ライフサイエンスコーパス: functional neuroimaging

1 asures of neuronal population activity using functional neuroimaging.

2 isms underpinning such goal contagion, using functional neuroimaging.

3 hemodynamic changes plays a central role in functional neuroimaging.

4 nectivity that correlates with behaviour and functional neuroimaging.

5 enia in recent years, aided by insights from functional neuroimaging.

6 ticipants), we tested these hypotheses using functional neuroimaging.

7 examined this hypothesis using behavior and functional neuroimaging.

8 tudy, including defining potential roles for functional neuroimaging.

9 re is a recent wealth of data primarily from functional neuroimaging.

10 being characterized, aided by the advent of functional neuroimaging.

11 uropsychological testing, and structural and functional neuroimaging.

12 scattering signals now employed for dynamic functional neuroimaging.

13 ehavioural data, before the advent of modern functional neuroimaging.

14 graine has advanced with the availability of functional neuroimaging.

15 nents have not been extensively studied with functional neuroimaging.

16 tanding of migraine is rapidly evolving with functional neuroimaging.

17 n anticorrelated decision-making task during functional neuroimaging.

18 gap, we combined computational modeling with functional neuroimaging.

19 ngoing changes in social relationships using functional neuroimaging.

20 ects were exposed to the motion video during functional neuroimaging.

21 physical evaluation of experimental pain and functional neuroimaging.

22 d in the premonitory phase of migraine using functional neuroimaging.

23 nals and in cortical responses measured with functional neuroimaging.

24 lesions in the PFC of a nonhuman primate and functional neuroimaging ([(18)F]fluorodeoxyglucose posit

25 ystems, of which 2 have been identified with functional neuroimaging: a cingulo-opercular salience ne

26 ether overtly with behavior or covertly with functional neuroimaging, also demonstrated event-related

27 Functional neuroimaging analysis of a monetary incentive

28 pplied to schizophrenia a recently available functional neuroimaging analytic method that permits cha

29 l 'nudges' in human decision-making, we used functional neuroimaging and a task in which participants

30 However, a combination of functional neuroimaging and behavioral data may allow id

31 Functional neuroimaging and behavioral neurogenetics wil

32 interaction between these two systems using functional neuroimaging and behavioural measures in a cl

33 Using functional neuroimaging and computational modeling of pe

34 Using high-resolution functional neuroimaging and computational modeling of re

35 Using a combination of functional neuroimaging and hormonal and psychometric an

36 Functional neuroimaging and molecular studies have consi

37 f the literature, citing results of relevant functional neuroimaging and neural network studies.

38 Recent functional neuroimaging and neuropsychological data in h

39 graphy, and provide supporting resting-state functional neuroimaging and neuropsychological evidence

40 e highlighted by other methodologies such as functional neuroimaging and neurostimulation.

41 Studies using functional neuroimaging and patient populations have dem

42 mporal lobe damage (e.g. semantic dementia), functional neuroimaging and repetitive transcranial magn

43 re expensive and challenging methods such as functional neuroimaging, and thereby assist in the accur

44 Functional neuroimaging, applied to pre-clinical models

45 anxiety disorders has benefited greatly from functional neuroimaging approaches.

46 PubMed search was conducted for whole-brain functional neuroimaging articles published through June

47 ith callosal dysgenesis using structural and functional neuroimaging, as well as neuropsychological a

48 phenotype is unclear, slowing the search for functional neuroimaging biomarkers of ASD.

49 ain regions and language functions absent in functional neuroimaging, but also spatial and temporal p

50 However, traditional functional neuroimaging by positron emission tomography

51 Recent advances in functional neuroimaging, combined with multiplayer excha

52 the genome, discovery science has eluded the functional neuroimaging community.

