ライフサイエンスコーパス: functional imaging

1 studies using covert speech and haemodynamic functional imaging.

2 m these studies, to complement evidence from functional imaging.

3 basis of BOLD (blood-oxygen-level-dependent) functional imaging.

4 invasive nonhuman primate studies and human functional imaging.

5 Twenty patients had typical seizures during functional imaging.

6 exercise physiology, and both structural and functional imaging.

7 eech have been investigated previously using functional imaging.

8 igh-throughput applications based on in vivo functional imaging.

9 for patients who fail to normalize pre-ASCT functional imaging.

10 ation of in vivo fast tracer kinetics during functional imaging.

11 e decline in left ventricular performance by functional imaging.

12 According to functional imaging, a gradual return of evoked whisker f

13 he autonomic nervous system, such as cardiac functional imaging, allow for a measure of cardiac sympa

14 Functional imaging also shows that TSC patients with ASD

15 Noninvasive functional imaging analyses derived from coronary comput

16 e converging evidence from three independent functional imaging and behavioral studies.

17 Functional imaging and behavioral tasks included face-em

18 While functional imaging and deep brain stimulation studies po

19 Here, we review how advances in functional imaging and electron microscopy have recently

20 Through functional imaging and electrophysiological studies, muc

21 g digitalized multiparametric anatomical and functional imaging and enhance the ability to precisely

22 been made in brain imaging, especially with functional imaging and fibre tracking with the use of di

23 MRI, which is used for functional imaging and for the diagnosis of a broad rang

24 Functional imaging and gene expression studies both impl

25 Through functional imaging and genetic inactivation of specific

26 Here we use functional imaging and human single-neuron recordings to

27 lumn lesions and reveals differences between functional imaging and microelectrode recording maps.

28 that integrates scientific advances in both functional imaging and molecular probes to improve our u

29 -activity measurements as provided by modern functional imaging and neuronal recording techniques.

30 Evidence from human functional imaging and neuropsychology, and monkey neuro

31 w advanced microscopy techniques for in vivo functional imaging and offer guidelines for which techno

32 Functional imaging and psychometric assessments indicate

33 ies of the DMN identified with resting-state functional imaging and similarly deactivated during arit

34 Advanced MRI and functional imaging and subsequent intracranial EEG confi

35 ysis provides the underpinning to understand functional imaging and the effect of penetrating vessels

36 Finally, consistent with prior findings from functional imaging and transcranial magnetic stimulation

37 kinesia, findings that are in agreement with functional imaging and transcranial magnetic stimulation

38 Functional imaging and translational profiling experimen

39 somewhat challenging historically both with functional imaging and with electrophysiology.

40 Physiological, functional imaging, and clinical-pathological studies po

41 nation with correlative electron microscopy, functional imaging, and electrical/optogenetic stimulati

42 Heritability, functional imaging, and gene expression studies of AT in

43 rement of artifacts and nonneural effects in functional imaging, and more recently, the study of biop

44 ion of multiple targeted neurons, volumetric functional imaging, and quantitative behavioral tracking

45 and response correlation with tumor markers, functional imaging, and RET mutations.

46 approaches: localizing candidate areas using functional imaging, and showing that interference with t

47 dvances in genetics, blood-based biomarkers, functional imaging, and systemic therapy of advanced NET

48 including cross-sectional anatomic imaging, functional imaging, and transoral surgical techniques, d

49 Here, we used a multi-modality functional imaging approach to identify these mechanisms

50 Here, we use a functional imaging approach to reveal dynamic changes in

51 Functional imaging approaches reliably identify underlyi

52 Parallel developments in functional imaging are providing additional potential to

53 There have been major advances in functional imaging as well, one of which is the applicat

54 ation and advances in magnetic resonance and functional imaging, as well as from the emergence of bio

55 he putamen underwent both psychophysical and functional imaging assessment of perceived pain and pain

56 t case, scanning children with diffusion and functional imaging at age 5, before they learned to read

57 Thirty-three women underwent functional imaging at four time points (123 total scans)

58 py to address the challenges associated with functional imaging at this developmental stage, we recor

59 Using functional imaging, ATP biosensor cells, and a cell-free

60 Here, we present data from functional imaging, behavioral epistasis, and unilateral

61 Such functional imaging biomarker in combination with LA volu

62 elerated PAT applications in signal sensing, functional imaging, biomarker labeling and therapy monit

