobiology with mammalian endocrinology and neurophysiology, and is based on the tenet that microorg

87 ating neural development, neural morphology, neurophysiology, and neural correlates of behaviors.

88 ogy, neurogenetics, multimodal neuroimaging, neurophysiology, and neuromodulation.

89 nsatisfactory but advances in brain imaging, neurophysiology, and neuropharmacology may provide insig

90 ing a combination of in vivo neurochemistry, neurophysiology, and pharmacological methods, we demonst

91 combination of genetics, molecular biology, neurophysiology, and psychology to demonstrate that mole

92 r neuropathy, using neurological evaluation, neurophysiology, and quantitative sensory testing, and 1

93 of domains, including speech, bioacoustics, neurophysiology, and seismology.

94 obust connections between genetic variation, neurophysiology, and social behavior remains a challenge

95 ment, renal ultrasound, (video-)urodynamics, neurophysiology, and urethrocystoscopy, depending on the

96 on algorithms that have been used in sensory neurophysiology, and we show how they can be viewed as v

97 Future directions for progress in color neurophysiology are discussed: techniques for improved s

98 Appeals to monkey neurophysiology are often used to sort out the competing

99 offers a new framework to understand pelvic neurophysiology as well as development and evolution of

100 gical examination, questionnaire assessment, neurophysiology assessment, and small fiber tests: skin

101 of great scientific interest in the field of neurophysiology because they allow neurons to be switche

102 he intervening level of cellular and systems neurophysiology before claiming influences on behavior.

103 dition to basic scientists interested in the neurophysiology, cell biology and genetics of the imagin

104 ons with extended period demonstrates mature neurophysiology characterization and functional synaptic

105 Degree of age-related differences in neurophysiology correlated inversely with motor performa

106 A reanalysis of neurophysiology data from Samonds et al. (2012) shows th

107 thout Borders (NWB), a standard language for neurophysiology data, has recently emerged as a powerful

108 In elderly subjects, baseline behavior and neurophysiology did not differ in relation to BDNF genot

109 ause they conform to the fundamental laws of neurophysiology, different syndromes of eyelid dysfuncti

110 Our modern understanding of CNS neurophysiology directly emanates from the pioneering en

111 rameworks-frameworks that can be grounded in neurophysiology down to the level of synaptic mechanisms

112 ccount the dramatic developmental changes in neurophysiology (e.g., changes in excitation/inhibition

113 neurotransmitters, and hormones, followed by neurophysiology (e.g., EEG and eye tracking), neuroimagi

114 are complex phenomena governed by genetics, neurophysiology, environment, and societal structures.

115 t insights into cancer, diabetes, nutrition, neurophysiology, environmental and plant physiology stud

116 Neuroimaging and neurophysiology evidence suggests that component operati

117 While neurophysiology experiments have provided evidence for a

118 Next, neurophysiology experiments revealed circadian variation

119 hat are consistent with those seen in monkey neurophysiology experiments.

120 In neurophysiology, extracellular signals-as measured by lo

121 on of mechanical Loads Combined with in vivo Neurophysiology, FALCON) and use it, together with model

122 ters (g = 0.68); brain structure (g = 0.40); neurophysiology (g = 0.80); and neurochemistry (g = 0.43

123 GFP-based GECIs are widely used for in vivo neurophysiology, GECIs with red-shifted excitation and e

124 this task for studying psychosis-associated neurophysiology generally and BPP specifically.

125 Six of 10 (60%) patients with axonal neurophysiology had had a preceding diarrheal illness co

126 Auditory neurophysiology has demonstrated how basic acoustic feat

127 Although animal neurophysiology has largely concentrated on effector-sel

128 Neurophysiology has long progressed through exploratory

129 .SIGNIFICANCE STATEMENT Traditional auditory neurophysiology has mapped acoustic features of sounds t

130 nt models, long-term effects on behavior and neurophysiology have been described after adolescent int

131 Noninvasive human brain imaging and neurophysiology have continued developing at a relentles

132 Previous studies in neurophysiology have shown that neurons exhibit trial-by

133 In constructing his neurophysiology he accepted the phrenological assumption

134 the frontal sinus and meningeal vessels) and neurophysiology (he was the first to pith a frog).

