ライフサイエンスコーパス: brain region

1 ritically regulates BBB permeability in this brain region.

2 n of HS and LS alpha4beta2 receptors in this brain region.

3 of the low-order FC sub-network from another brain region.

4 that is independent of age, task content and brain region.

5 nchronous activity affecting a circumscribed brain region.

6 remain largely uncharacterized in different brain regions.

7 nteractions between functionally specialized brain regions.

8 mHTT, HD iPSC-derived neurons, and human HD brain regions.

9 istribution in both cortical and subcortical brain regions.

10 al binding parameter Kb varied highly across brain regions.

11 ed by microinjection of RO5166017 into these brain regions.

12 onal profiles associated with MDD across six brain regions.

13 arietal as well as the left inferior frontal brain regions.

14 functional specialization of the reorganized brain regions.

15 n establishing cortical connections to other brain regions.

16 toms and psychosocial stress relate to other brain regions.

17 ed to average brain activation within single brain regions.

18 pticus-associated neuronal injury in various brain regions.

19 area positive for immunostaining in defined brain regions.

20 gen signaling differ between and even within brain regions.

21 risk burden for the disease across multiple brain regions.

22 dulation from the nominal target to afferent brain regions.

23 chitectural and functional variation between brain regions.

24 cal signaling to direct blood flow to active brain regions.

25 to receive an electric stimulus in specific brain regions.

26 of electrode geometries and across multiple brain regions.

27 ic Tau, followed by its spreading to distant brain regions.

28 romoter-specific hypomethylation in multiple brain regions.

29 its are relayed to specific, often distinct, brain regions.

30 rons over a significant range in a number of brain regions.

31 erentially expressed in only one of the four brain regions.

32 entially high-level relationship among these brain regions.

33 with average errors of less than 1% in most brain regions.

34 emulative and non-emulative attitudes among brain regions.

35 unction of the connectivity strength between brain regions.

36 sses are achieved within the same network of brain regions.

37 in vivo assay of neurometabolites in suspect brain regions.

38 minate in close succession, as found in many brain regions.

39 stinct best metrics were seen for individual brain regions.

40 eral hemispheres of cortical and subcortical brain regions.

41 eaningful pattern relative to distance among brain regions.

42 ns to known and unknown functions of diverse brain regions.

43 filing of chemoconvulsant action in multiple brain regions.

44 unctionally connected to the same network of brain regions.

45 This may point to sex differences in limbic brain regions.

46 not for distinct diseases affecting the same brain regions.

47 it can boost connectivity between co-active brain regions.

48 l and unique subsets of neurons from diverse brain regions.

49 nd reduced white matter integrity in several brain regions.

50 ese analyses to prenatal ages and additional brain regions.

51 ory and hierarchically higher frontoparietal brain regions.

52 d pre- and post amphetamine in extrastriatal brain regions.

53 gnals are selected for processing in sensory brain regions.

54 erse, remarkably complex shapes in different brain regions.

55 -and increases of 16.8-19.1% in seven tested brain regions.

56 their interactions with other motor-related brain regions.

57 unterparts of otherwise unilaterally engaged brain regions, a strategy that seems to be at odds with

58 oxygen delivery, particularly in vulnerable brain regions, across a broad range of hemoglobin values

59 to this problem is the mechanism by which a brain region adjusts its activity according to the influ

60 g are highly interrelated and involve common brain regions afferent to the nucleus accumbens, within

61 rotect the AQP4 polarization in the affected brain region after Abeta injection.

62 Furthermore, on-demand TES of targeted brain regions allows the potential for normal function o

63 This brain region also presented signatures of a hierarchical

64 nt oscillations also occur within individual brain regions, although the purpose of this coherence is

65 on of the high-order FC sub-network from one brain region and that of the low-order FC sub-network fr

66 We argue that although several brain regions and circuits regulating parental care are

67 tive GABAergic interneurons in corticolimbic brain regions and contribute to high-frequency neural fi

68 endent (BOLD) imaging are used to parcellate brain regions and define "functional connections" betwee

69 5 x 10(-9)) with the ageing rate across five brain regions and harbours a cis-expression quantitative

70 ssociated with schizophrenia across multiple brain regions and highlights the utility of polygenic ri

71 PFC activity further refined this subset of brain regions and identified the habenula as a node robu

72 tolerated, able to chelate iron from various brain regions and improve PD symptomology.

73 il BPND in multiple subcortical and cortical brain regions and in striatal [(18)F]fluorodopa Ki compa

74 d reduced functional connectivity in frontal brain regions and increased functional connectivity in p

75 ch GABA elevations are also present in other brain regions and persist after antipsychotic treatment

76 We therefore investigated the brain regions and potential neural circuits in which alp

77 a in V1 and is likely generalizable to other brain regions and rhythms.

