ライフサイエンスコーパス: anticipation

1 y control subjects) and conditions (win/loss anticipation).

2 rent motivational states (low vs high reward anticipation).

3 otine induced more NAcc reactivity to reward anticipation.

4 and time-of-day dependence of circadian food anticipation.

5 ignatures and uniquely contribute to anxious anticipation.

6 n between two distinct varieties of temporal anticipation.

7 address sampling-related bias that may mimic anticipation.

8 ask-specific anxious reactivity during shock anticipation.

9 enhancing the neural mechanisms involved in anticipation.

10 contexts as the emotional state of positive anticipation.

11 la, but not BNST, hyperactivity during shock anticipation.

12 value, saliency, and category during outcome anticipation.

13 sponded to the previous daily window of food anticipation.

14 G) during breathlessness and its conditioned anticipation.

15 utamen and paracingulate gyrus during reward anticipation.

16 and S1 exhibited activity related to reward anticipation.

17 mputation like parallel processing or motion anticipation.

18 n, whereas others selectively encoded reward anticipation.

19 ithdrawal/negative affect, and preoccupation/anticipation.

20 sk that included the periods of win and loss anticipation.

21 d by such information can boost the level of anticipation.

22 s baseline, and win anticipation versus loss anticipation.

23 ivity direction as a function of win or loss anticipation.

24 ased ventral striatum activity during reward anticipation.

25 ng different desiccant herbicides at harvest anticipation.

26 ponses, thus effectively inducing high-level anticipation.

27 us and the right hippocampus yielded to loss anticipation.

28 nt bilateral VS hypoactivation during reward anticipation (23 studies, n = 917) in patients compared

29 ional model of SVOI incorporating utility of anticipation, a form of noninstrumental motive for infor

30 rity was associated with blunted response to anticipation across a cortico-striatal circuit (striatum

31 Reward-anticipation activity in the striatum before and after t

32 hysiology implicated in spatial and temporal anticipation also contribute to the anticipation of perc

33 amygdala may regulate responses during shock anticipation and actual shock confrontation.

34 observed in response to viewing the positive anticipation and agonistic facial expressions.

35 y load, and scanned the following day during anticipation and application of inspiratory loading usin

36 s from Sample 2 (n = 48) we demonstrate that anticipation and confrontation evoke bradycardic and tac

37 of the OFC in value processing during reward anticipation and consummation.

38 mpulsive behavioral responses involving meal anticipation and consumption of large meals during situa

39 e neural correlates of secondary reward/loss anticipation and consumption using the monetary incentiv

40 power in intermetallic chemistry through the anticipation and discovery of structural complexity in t

41 in contexts presumed to induce both positive anticipation and frustration, respectively, within a sin

42 Ripening anticipation and higher carotenoid levels observed in Sl

43 combination of hypoactivation during reward anticipation and hyperactivation during reward outcome i

44 in individuals with addiction during reward anticipation and in individuals with gambling addiction

45 cterize amygdala activation during uncertain anticipation and in response to unexpected stimuli.

46 ficant correlations and modulation of reward anticipation and motor inhibition networks in hyperactiv

47 ence to indicate that the CAR is a marker of anticipation and not recovery.

48 he same negative relationship between reward anticipation and outcome as noted in the NAcc.

49 d processing in the striatum and affect both anticipation and outcome computations.

50 hypoactivations and hyperactivations during anticipation and outcome notification of monetary reward

51 tion of reward-processing disruptions during anticipation and outcome notification of monetary reward

52 eward-related brain activation during reward anticipation and outcome using fMRI (planned before data

53 Brain activation to monetary reward anticipation and outcome was evaluated with functional m

54 e on reward processing, the impact on reward anticipation and outcome, and on vulnerability for psych

55 at PFC activation during working memory task anticipation and performance may be an important biologi

56 medial prefrontal cortices (PFC) during task anticipation and performance on the working memory tasks

57 und that mesolimbic brain areas encoded both anticipation and prediction error of confidence-in remar

58 ned neural sensitivity in response to reward anticipation and receipt among youths with DBDs, with an

59 tive delay (MID) task, distinguishing reward anticipation and receipt.