135 titative morphometry were used to define the neurophysiology, histochemistry and ultrastructure of th

136 Evidence from neurophysiology, imaging, and lesion studies indicates t

137 e interface between behavioural learning and neurophysiology in a cohort of wild-caught, hand-reared

138 ay offer more powerful biomarkers of altered neurophysiology in ASD than the behavioral tests current

139 al pharmacology, biochemical assays, in vivo neurophysiology in awake animals, and computational and

140 ideal vision model accounts for behavior and neurophysiology in both naturalistic conditions and desi

141 Therefore, the impact of training on brain neurophysiology in childhood, and the mechanisms by whic

142 igh-resolution fMRI (HR-fMRI) in the FFA and neurophysiology in face patches in the monkey brain reve

143 Here, we characterized sleep behavior and neurophysiology in freely moving and co-living mice unde

144 n speed and accuracy, and it is supported by neurophysiology in human and animal models.

145 reward, using findings from neuroimaging and neurophysiology in humans and monkeys.

146 The key role of neurophysiology in identifying abnormalities of the neur

147 or including morph-specific actions on vocal neurophysiology in midshipman.

148 Recent human behavioral studies, as well as neurophysiology in monkeys, are consistent with implemen

149 s been shown to modulate cortical swallowing neurophysiology in post-stroke dysphagia with therapeuti

150 roader implications for theory of muscarinic neurophysiology in schizophrenia.

151 ation offers the unique possibility to study neurophysiology in situ in the human brain.

152 human psychophysics, awake behaving primate neurophysiology in the lateral geniculate nucleus of the

153 s remain intact, with no apparent effects on neurophysiology in vitro.

154 e of basal ganglia tissue iron-reflecting DA neurophysiology-in longitudinal trajectories of dorsolat

155 isorders associated with changes in cortical neurophysiology, including ALS.

156 summarize effects of the microbiota on host neurophysiology, including brain microstructure, gene ex

157 Cholesterol plays crucial roles in neurophysiology, including synaptic formation and neurot

158 ctional changes revealed by neuroimaging and neurophysiology indicate that maturation of inhibitory c

159 e sensory testing, autonomic nerve function, neurophysiology, intra-epidermal nerve fibre density (IE

160 Neurophysiology is increasingly focused on identifying c

161 e test the hypothesis that abnormal cortical neurophysiology is present when genes in the 16p11.2 reg

162 to childhood cardiomyopathy and progressive neurophysiology issues.

163 er, the weak association with the underlying neurophysiology limits the generalizability of modern ne

164 Here, we examined the neurophysiology literature to assess whether the pattern

165 rom among organ-networks (ONs) of the brain (neurophysiology), lungs (respiration), and heart (cardio

166 Neurophysiology mainly showed a sensory axonal neuropath

167 mm) and were only partly correlated with raw neurophysiology maps collected in the same subjects.

168 While neurophysiology maps contained reliable structure at the

169 However, spatial smoothing of neurophysiology maps more than doubled that correlation,

170 ty at subvoxel resolution, and compare those neurophysiology maps with fMRI maps from the same subjec

171 e relationships and define the most relevant neurophysiology measures for GI symptom severity in IBS.

172 Significant correlations between neurophysiology measures were stronger within, rather th

173 elated to whether and how various aspects of neurophysiology might be affected when this fundamental

174 Neurophysiology, muscle histopathology, and muscle MRI f

175 mmon discipline of the traditional fields of neurophysiology, neuroanatomy, neurochemistry, and behav

176 examination, and diagnostic methods based on neurophysiology, neuroimaging, and biochemistry.

177 Data from neurophysiology, neuroimaging, and neuroanatomy point to

178 g modality holds promise for applications in neurophysiology, neuropathology and neurotherapy.

179 rogramming are tightly coupled to underlying neurophysiology, none have been tested using real-world

180 Whereas neither neurophysiology nor quantitative sensory testing correla

181 lectroencephalography was used to assess the neurophysiology of 4 cortical sites: bilateral DLPFC and

182 The underlying neurophysiology of acute pain is fairly well characteriz

183 e potential for further investigation of the neurophysiology of body weight regulation and evaluation

184 ndings thus advance the understanding of the neurophysiology of CaCCs and the ionic basis of IO neuro

185 ics aimed at unifying the psychology and the neurophysiology of chronic pain applicable across divers

186 Our findings provide evidence that the neurophysiology of consciousness is complex even without

187 account in future attempts at modelling the neurophysiology of DBS.

188 ramework for analyzing the psychophysics and neurophysiology of defocus estimation in species across

189 been enormous growth in knowledge about the neurophysiology of dyspnea and increasing interest in dy

190 o test for direct effects of cortisol on the neurophysiology of emotion.