63 Interim restaging with functional imaging by positron emission tomography using

64 f tumorigenesis, longitudinal anatomical and functional imaging can enhance the scope of studies by f

65 e structural state of muscle sarcomeres, SHG functional imaging can give insight into the integrity o

66 Functional imaging can reveal detailed organizational st

67 raphy (PET), combine the superb anatomic and functional imaging capabilities of MR imaging with the u

68 The single-RBC functional imaging capability of FOG enables numerous bi

69 solution, multiplanar image acquisition, and functional imaging capability through specialized techni

70 The functional imaging capacity of 3D-wPAT was demonstrated

71 We evaluated morphologic and functional imaging characteristics to elucidate evidence

72 tergic and gamma-aminobutyric acidergic) and functional imaging correlates associated with such an ef

73 We anticipate that this approach to functional imaging data analysis represents an important

74 This review proposes that although the functional imaging data are statistically valid in most

75 We then examined functional imaging data recorded during task performance

76 with hypersexuality were OFF medication, the functional imaging data showed decreases in activation d

77 The functional imaging data showed that the hypersexuality p

78 While both anatomical and functional imaging data suggest that the influence of tr

79 MVPA) is an emerging technique for analysing functional imaging data that is capable of a much closer

80 The functional imaging data were analysed using statistical

81 Using multivoxel pattern analysis of human functional imaging data, we demonstrate an adaptive chan

82 Functional imaging demonstrates that DPM activation evok

83 Moreover, functional imaging disclosed a LH region tuned to repuls

84 enables in vivo two-photon morphological and functional imaging down to 700 mum inside the mouse brai

85 28) and control subjects (n = 28) underwent functional imaging during performance of a monetary ince

86 Second, functional imaging during speed-matched execution of tra

87 n oxygen saturation (i.e., oxygenation) is a functional imaging endpoint that can reveal variations i

88 rily by astrocytes, supporting the view that functional imaging experiments based on glucose analogs

89 In vivo functional imaging experiments further demonstrate disru

90 e that Cal-590 is also suited for multicolor functional imaging experiments in combination with other

91 nalytic approach incorporating more than 100 functional imaging experiments, we show that preference

92 be readily used for simultaneous multicolor functional imaging experiments.

93 senting a potential artifact during neuronal functional imaging experiments.

94 organization that can be tested with refined functional imaging experiments.

95 Human functional imaging findings implicate the left posterior

96 Using functional imaging (fMRI) combined with computational mo

97 Using functional imaging (fMRI), we found that the ventromedia

98 somatosensory cortex using psychophysics and functional imaging (fMRI).

99 review discusses the role of structural and functional imaging for diagnosing and managing different

100 ensity-modulated radiotherapy) combined with functional imaging for more precise delineation of targe

101 set of these participants (n = 26) underwent functional imaging for the first time to test for biased

102 were evaluated with computed tomography and functional imaging (gallium or fluorodeoxyglucose-positr

103 treatment and how do they compare with other functional imaging-guided paradigms?

104 Functional imaging has applications in clinical trials t

105 Functional imaging has revealed both distinct characteri

106 Functional imaging has shown that these patches are acti

107 imaging systems, which combine anatomic and functional imaging, has revolutionized diagnostic imagin

108 clerosis by serial noninvasive molecular and functional imaging, histopathology, and a pharmaceutical

109 Noninvasive functional imaging holds great promise for serving as a

110 as well as the potential for multiparametric functional imaging in conjunction with PET.

111 also present spatially isotropic whole-brain functional imaging in Danio rerio larvae and spatially i

112 Electrophysiological studies in monkeys and functional imaging in humans have investigated space and

113 ter embryos and perform adaptive whole-brain functional imaging in larval zebrafish.

114 he concepts and strategies of structural and functional imaging in living cells at the single-molecul

115 Optical techniques for functional imaging in mice have a number of key advantag

116 for clinical symptoms, and changes of brain functional imaging in SCA38 patients.

117 transcranial magnetic stimulation as well as functional imaging in stroke aphasic and neurologically

118 filling" of the dye to the soma, followed by functional imaging in the labeled cell.

119 the study of genetics, neurophysiology, and functional imaging in the most prevalent form of dystoni

120 We applied MPAO to in vivo structural and functional imaging in the mouse brain.

121 ise to the population response observed with functional imaging in the parahippocampal place area.

122 the host plant Datura wrightii and performed functional imaging in the primary olfactory center of M.