78 s efficient communication within and between brain regions and serves a central role in establishing

79 t unique maturation trajectories in specific brain regions and systems, particularly those supporting

80 aled a distributed network of supratentorial brain regions and the RVM whose activity was linearly re

81 Using these tools, we find granular brain-region and cell-type specific signatures with corr

82 goal of identifying the cellular responses, brain regions, and brain-wide pathways through which the

83 hypertrophy, reduced volume in mood-related brain regions, and reduced hippocampal signaling protein

84 Since depression affects multiple brain regions, and the role of p11 has only been determi

85 njection site to neuroanatomically connected brain regions, and these tau inclusions consisted of bot

86 We hypothesized that if two brain regions are communicating, then knowledge of the a

87 When we perform a cognitive task, multiple brain regions are engaged.

88 cal oscillations of a network of a number of brain regions are implicated in leading to the disorder.

89 Notably, these brain regions are rich in androgen receptors and play a

90 that while concurrent activation in similar brain regions as mentioned above was found for intense e

91 vivo activity from eight cortical and limbic brain regions as mice were subjected to the tail suspens

92 d for function-specific coordination between brain regions as opposed to information integration acro

93 social neural circuits, including prefrontal brain regions, as key pathways for risk for mental disor

94 rain, including neuron migrations in various brain regions, as well as learning and memory in adults.

95 temporal communication between higher-order brain regions associated with mental time travel.

96 restricted in MEC without spreading to other brain regions at one month after transduction.

97 to study interactions between and within two brain regions, based on experimental measurements of spi

98 FICANCE STATEMENT The prefrontal cortex is a brain region believed to support the ability of animals

99 tic input from the cerebral cortex and other brain regions beyond the core afferents identified previ

100 hat were acquired from both postmortem human brain regions (BP case/control: 45/50) and peripheral bl

101 Cbln4 are abundantly expressed in nearly all brain regions, but exhibit strikingly different expressi

102 has been assumed this process occurs in all brain regions, but has never been measured in the cortex

103 increased cross-modal activation of auditory brain regions by visual speech from before to after impl

104 iverse, task-rule information in distributed brain regions can be predicted based on estimated activi

105 f chromatin accessibility in the striatum, a brain region central to reward and emotion.

106 Here, we report that within a single brain region, coherent alpha oscillations link stimulus

107 tive flexibility task, we show that a set of brain regions collectively known as the default mode net

108 des of protein abundance differences between brain regions compared to RNA.

109 hips are driven predominantly by a subset of brain regions comprising the somatomotor system.

110 to increased 18F-AV-1451 binding in specific brain regions conforming to established brain-behaviour

111 lecular effects in specific neurons within a brain region contribute to behavioral changes across the

112 l segregation, with cortical and subcortical brain regions contributing to different functional compo

113 A large network of cortical and subcortical brain regions control cardiovascular function via the sy

114 version of Seed-based D Mapping to identify brain regions correlated to clinical response.

115 e DBS electrode and a distributed network of brain regions correlated with clinical response includin

116 Cerebral blood flow in these brain regions correlated with the degree of post-convent

117 ing) mRNAs in major cortical and subcortical brain regions (cortex, hippocampus, caudate-putamen, nuc

118 erformance-monitoring system is a network of brain regions dedicated to monitoring behavior to adjust

119 Coherently, the same brain regions demonstrated abnormal connectivity with th

120 al cellular and circuit-based mechanisms for brain region-dependent alterations in dopaminergic param

121 me, but not the tau strain, determines which brain regions develop tau pathology.

122 show that knockdown of TrkB or Bdnf in this brain region does not have an impact on weight, activity

123 regions may modulate activity in the target brain region during tDCS.

124 herent activity between relevant networks of brain regions during exposure to health messages encoura

125 ociations with functional connectivity among brain regions, especially between inferior prefrontal an

126 etectable [F-18]-AV-1451 binding in multiple brain regions examined, with the exception of entorhinal

127 tested with support vector regression which brain regions exhibited multivariate parametric WM codes

128 (anterior cingulate and frontopolar cortex) brain regions following oxytocin administration vs place

129 ) in the nucleus accumbens (NAc), a critical brain region for cocaine craving.

130 d sequentially [10-14], making this an ideal brain region for investigating the circuit-level impact

131 g the higher-level dynamic interaction among brain regions for early mild cognitive impairment (eMCI)

132 the brain reward circuitry, is unique among brain regions for its distinct pace of angiogenesis and

133 This happens in several key brain regions for social behavior, such as the amygdala

134 hibitory projections to other stress-related brain regions (for example, the locus coeruleus, medial

135 nd human prion strains as seeds and specific brain regions from mice and humans as substrates.