191 ved neurons implicate these deletions in the neurophysiology of excitatory synapses and in ASD-associ

192 stem (ECS) is considered a key player in the neurophysiology of food reward.

193 ociated with a fundamental difference in the neurophysiology of food that may predispose toward overe

194 Although the neurophysiology of FXS has been described in remarkable

195 ime, they give us important insight into the neurophysiology of hand movements.

196 nt studies have significant parallels in the neurophysiology of human and non-human primate memory.

197 oral, EMG, and tDCS techniques clarifies the neurophysiology of impulse control, and may point to ave

198 These results reveal that changes in the neurophysiology of language occur by middle age and appe

199 tudy contributes to the understanding of the neurophysiology of latent inhibition as well as the neur

200 The neurophysiology of LRRK2 remains largely elusive, althou

201 The neurophysiology of major depressive disorder (MDD) has b

202 a single mechanism mediating the underlying neurophysiology of migraine symptoms is unlikely.

203 everal mechanisms can mediate the underlying neurophysiology of migraine symptoms, with nitrergic-ind

204 After 50 years (1968-2018) of behavioral neurophysiology of motor control, the neural mechanisms

205 We studied the neurophysiology of neurons from the central nervous syst

206 ing during movement and the general cortical neurophysiology of other movement disorders, such as ess

207 es a deeper understanding of the basic human neurophysiology of pain and a potential neural framework

208 It is important to understand the neurophysiology of pain in order to treat it.

209 to the pathologic changes identified in the neurophysiology of Parkinson's disease, suggesting mecha

210 for the pathogenesis of human epilepsy, the neurophysiology of paroxysmal movement disorders and the

211 heteromers, that directly target the altered neurophysiology of patients experiencing pain.

212 ss are consistent with the phenomenology and neurophysiology of rapid eye movement sleep, the early a

213 These results, coupled with the known neurophysiology of Rl facilitation, suggest that this CR

214 ene activation and persistent changes in the neurophysiology of SCN neurons, we recorded from SCN neu

215 The understanding of the neurophysiology of sleep disorders such as insomnia, par

216 We studied the neurophysiology of social action for reward in rhesus mo

217 To further characterize the neurophysiology of stuttering through in vivo assay of n

218 Clinical neurophysiology of the brain employing transcranial magn

219 This review summarizes the neurophysiology of the first two layers of this system:

220 e cellular basis of learning and memory, the neurophysiology of the hippocampus has been largely exam

221 OPMs pave the way for studying the neurophysiology of the human cerebellum.

222 perception during self-motion that build on neurophysiology of the middle temporal (MT) and medial s

223 Moreover, the relatively well understood neurophysiology of the ocular motor system offers a uniq

224 h may be associated with abnormal beta-gamma neurophysiology of the orbitofrontal-striatal circuitry

225 imental data on structure, connectivity, and neurophysiology of the underlying cortical tissue.

226 The known neurophysiology of the visual cortex helps explain the p

227 We summarize the neurophysiology of this newly described sensory pathway

228 parietal cortex with the aim to evaluate the neurophysiology of this relevant brain region.

229 asic and clinical importance, the underlying neurophysiology of this state is unknown.

230 to both social psychological theory and the neurophysiology of trust.

231 ociation between BDNF genotype and behavior, neurophysiology, or short-term cortical plasticity in th

232 e depletion of adult neurogenesis influences neurophysiology, other behaviors, and neural progenitor

233 recognized as important mediators of normal neurophysiology, particularly during early development.

234 understanding of human cardiac neuroanatomy, neurophysiology, pathophysiology in specific disease con

235 The techniques have included conventional neurophysiology, pathway mapping, and functional MRI, im

236 alcium signalling and profound changes in PN neurophysiology precede PN cell loss and are likely to l

237 Developments in MRI-based imaging and neurophysiology provide complementary quantitative assay

238 In neurophysiology, psychophysics, optical imaging and func

239 significant change in neurologic impairment, neurophysiology, QST, corneal sensitivity, and intraepid

240 of milder forms of hearing loss on cellular neurophysiology remains mostly undefined.

241 Decades of hippocampal neurophysiology research have linked the hippocampal the

242 ould have a profound impact on basic primate neurophysiology research while providing a framework for

243 hough temporal coding is a frequent topic of neurophysiology research, trial-to-trial variability in

244 e is to investigate the genetics, pathology, neurophysiology, response to therapeutics, etc., of the

245 The neurophysiology, risk factors, and screening tools assoc

246 Further, behavior and neurophysiology show that both sexes coordinate the timi

247 Neurophysiology showed abnormal neuromuscular transmissi

248 Neurophysiology showed demyelinating neuropathy in four

249 e reflects a spatially low-passed version of neurophysiology signals.