53 To combine functional neuroimaging, computational modeling, and sma

54 This study investigated the functional neuroimaging correlates of inhibitory respons

55 Moreover, volumetric and functional neuroimaging data demonstrated that this defi

56 Novel developments in the analysis of functional neuroimaging data enable us to assess in vivo

57 Third, a Granger causality analysis of functional neuroimaging data from healthy control subjec

58 Against this backdrop, functional neuroimaging data have unexpectedly implicate

59 redicting treatment response to CBT based on functional neuroimaging data in PD/AG is possible with h

60 Functional neuroimaging data mainly supported the role o

61 Exploiting multivoxel pattern analysis of functional neuroimaging data obtained during a non-spati

62 Functional neuroimaging data showed that amygdala respon

63 We used structural and functional neuroimaging data to construct whole- brain m

64 this second step of the protocol we acquired functional neuroimaging data to examine the impact of T

65 Functional neuroimaging data were analyzed using 1) univ

66 ts, and to provide a platform for simulating functional neuroimaging data.

67 Longitudinal functional neuroimaging demonstrated important effects o

68 All reports used functional neuroimaging during executive function perfor

69 vidence that has accumulated from studies of functional neuroimaging, employing both univariate and m

70 ctured design task suitable for testing in a functional neuroimaging environment and compared it with

71 Previous functional neuroimaging evidence has indicated that the

72 ered concepts to be abstract symbols, recent functional neuroimaging evidence has supported an altern

73 Epidemiological, neuropathological, and functional neuroimaging evidence implicates global and r

74 Functional neuroimaging evidence indicates that a simila

75 In a functional neuroimaging experiment, observers were shown

76 Here, using a human functional neuroimaging experiment, we show that in addi

77 We addressed this question in four functional neuroimaging experiments and revealed the cor

78 We also describe recent functional neuroimaging experiments and studies of neuro

79 ward masking paradigm, we demonstrate in two functional neuroimaging experiments that the human amygd

80 tive surgical decision making (DM) and using functional neuroimaging expose decision systems that ope

81 In the context of previous functional neuroimaging findings demonstrating functiona

82 In the past two decades, structural and functional neuroimaging findings have greatly modified l

83 of BPD, the present meta-analysis summarizes functional neuroimaging findings of emotion processing t

84 We interpret these functional neuroimaging findings to reflect preferential

85 e used long-term mobile sleep monitoring and functional neuroimaging (fMRI) to explore whether trait-

86 In an experiment combining functional neuroimaging (fMRI) with carotid stimulation

87 ly, these results confirm the suitability of functional neuroimaging for studying such situations.

88 Functional neuroimaging genetics holds particular promis

89 Together with recent advances in functional neuroimaging, genomic investigation, and pros

90 Functional neuroimaging has been used to assess differen

91 Over the past decade, functional neuroimaging has contributed greatly to our k

92 In recent years, functional neuroimaging has disclosed a network of corti

93 Functional neuroimaging has made fundamental contributio

94 Work in functional neuroimaging has mapped interference resoluti

95 To our knowledge, functional neuroimaging has not previously been applied

96 A quarter century of functional neuroimaging has provided a number of insight

97 explicit memory for earlier experiences, and functional neuroimaging has shown that object classifica

98 Recent advances in functional neuroimaging have demonstrated novel potentia

99 Recent advances in functional neuroimaging have improved our understanding

100 f disease onset, these findings suggest that functional neuroimaging holds promise as a method of ide

101 Functional neuroimaging holds the promise of improved di

102 Using functional neuroimaging (i.e., functional MRI), we showe

103 Functional neuroimaging identified premotor (PMA) and su

104 Although animal studies and human functional neuroimaging implicate altered reward process

105 We used functional neuroimaging in conjunction with a fear-condi

106 Here, both these issues were addressed with functional neuroimaging in healthy volunteers performing

107 Functional neuroimaging in human subjects and single cel

108 y the evolution of this system, we performed functional neuroimaging in humans' closest living relati

109 ical data to what is known about praxis from functional neuroimaging in normal subjects and from phys

110 These data illustrate an application of functional neuroimaging in pharmacogenomics and extend b

111 Our findings also converge with previous functional neuroimaging investigations in healthy indivi

112 are of relevance to the assumptions founding functional neuroimaging investigations of decision-makin

113 of cognitive tasks in humans, especially in functional neuroimaging investigations of large-scale br

114 Functional neuroimaging investigations of major depressi

115 Functional neuroimaging is a vital element of neuroscien

116 t spontaneous neural activity measured using functional neuroimaging is strongly related to milliseco

117 In combination with functional neuroimaging, it can elucidate the circuits r

118 ideos of tapping) activated, as indicated by functional neuroimaging, many of the neural regions link

119 Functional neuroimaging may elucidate the pathophysiolog

120 Functional neuroimaging may prove invaluable for resolvi

121 ropic medications on abnormal structural and functional neuroimaging measures relevant to pathophysio

122 ve examined the relationship between DUP and functional neuroimaging measures.