123 on of dopaminergic neurons with postsynaptic functional imaging in vivo.

124 maging measures (magneto-encephalography and functional imaging) in a group of early deaf humans.

125 rine tumors (NETs) occult on morphologic and functional imaging, in relation to tumor origin and diff

126 Functional imaging included standard cinematic imaging t

127 nly studied task scenario in single-unit and functional imaging investigations, have not been establi

128 emonstrate that low-cost fluorescence kidney functional imaging is highly sensitive and useful for th

129 ential diagnosis of degenerative dementia if functional imaging is indicated.

130 Integrated structural and functional imaging is recommended to characterize adrena

131 of the most consistent observations in human functional imaging is that a network of brain regions re

132 A novel functional imaging mass spectrometry technology is descr

133 s suggest that multiparametric molecular and functional imaging may be capable of providing comprehen

134 ional or compensatory circuits identified by functional imaging, may take neuroimaging into a new, th

135 PET is a functional imaging method that can exploit various aspec

136 We present a deep tissue multiplexed functional imaging method that probes multiple Forster r

137 Lung EIT is a functional imaging method that utilizes electrical curre

138 Complementary functional imaging methods assessing how lesions influen

139 works have been emphasized by development of functional imaging methods for correlating activity acro

140 Recent improvements in both morphologic and functional imaging methods have contributed immensely to

141 Functional imaging methods such as fMRI have been widely

142 ildtype mice by histological, molecular, and functional imaging methods.

143 In tinnitus, PET and other functional imaging modalities have shown functional chan

144 nd signal suppression (DWIBS) are 2 powerful functional imaging modalities in the evaluation of malig

145 with anatomic imaging with CT/MRI and other functional imaging modalities, including (18)F-fluorohyd

146 Morphologic and functional imaging modalities, such as CT and MRI, have

147 with 227 metastases iodine-positive on both functional imaging modalities.

148 Photoacoustics is a non-ionizing, functional imaging modality capable of high contrast ima

149 Ga-DOTATATE PET/CT will become the preferred functional imaging modality for HNPGLs in the near futur

150 y was to assess the clinical utility of this functional imaging modality in parasympathetic head and

151 disease, this technique is now the preferred functional imaging modality to evaluate and to monitor t

152 studies presents an emerging need for a new functional imaging modality.

153 We combined high-resolution structural-functional imaging, molecular assays for neurotransmitte

154 beric acid ((18)F-FASu), as a PET tracer for functional imaging of a cellular response to oxidative s

155 nsic two-photon excited fluorescence enables functional imaging of adipocyte metabolism with subcellu

156 oscopy techniques that enable structural and functional imaging of biological specimens at unpreceden

157 synthesis of published work, with a focus on functional imaging of circuit dysfunctions across the sp

158 e applications in real-time and postsurgical functional imaging of collagen-rich tissues subjected to

159 al apparatus that allows cellular resolution functional imaging of cortical regions during epochs of

160 escribe a technique that allows for chronic, functional imaging of dentate gyrus granule cells in awa

161 We demonstrate whole-animal functional imaging of Drosophila larvae at a spatial res

162 berration correction improved structural and functional imaging of fine neuronal processes over a lar

163 on microscopy at 1,300-nm excitation enables functional imaging of GCaMP6s-labeled neurons beyond the

164 closely matching results from structural and functional imaging of grey matter.

165 tional empathy have been widely studied with functional imaging of healthy participants.

166 ) PET/CT, currently the gold standard in the functional imaging of HNPGLs.

167 offers three-dimensional (3D) structural and functional imaging of living biological tissue with labe

168 eveloped a technique for cellular-resolution functional imaging of medial entorhinal cortex (MEC) neu

169 Noninvasive functional imaging of molecular and cellular processes o

170 Functional imaging of neural activity in the processes o

171 Using genetics and functional imaging of neural activity we characterize th

172 111)In-pentetrotide SPECT have been used for functional imaging of neuroendocrine tumors (NETs) for t

173 Here we demonstrate simultaneous functional imaging of neuronal activity at single-neuron

174 This approach can be broadly applicable to functional imaging of other brain structures.

175 Our approach can be broadly applicable to functional imaging of other core brain structures.

176 ed a metabolically activated radiotracer for functional imaging of P-gp/BCRP activity with positron e

177 Functional imaging of proteolytic activity is an emergin

178 y combining odor discrimination studies with functional imaging of sensory input activity in awake mi

179 Label-free functional imaging of single red blood cells (RBCs) in v

180 nt of molecular MRI methods that could allow functional imaging of the brain by sensing the neurotran

181 hy is a promising, noninvasive technique for functional imaging of the mouse brain.