250 Advances in large-scale single-unit human neurophysiology, single-cell RNA sequencing, spatial tra

251 ant" patterns based on the American Clinical Neurophysiology Society nomenclature) and other clinical

252 nt study, we sought to determine if baseline neurophysiology, specifically cortical excitation and/or

253 A growing body of neuroimaging and neurophysiology studies has demonstrated the motor syste

254 C (vlPFC) in S-R learning, clinical data and neurophysiology studies have implicated both the vlPFC a

255 Nonhuman primate neurophysiology studies have made significant contributi

256 d processing during sleep, brain imaging and neurophysiology studies have reported that overall neura

257 atients (and their healthy counterparts) and neurophysiology studies in animal models, facilitated in

258 he specific mechanisms of learning in animal neurophysiology studies may prove informative for unders

259 However, neurophysiology studies of these processes in humans rem

260 computational models, human fMRI, and monkey neurophysiology studies.

261 inal fluid, as well as from neuroimaging and neurophysiology studies.

262 ring fMRI using a task that has been used in neurophysiology studies: the search-step task.

263 which combined the cellular neuroanatomy and neurophysiology, suggested a circuit-level organization

264 The strongest neurophysiology-symptom correlations occurred between a

265 ntification is a growing approach to sensory neurophysiology that facilitates the development of quan

266 ew we summarize ataxia-related changes in PN neurophysiology that have been observed in various mouse

267 ars to be a notable characteristic of autism neurophysiology that is evident at very early stages of

268 ide complementary information about cortical neurophysiology that is useful for mapping brain functio

269 Aging is associated with changes in neurophysiology that might represent a compensatory resp

270 Although it is well known from neurophysiology that the mapping is topological (i.e., t

271 ur results point to multiple facets of sleep neurophysiology that track coherently with underlying, a

272 ly studied, especially as a model system for neurophysiology, the cellular processes involved in cons

273 rebellum has an important role in swallowing neurophysiology, the effects of cerebellar stimulation o

274 it comprises a mechanistic model embedded in neurophysiology, the findings of this approach may shed

275 ate tauopathy-associated changes in cellular neurophysiology to altered behavior-dependent network fu

276 These findings link neurophysiology to behavior during statistical learning

277 rostimulation is used widely in experimental neurophysiology to examine causal links between specific

278 ysiology and cognition undergo changes (from neurophysiology to higher-order cognition) under sleep p

279 tical theory of few-shot learning that links neurophysiology to predictions about behavioral outcomes

280 Here we used in vivo neurophysiology to record action potentials stimulated b

281 We performed in vivo optical neurophysiology to visualize odorant-evoked OSN synaptic

282 neuromuscular synapse, a model for studying neurophysiology, to elucidate fundamental aspects of neu

283 ey show that genotype-related differences in neurophysiology translate into behavioral differences.

284 phy (MEG) was utilized to evaluate the basic neurophysiology underlying attentive, visual processing

285 ttractive model system for investigating the neurophysiology underlying higher-order motion sensitivi

286 Swallowing neurophysiology was assessed in both hemispheres by intr

287 e human neuropsychology and nonhuman primate neurophysiology, we report the effects of circumscribed

288 Consistent with neurophysiology, we show early layers with retinotopic n

289 del these effects in terms of the underlying neurophysiology, we used dynamic causal modeling for cro

290 We sought to determine which facets of sleep neurophysiology were most strongly linked to cognitive p

291 plasticity functionally affects behavior and neurophysiology, which suggests that neural activity dur

292 My predictions can be tested through neurophysiology, which would constrain the parameters an

293 tials and functional imaging with humans and neurophysiology with behaving monkeys.

294 omparative bat flight-path tracking and moth neurophysiology with fecal DNA analysis to show that the

295 However, the mechanisms linking the altered neurophysiology with the behavioral outcomes are unknown

296 Hospital, he began research into respiratory neurophysiology with Tom Sears at the National Hospital,

297 europixels as a research tool to study human neurophysiology, with the hope that this information may

298 f information related to normal and abnormal neurophysiology within distinct brain areas.

299 While influential neurophysiology work has characterized an intriguing mec

300 Based on neurophysiology work, these disturbances might have thei