123 Parkinson's disease from controls than other functional neuroimaging measures.

124 Novel functional neuroimaging methods demonstrate coherent act

125 Functional neuroimaging methods hold promise for the ide

126 Functional neuroimaging methods may be sensitive to thes

127 combination with traditional structural and functional neuroimaging methods to enhance detection of

128 We used a combination of structural and functional neuroimaging methods to identify key componen

129 ted to their neural bases via structural and functional neuroimaging methods.

130 h overt external behavior, or through covert functional neuroimaging methods.

131 these processes using neurophysiological and functional neuroimaging methods.

132 These results illustrate how functional neuroimaging might prove valuable in delineat

133 e optical tomography (DOT) provides a unique functional neuroimaging modality for noninvasively and c

134 used a combination of visual psychophysics, functional neuroimaging, multivoxel pattern analysis, an

135 ified to be critical for 'Theory of Mind' by functional neuroimaging of healthy human subjects.

136 Here, we use behaviour and functional neuroimaging of human participants to investi

137 However, functional neuroimaging of maltreatment-related trauma h

138 compared the similarities and differences in functional neuroimaging of patients with psychogenic dys

139 h sensitive to such network effects involves functional neuroimaging of patients, but this requires s

140 acquisition and analysis for structural and functional neuroimaging of people with epilepsy.

141 The study of the effect of aging on the functional neuroimaging of posture and gait has only rec

142 Evidence from functional neuroimaging of the human brain indicates tha

143 ANCE STATEMENT Despite great progress in the functional neuroimaging of the human brain, we still do

144 CD and 12 healthy controls (HC), underwent a functional neuroimaging paradigm in which DMN brain acti

145 In addition, functional neuroimaging paradigms are now available to h

146 ings can guide the development of stimulated functional neuroimaging paradigms that may clarify the p

147 Functional neuroimaging permits exploration of neural co

148 We have re-analysed four functional neuroimaging (PET) studies, three previously

149 nd outcome become clinically clear, distinct functional neuroimaging phenotypes are already present t

150 The combination of genetics and functional neuroimaging provides a potentially useful me

151 Functional neuroimaging research examining the neural un

152 requires recognizing written words rapidly; functional neuroimaging research has clarified how the w

153 While functional neuroimaging research indicates that nucleus

154 One of the most ubiquitous findings in functional neuroimaging research is activation of left i

155 Functional neuroimaging research provides detailed obser

156 Functional neuroimaging results reveal reduced activatio

157 Model-based functional neuroimaging revealed attenuated parametric s

158 Functional neuroimaging revealed signals that evolved di

159 Functional neuroimaging revealed that during conditionin

160 Twenty-two human subjects underwent two functional neuroimaging sessions in counterbalanced orde

161 Functional neuroimaging showed hippocampal engagement oc

162 Here, we present results from functional neuroimaging showing that the presence of a d

163 1.5-T magnet, and analyzed using Analysis of Functional Neuroimaging software (Medical College of Wis

164 monstrated evidence of covert awareness with functional neuroimaging stood out from this trend: they

165 The combination of genetic and functional neuroimaging strategies may prove useful for

166 Recent functional neuroimaging studies are generating novel ins

167 Functional neuroimaging studies are revealing the neural

168 Structural and functional neuroimaging studies can be interpreted to ex

169 uantitative meta-analysis, across a range of functional neuroimaging studies dissociated from attenti

170 clinically heterogeneous, yet most previous functional neuroimaging studies grouped together patient

171 Recent functional neuroimaging studies have attempted to unders

172 In the last decade, functional neuroimaging studies have been performed in o

173 contribute to mood dysfunction in epilepsy, functional neuroimaging studies have consistently shown