182 Feasibility of simultaneous PET/MRI functional imaging of tumors was explored by following (

183 uted tomography (microCT) for anatomical and functional imaging of vascular alterations in three muri

184 ing viral trans-synaptic circuit mapping and functional imaging of visually driven calcium signals in

185 y properties of monocytes and macrophages by functional imaging on explanted lungs.

186 uits in freely behaving worms by integrating functional imaging, optogenetic interrogation, genetic m

187 This article introduces a new functional imaging paradigm that uses optical coherence

188 from behavioral analysis and two independent functional imaging paradigms that a single session of at

189 us endocarditis (IE) can be improved through functional imaging procedures such as radiolabeled leuko

190 METHOD: Functional imaging responses to three paradigms-the stop

191 chronic alcoholics, which is consistent with functional imaging results of less left posterior cingul

192 Behavioral and functional imaging results were compared between groups

193 ung adults were assessed in an event-related functional imaging scan while performing the 'AX'-contin

194 ral computation is powered, for interpreting functional imaging scans of brains, and for developing t

195 In subsequent functional imaging sessions they were exposed to trials

196 ation of virtual reality and high-resolution functional imaging should allow a new generation of stud

197 A combination of structural and functional imaging showed that verbal IQ changed with gr

198 Functional imaging shows that some of the Odd neurons re

199 pling underlies blood oxygen level-dependent functional imaging signals, but its mechanism is controv

200 ors of cerebral blood flow and initiators of functional imaging signals.

201 Because the functional imaging signature of patients with PPGL-polyc

202 Functional imaging status before ASCT was the only facto

203 Furthermore, they suggest a unique functional imaging strategy based on pH that is independ

204 he findings are consistent with recent human functional imaging studies and suggest that functions of

205 Recent data derived from anatomic and functional imaging studies are providing new insights in

206 Functional imaging studies comparing inner and overt spe

207 Previous functional imaging studies demonstrated dynamic changes

208 n recent neurophysiological, behavioral, and functional imaging studies from the nonhuman primate tha

209 Furthermore, lesion and functional imaging studies have contributed little knowl

210 Functional imaging studies have demonstrated that cognit

211 Functional imaging studies have found that controls have

212 Neuroanatomical and functional imaging studies have identified the cerebellu

213 Recent functional imaging studies have proposed that the human

214 Although many functional imaging studies have reported frontal activit

215 Functional imaging studies have revealed that certain br

216 Functional imaging studies have shown that early process

217 Since functional imaging studies have shown that homologous co

218 ogical studies in other aphasic cohorts, and functional imaging studies in healthy controls.

219 T raises significant technical obstacles for functional imaging studies in humans.

220 One major problem in the interpretation of functional imaging studies is that it is still unclear w

221 patterns of dysfunction, a meta-analysis of functional imaging studies of emotion was undertaken.

222 Functional imaging studies of healthy participants and p

223 Postmortem and functional imaging studies of patients with psychiatric

224 haracterizing dopaminergic transmission, and functional imaging studies of reward processing and gamb

225 ome increasingly well defined as a result of functional imaging studies of thermogenically active BAT

226 Indeed, functional imaging studies reveal a dramatic decrease in

227 However, functional imaging studies reveal correlations between a

228 In the brain, functional imaging studies reveal diffuse activation map

229 xcitability in primary dystonia, but several functional imaging studies suggest otherwise.

230 Anatomical and functional imaging studies suggest that individual sympt

231 Functional imaging studies suggest that intrinsic "resti

232 actic processing, and has been shown in many functional imaging studies to be differentially recruite

233 be similar connectivity deficits emerging in functional imaging studies, and both disorders share sev

234 its of emotion and motivation highlighted by functional imaging studies, have shown promising effects

235 Consistent with human functional imaging studies, our findings suggest that si

236 Here, in agreement with human functional imaging studies, we found that 26% of neurons

237 onnectivity foundation for interpretation of functional imaging studies, which often indicate activit

238 Functional imaging studies, which similarly tend to find

239 ociated with using inner and overt speech in functional imaging studies, while at the same time provi

240 This functional imaging study assessed domain-general activit

241 This functional imaging study investigated these alternative

242 ormal tissues is predicted using anatomic or functional imaging, such as in the use of CT or PET to p

243 We developed an integrated multi-functional imaging system, in which synchronized dual wa

244 ctivation in participants who cannot perform functional imaging tasks and is an alternative to group-

245 PET is an important functional imaging technique that can be used to investi

246 solidly replicable regardless of the applied functional imaging technique.