136 e lesion location itself, we also identified brain regions functionally connected to each lesion loca

137 lesion network mapping was used to identify brain regions functionally connected to the lesion locat

138 This brain region further showed task-related functional conn

139 For either brain region, GABA levels at 4 weeks or posttreatment di

140 vior, the specific role of prolactin in this brain region has remained elusive.

141 breathe, we hypothesize that chemosensitive brain regions have adapted a means of preventing vascula

142 al anterior cingulate cortex and three other brain regions hold multiple representations of choice va

143 side) or vehicle was microinjected into each brain region immediately before cue- and drug-induced re

144 en and involve the hippocampus, a vulnerable brain region implicated in learning and memory.

145 Our findings show that, in the striatum, a brain region implicated with movement execution, EAAC1 l

146 xpression data in four interconnected limbic brain regions implicated in depression and its treatment

147 drug-seeking through activation of specific brain regions implicated in stress system dysfunction, i

148 Brain regions implicated in this research, and in MDD mo

149 dbrain nucleus tractus solitarius (NTS) as a brain region important for GLP-1R-mediated effects on en

150 onsistent with the known involvement of this brain region in auditory function.

151 rformed in one of the tumors and in a normal brain region in each animal.

152 B6.Htt(Q111/+) striatum, the most vulnerable brain region in HD, up to 12 months of age.

153 filing on the brainstem, a highly vulnerable brain region in SCA3, in a series of mouse models with v

154 , and provide insight into the role of these brain regions in affective disorders.

155 ial and single-unit recordings from multiple brain regions in awake restrained mice over 4 mo.

156 f large neuronal populations across multiple brain regions in both superficial and deep structures.

157 have shown structural alterations in several brain regions in children and adults with attention defi

158 ted glutamate neurotransmission in different brain regions in drug self-administration and rodent mod

159 to study the statistical dependence between brain regions in humans in terms of the multivariate rel

160 th the structural changes of specific social brain regions in late adolescence.

161 modulate neuronal activity in two connected brain regions in opposite directions simultaneously.

162 However, the role of these brain regions in processing affective kinematic informat

163 Variability in brain regions including a key node of the salience netwo

164 ys (ELISA) or theoretically calculated in 12 brain regions, including neocortical, limbic and subcort

165 ter infant-specific activity in key parental brain regions, including the orbitofrontal cortex and am

166 STN HFS inhibited key brain regions, including the substantia nigra, entopedun

167 noprecipitation and RNA sequencing of reward brain regions indicates that the regulation of the epige

168 Further, our findings show that higher brain regions interact with the brainstem modulation sys

169 based on gene expression profiles delineated brain regions into structurally tiered spatial groups an

170 ensity (PSD) fractions of the hippocampus, a brain region involved in drug-context associations.

171 We imaged the amygdala, a brain region involved in stress, to determine whether it

172 itory sensory, but also frontal and parietal brain regions involved in controlling auditory attention

173 s examined the parabrachial nuclei and other brain regions involved in food intake and food reward.

174 patients, advancing our understanding of the brain regions involved in freezing of gait.

175 ally Y1, Y2, and Y5) are highly expressed in brain regions involved in learning and memory processes.

176 wed increased NAcc connectivity with frontal brain regions involved in mentalizing.

177 n independent measure of pleasure, activated brain regions involved in reward circuitry in both contr

178 stronger bilateral amygdala connectivity to brain regions involved in sensory processing and integra

179 ical changes in the 'social brain', a set of brain regions involved in sophisticated social inference

180 inson disease and related disorders, but the brain regions involved in symptom generation remain uncl

181 s the neural response to visual food cues in brain regions involved in the control of food intake.

182 nctional connectivity between the LC and key brain regions involved in the regulation of arousal.