174 Human functional neuroimaging studies have consistently shown

175 Functional neuroimaging studies have converged to sugges

176 Human functional neuroimaging studies have demonstrated activa

177 Previous functional neuroimaging studies have demonstrated exagge

178 To date, functional neuroimaging studies have detailed developmen

179 In parallel, single-cell recording and functional neuroimaging studies have highlighted the imp

180 Previous functional neuroimaging studies have identified a networ

181 Functional neuroimaging studies have identified a role f

182 Functional neuroimaging studies have identified several

183 Functional neuroimaging studies have implicated the pref

184 Functional neuroimaging studies have increased understan

185 Although previous functional neuroimaging studies have indicated that rece

186 Functional neuroimaging studies have investigated social

187 Functional neuroimaging studies have produced contradict

188 Functional neuroimaging studies have provided consistent

189 Functional neuroimaging studies have provided insights i

190 Functional neuroimaging studies have provided some insig

191 Many functional neuroimaging studies have reported differenti

192 A number of functional neuroimaging studies have revealed that regio

193 Functional neuroimaging studies have shown a deficit in

194 ns on four immunosuppressive medications and functional neuroimaging studies have shown motor and som

195 Functional neuroimaging studies have shown that experime

196 Functional neuroimaging studies have shown varying patte

197 etiology of major depressive disorder (MDD), functional neuroimaging studies have shown with remarkab

198 Functional neuroimaging studies have started unravelling

199 Although a variety of functional neuroimaging studies have used emotion induct

200 Functional neuroimaging studies implicate limbic and par

201 Functional neuroimaging studies in healthy adults demons

202 Functional neuroimaging studies in humans indicate that

203 nstem and has great potential for a range of functional neuroimaging studies in normal and mutant mic

204 Functional neuroimaging studies in normal humans suggest

205 ten spared following brain injury and recent functional neuroimaging studies in patients indicate a p

206 Behavioural and functional neuroimaging studies in psychosis demonstrate

207 Functional neuroimaging studies indicate that activity i

208 Nineteen functional neuroimaging studies investigating the proces

209 A quantitative synthesis of functional neuroimaging studies might clarify the neural

210 ing have been investigated in structural and functional neuroimaging studies of adults and children,

211 Many functional neuroimaging studies of biological motion hav

212 Twenty-five years ago the first human functional neuroimaging studies of cognition discovered

213 Most of the functional neuroimaging studies of depression have focus

214 Functional neuroimaging studies of episodic recognition

215 meta-analysis of more than 1500 task-related functional neuroimaging studies of healthy volunteers to

216 The authors review structural and functional neuroimaging studies of medicated and unmedic

217 n and control-related processes, more recent functional neuroimaging studies of memory retrieval have

218 xhibit reduced parietotemporal activation in functional neuroimaging studies of phonological processi

219 Functional neuroimaging studies of probabilistic categor

220 quantitative meta-analysis of resting-state functional neuroimaging studies of PTSD that used either

221 ed between May 2006 and May 2007, we discuss functional neuroimaging studies of recovery and treatmen

222 onduct an effect-location meta-analysis of 9 functional neuroimaging studies of self-face recognition

223 However, most functional neuroimaging studies of speech perception hav

224 ignificant ramifications for both lesion and functional neuroimaging studies of this well-known brain

225 y integration has advanced because of recent functional neuroimaging studies of three areas in human

226 Functional neuroimaging studies on working memory (WM) y

227 Functional neuroimaging studies performed over the past

228 Functional neuroimaging studies point to increased activ

229 These findings are consistent with functional neuroimaging studies reporting hypermetabolis

230 Functional neuroimaging studies show abnormalities in a

231 Recent functional neuroimaging studies suggest that these effec

232 Numerous functional neuroimaging studies suggest that widespread

233 Results from the functional neuroimaging studies that are summarized here

234 However, functional neuroimaging studies that differentiate bipol

235 c level, and are consistent with findings of functional neuroimaging studies that have reported anter

236 Recent functional neuroimaging studies that operationally ident

237 eural basis of anger in control subjects, no functional neuroimaging studies using anger induction ha

238 Fifteen functional neuroimaging studies were included, comparing

239 urgery, from pancreatic islet research, from functional neuroimaging studies, and from exercise resea

240 In functional neuroimaging studies, individuals with dyslex

241 nt with the often-reported hypofrontality in functional neuroimaging studies, the majority of reviewe

242 ive performance is a common finding in human functional neuroimaging studies.