247 These functional imaging techniques are used in detection of i

248 taging of disease in these patients, whereas functional imaging techniques are useful both for detect

249 l role in trials, structural, molecular, and functional imaging techniques can give us a window on th

250 Over the past 2 decades, functional imaging techniques have become commonplace in

251 retina and choroid has made great progress, functional imaging techniques have been lacking.

252 nce, we used a combination of structural and functional imaging techniques in Italian and German part

253 Functional imaging techniques provide information on tum

254 rtic disease is more fully revealed with new functional imaging techniques than with conventional ana

255 Modern imaging techniques, particularly functional imaging techniques that interrogate some spec

256 This vascular signal is used by functional imaging techniques to infer the location and

257 tudies in this issue of Neuron apply in vivo functional imaging techniques to map out and record from

258 Here, we use circuit mapping and in vivo functional imaging techniques to trace gustatory and olf

259 With advances in anatomic and functional imaging techniques, we now have tools for ass

260 oach combines the information from different functional imaging techniques; this goes beyond what can

261 Applied to the spine, "functional" imaging techniques such as MR spectroscopy,

262 Using the in vivo functional imaging technology DREAMM (DREADD-assisted me

263 (7) how will CT-FFR influence other functional imaging test utilization, and what will be th

264 and the strategies in using advanced MRI and functional imaging tests and their associated postsurgic

265 x exhibits a sensitivity to reaction time on functional imaging that is consistent with such a mechan

266 suggesting the potential of SS-ODT for brain functional imaging that requires high flow sensitivity a

267 The applications of molecular and functional imaging that would enable a whole-body "holis

268 Before presentation during functional imaging, the clips were evaluated by age-matc

269 This combination of structural and functional imaging therefore highlights the contribution

270 Workers are investigating the role of functional imaging to assess whether treatment can be ta

271 sess reader confidence after the addition of functional imaging to conventional sequences.

272 Here we used high-resolution functional imaging to determine the signaling patterns i

273 Here, we investigated this issue using functional imaging to examine neural activity in cigaret

274 Here, we use in vivo functional imaging to identify a class of cutaneous sens

275 ent studies used a virtual hunting assay and functional imaging to identify prey-capture circuits in

276 We use functional imaging to identify the neural network whose

277 mbined behavior, computational modeling, and functional imaging to investigate mechanisms supporting

278 The current study employed high-resolution functional imaging to map intrinsic metabolic responses

279 be useful in a wide range of structural and functional imaging to study the interactions between cel

280 ing and discuss the implications of applying functional imaging to visualize cancer progression and t

281 vidence, theories and methods, such as brain functional imaging, to explain the pathophysiological li

282 Lesion studies complement functional imaging, to identify areas necessary for a ta

283 (18)F-FDOPA PET appears to be a sensitive functional imaging tool for the detection of primary NET

284 Although modern functional imaging tools allow study of brain correlates

285 e correlation with serum thyroglobulin (Tg); functional imaging; tumor genotype; and signaling inhibi

286 heir results suggest that the combination of functional imaging using fluorothymidine-positron emissi

287 mouse taste buds and taste cells, conducted functional imaging using Fura-2, and used cellular biose

288 Using human functional imaging, we found that the strength of face a

289 Based on findings from functional imaging, we propose that the uncertainty of l

290 Here, using functional imaging, we reconstructed the organization of

291 Anatomic and functional imaging were performed for tumor visualizatio

292 imultaneous video-electroencephalography and functional imaging will improve the localization of the

293 omise in this respect are the application of functional imaging with (18)F-fluorodeoxyglucose positro

294 hoton excitation allowed largely independent functional imaging with a green fluorescent calcium sens

295 g a stop-signal response inhibition task and functional imaging with analysis of effective connectivi

296 herein highlight the use of nanopipettes for functional imaging with applications from cell biology t

297 Carbogen-based functional imaging with PAI and BOLD MR imaging enables

298 resolution, and enabled real-time intestinal functional imaging with ultrasound co-registration.

299 claim that has recently gained support from functional imaging work in humans [6-14].

300 ms with technologies for cellular resolution functional imaging would provide a powerful approach to