183 te cortex, insula cortex, and left amygdala, brain regions involved in valuation, emotion reactivity,

184 his is the first evidence that the VP or any brain region is necessary for the ability to use context

185 Given that this brain region is often spared in aphasic stroke, we propo

186 l thinning in Alzheimer's disease-vulnerable brain regions is a mechanism for reduced memory performa

187 mmon to neurogenic niches located in diverse brain regions is daytime progression of DNA replication

188 e-scale spatial organization of multisensory brain regions is fundamental to shed light on their neur

189 posterior superior temporal sulcus (pSTS), a brain region known to be important for speech perception

190 tly occur within a circuit of interconnected brain regions known collectively as the "social behavior

191 load score (SHub) indicating to what extent brain regions linked different subsystems; high SHub ind

192 (PPC) showed that the APC projects to these brain regions mainly through layer 2b cells, and dual-la

193 polarization of afferent neurons in upstream brain regions may modulate activity in the target brain

194 TSPO VT was significantly elevated in these brain regions (mean, 32%; range, 31%-36% except anterior

195 ctivation of reward and emotional-regulation brain regions (medial prefrontal cortex, cingulate corte

196 that monosynaptic projections between these brain regions mediate CS-induced cocaine-seeking behavio

197 These results demonstrate that brain regions mediating odor-driven innate behaviors can

198 They suggest that distant brain regions might coordinate their activity in the low

199 Thus, in a brain region not normally associated with sex difference

200 generation (CBD-tau) patients into different brain regions of female non-Tg mice, we demonstrated the

201 creased functional connectivity in posterior brain regions of postweaning social isolation rats.

202 Source analyses revealed that the brain regions of significant differences localized to th

203 ve reductions of VMHC associated with ALS in brain regions of the precentral and postcentral gyrus, t

204 -frequency electric fields to stimulate deep brain regions, opening a frontier in the biophysics and

205 ould be due to excess cell death in selected brain regions or myocardial apoptosis during embryonic d

206 we consider the diversity in space (nodes or brain regions) over time using the concept of intrinsic

207 aptive reprogramming of progenitors in other brain regions plays a greater role than appreciated in d

208 t the majority of alpha4beta2 nAChRs in this brain region possess a stoichiometry of the (alpha4)3(be

209 brain samples, representing tissue from four brain regions (prefrontal cortex, striatum, hippocampus

210 predictors of reduced cortical thickness in brain regions previously associated with early Alzheimer

211 so receives input from other retinorecipient brain regions, primarily via the geniculohypothalamic tr

212 with positive social feedback was evoked in brain regions putatively involved in theory of mind (tem

213 (64)Cu-rituximab PET signal in brain regions ranged between 1.74 +/- 0.11 and 2.93 +/-

214 h a decrease in A1AR availability in several brain regions, ranging from 11% (insula) to 14% (striatu

215 t androgens in two cortex-like vocal control brain regions regulate distinct aspects of vocal plastic

216 Surprisingly, the network of brain regions representing architectural styles included

217 Several cortical and subcortical brain regions respond selectively to threat.

218 classification techniques to determine which brain regions retain information during WM.

219 f the spectral characteristics of each local brain region revealed the dynamical cortical core of the

220 ta synchrony is positively correlated with a brain region's gamma power, suggesting a predominant low

221 he mechanisms by which spatially distributed brain regions share and combine information remain prima

222 to seizure generation and consequently which brain regions should be considered for resection.

223 whether the tuning organization along these brain regions showed any parallel to the hierarchy of la

224 (mediation R package) were then performed in brain regions showing an association between cognition a

225 ng (rs-fMRI) time series between any pair of brain regions, simply ignoring the potentially high-leve

226 idence that Abeta accumulation starts in all brain regions simultaneously and that its spatiotemporal

227 Using in vivo optogenetics, the brain region-specific inputs to the NAc that mediate the

228 rocytes, suggesting that IFNAR signaling has brain region-specific roles in CNS immune responses.

229 Here we identify a brain-region-specific neural progenitor-based signaling

230 triatum and hippocampus) and within the same brain region (striatum).

231 tivity from multiple neurons both in distant brain regions (striatum and hippocampus) and within the

232 Overall, expression spans multiple brain regions, structures, and cell types, suggesting a

233 ot enough studies for meta-analysis in other brain regions studied (hippocampus, ventral pallidum and

234 ange cross-frequency coupling across distant brain regions subserves working memory.

235 The hippocampus, a brain region subserving roles of spatial and episodic me

236 stimulation of this node, but not a control brain region, substantially improved both accuracy and r

237 pport map-like spatial codes, (ii) posterior brain regions such as parahippocampal and retrosplenial

238 dendritic injury remains evident in specific brain regions such as the dorsal striatum.

239 butions, with striking resolution of layered brain regions such as the tectum or the rhombencephalon.

240 ts role as an enhancer in addiction-relevant brain regions, such as the dorsolateral prefrontal corte

241 These results suggest that the identified brain regions support action category codes that are imp

242 g to measure regional cerebral blood flow in brain regions susceptible to ageing and Alzheimer's dise

243 We show how brain regions tend to coordinate by forming a highly hie

244 and putamen) and the SERT-rich extrastriatal brain regions (thalamus, hypothalamus, and pons).