243 terations in prefrontal activity observed in functional neuroimaging studies.

244 , can be integrated with findings from human functional neuroimaging studies.

245 essive aphasia in a number of structural and functional neuroimaging studies.

246 sents a challenge for neurophysiological and functional neuroimaging studies.

247 s strong association with semantic memory in functional neuroimaging studies.

248 In a combined behavioral and functional neuroimaging study in healthy participants, w

249 conducted a within-person repeated-measures functional neuroimaging study in which 15 women with rec

250 A functional neuroimaging study of encoding was carried ou

251 In a functional neuroimaging study participants heard spoken

252 In a functional neuroimaging study, participants listened to

253 In a previous functional neuroimaging study, PPA patients were found t

254 In a recent functional neuroimaging study, richer concepts evoked le

255 In the present functional neuroimaging study, we explore the neural bas

256 rdiovascular or immune disorders performed a functional neuroimaging task involving the reappraisal o

257 cents with BD may be important to study with functional neuroimaging techniques because of their uniq

258 Newer structural, metabolic and functional neuroimaging techniques help to clarify the p

259 Most functional neuroimaging techniques rely on activation-fl

260 The present study used behavioral and functional neuroimaging techniques to examine inhibitory

261 y recently have investigators begun to apply functional neuroimaging techniques to the study of drug

262 Several studies have shown the power of functional neuroimaging techniques with both magnetic re

263 ing in animals and, with the introduction of functional neuroimaging techniques, has proven useful in

264 The new functional neuroimaging techniques, PET and functional M

265 ural activity in the brain is fundamental to functional neuroimaging techniques.

266 ed, to a considerable extent, by advances in functional neuroimaging techniques.

267 ese findings are verified by future studies, functional neuroimaging technologies will alter clinical

268 Recent work with functional neuroimaging that relies on blood flow techni

269 d reinforce the critical assumption of human functional neuroimaging that--to first approximation--th

270 g, transgenic mouse models, as well as human functional neuroimaging, that provide convergent evidenc

271 The first two predate the introduction of functional neuroimaging: that recovery is the consequenc

272 For example, in functional neuroimaging the current trend is to study th

273 Here, we used functional neuroimaging to compare neural responses duri

274 We used functional neuroimaging to examine how perceivers make m

275 The aim of this study was to use functional neuroimaging to investigate whether oxytocin

276 Specifically, we use functional neuroimaging to measure neural responses to d

277 We used functional neuroimaging to measure prediction error sign

278 hy participants heralded the introduction of functional neuroimaging to the study of mechanisms of re

279 a combination of computational modeling and functional neuroimaging to understand how humans classif

280 e and bargaining games have been probed with functional neuroimaging, transcranial magnetic stimulati

281 Functional neuroimaging uses activity-dependent changes

282 Functional neuroimaging using PET and fMRI have provided

283 Functional neuroimaging, using genetically-encoded Ca(2+

284 In addition, functional neuroimaging was obtained in seven patients.

285 Functional neuroimaging was used to investigate the exte

286 Functional neuroimaging was used to investigate three fa

287 Using functional neuroimaging, we found reduced amygdala activ

288 Using functional neuroimaging, we identify a neural signature

289 aversive-learning paradigm while undergoing functional neuroimaging, wherein visual cues were paired

290 ital imaging was followed by investigational functional neuroimaging, which included fMRI during phot

291 m shift has been the growing contribution of functional neuroimaging, which provides a versatile plat

292 ON: Our results amplify recent evidence from functional neuroimaging, which suggests a prominent role

293 ions across the adult life span by combining functional neuroimaging with a dynamic financial investm

294 Using functional neuroimaging with a novel decision-making tas

295 s from fear-conditioning studies in rats and functional neuroimaging with human volunteers have led t

296 Combining functional neuroimaging with multivariate pattern analys

297 Functional neuroimaging with PET and anatomical imaging

298 We also discuss the developments in functional neuroimaging, with particular reference to wo

299 The widespread application of functional neuroimaging within the field of environmenta

300 Functional neuroimaging work with progressive non-fluent