245 19.00 h) elicit higher activation in reward brain regions than at expected (14.00 h) times.

246 ect size and encompassed a greater number of brain regions than those for cerebral blood flow alone.

247 pressed in the dorsal raphe nucleus (DRN), a brain region that has been suggested to have a role in d

248 The hippocampus, a brain region that is critical for learning and memory, c

249 1 is abundantly expressed in the striatum, a brain region that is hyperactive in OCD.

250 niche position and relocate to a non-native brain region that is rich in neurosecretory neurons, inc

251 bimodal superior temporal cortex (bSTC) is a brain region that plays a crucial role in the integratio

252 al of variability in reward outcome, and two brain regions that are modulated by the brain chemical d

253 describes the computational mappings between brain regions that carry cognitive task information.

254 gen receptor antagonist flutamide in two key brain regions that control birdsong.

255 multivoxel pattern analysis, we searched for brain regions that encode temporally integrated shape id

256 the relative balance of activity in distinct brain regions that induce or suppress appetite.

257 limited a precise understanding of putative brain regions that integrate with the LC to regulate aro

258 ization to test if GPR30 is expressed in the brain regions that might mediate visually guided social

259 imer's disease pathology appears earliest in brain regions that overlap with the anterolateral entorh

260 e from a few examples, little is known about brain regions that promote recovery from an aversive eve

261 gical substrate of value representation, but brain regions that provide input to this network is less

262 timescale of the reinstatement and identify brain regions that show significant timescale difference

263 onal MRI was used to identify the network of brain regions that support WM for faces and to quantify

264 ndrogen signaling in the motor cortical-like brain region, the robust nucleus of the arcopallium (RA)

265 sion modules from tissues representing three brain regions-the frontal gyrus, the lateral substantia,

266 a has been hypothesized to influence sensory brain regions through the influence of the amygdala on n

267 Finally, we sought to identify the brain regions through which ADX71441 may act to prevent

268 he transfer of noxious information to higher brain regions, thus contributing to the constant percept

269 ential for Lewy pathology to spread from one brain region to another.

270 The frontal eye field (FEF) is a key brain region to study visuomotor transformations because

271 d for deriving spheroids that resemble other brain regions to assemble circuits in vitro.

272 e length and strength of connections between brain regions to compute network efficiency.

273 dopamine circuit integrates signals from key brain regions to detect and respond to rewarding stimuli

274 tex is to control the signal flow in sensory brain regions to prioritize processing of task-relevant

275 ocal PV interneurons communicate with distal brain regions to regulate NSCs and hippocampal neurogene

276 e age-series datasets, comprising 17 diverse brain regions, to investigate the ubiquity and functiona

277 In vulnerable brain regions, transfusion resulted in a greater (16%) r

278 What brain regions underlie retrieval from episodic memory?

279 ithin the nucleus accumbens (NAc), a pivotal brain region underlying reward and motivation.

280 ntify the relative metabolism of 47 separate brain regions using whole-brain-normalized (WBN) and pon

281 We compared eye diameters and brain region volumes across sex and life stage, the latt

282 No single brain region was damaged in all cases.

283 scans, in the parieto-temporal and precuneus brain regions was associated with greater 18F-AV-1451 PE

284 GM volume variation in these brain regions was positively associated with the semanti

285 Furthermore, for nearly all brain regions we studied, gamma power rises as that regi

286 ecific to any particular stimulus feature or brain region, we wondered whether similar modulatory inf

287 nd serotonin transporter binding in multiple brain regions were compared by ANCOVA, adjusted for age.

288 he median signal intensities of the assessed brain regions were compared by using the Wilcoxon rank-s

289 Vulnerable brain regions were defined as those with baseline oxygen

290 years after the stroke, suggests that other brain regions were not able to fully compensate for the

291 The hippocampus is the only known brain region where physiological neurogenesis continues

292 nal and circuit hyperexcitability in several brain regions, which could contribute to sensory hyperse

293 terfere with white matter development in key brain regions, which may increase risk for emotional dif

294 ow recording of brain activity or perturbing brain regions while monkeys simultaneously make behavior

295 ddition, the method allows identification of brain regions with a high accumulation rate of Abeta, wh

296 ltimodal meta-analysis was used to highlight brain regions with both structural and functional abnorm

297 this phenomenon has largely been limited to brain regions with laminar organization of dendrites suc

298 ward prediction errors (PEs) within distinct brain regions, with effort PEs expressed in dorsomedial

299 functional contributions made by individual brain regions within this network and how these contribu

300 mine-like immunoreactivity was also found in brain regions without AmTAR1-IR (optic lobes, antennal l