60 he possibility that neural responses to loss anticipation and reward/loss consumption could be altere

61 reward task involving monetary reward anticipation and/or outcome; participants showing addict

62 onetary incentive delay task, probing reward anticipation, and a go/no-go task, probing response inhi

63 g tasks involving inhibitory control, reward anticipation, and emotion processing.

64 ogical subprocesses (e.g., reward valuation, anticipation, and motivation).

65 mation revelation and categorization outcome anticipation, and response-contingent reward processing

66 he underlying neural mechanisms of olfactory anticipation are not well understood.

67 ral prefrontal cortex) regions during reward anticipation at age 14 predicts problematic drug use at

68 ween psychosis RPS and VS BOLD during reward anticipation at all 4 psychosis RPS models and for 2 P t

69 With anticipation before accelerations, the magnitude of the

70 Here, we investigated how explicit top-down anticipation before upcoming tempo changes, a sustained

71 me, functional activation elicited by reward anticipation, behavioral inhibition, and affective faces

72 ation and the CNV in specific visual content anticipation beyond general changes in neural excitabili

73 vation of the ventral striatum during reward anticipation; blunted autonomic responding for relevant

74 Our results suggest intact reward/loss anticipation but altered reward consumption in migraine,

75 dulated the neural network underlying reward anticipation but not response inhibition, suggesting tha

76 Activity during the reward anticipation, but not the reward consumption, phase of t

77 food reward may induce the state of positive anticipation, but over time, if the food is not delivere

78 y sampling bias, but the presence of genetic anticipation cannot be excluded.

79 tterns may represent an aspect of high-level anticipation common before both tempo changes, like incr

80 hanced activity in the caudate during reward anticipation compared to placebo.

81 of interest BOLD signal change during reward anticipation compared with placebo was investigated usin

82 rticular stage of reward processing, such as anticipation, consumption, or action selection.

83 Ventral striatal (VS) activity during loss anticipation correlated negatively with negative urine s

84 superior frontal gyrus (SFG) during conflict anticipation correlated negatively with the SSRT.

85 ventral striatal neural responses to reward anticipation, decreased DA and DA metabolites in cerebro

86 e with neural response in the NAcc to reward anticipation during a monetary incentive delay task cont

87 This would be a pre requisite for potential anticipation, either by electronic systems (e.g., e-nose

88 ether, these findings suggest that states of anticipation enhance olfactory perception through phase

89 ater negative facial reactions during reward anticipation, especially of food rewards.

90 ception, while equating spatial and temporal anticipation (experiments 1 and 2), as well as target pr

91 and human electrophysiological substrates of anticipation following probabilistic memory cues that ca

92 Furthermore, by isolating object-identity anticipation from spatial and temporal anticipation, our

93 tions are present in human NAc during reward anticipation, highlighting the translational potential o

94 epeat expansions are associated with genetic anticipation (ie, earlier disease onset in successive ge

95 e function and neural activity during reward anticipation in 27 participants including healthy volunt

96 s were apparent after isochronous beats with anticipation in all conditions, generally replicating pa

97 acterized the regional processes of conflict anticipation in association with intersubject variation

98 nectivity among regions involved in win/loss anticipation in depressed individuals with bipolar disor

99 rtive evidence for the occurrence of disease anticipation in families carrying a C9orf72 repeat expan

100 provide clinical-based evidence for disease anticipation in families carrying a C9orf72 repeat expan

101 stand the significance of circadian-mediated anticipation in stomatal opening, we have generated SGC

102 plicates regional neural responses to reward anticipation in the pathogenesis of several psychiatric

103 During reward anticipation, individuals with substance and gambling ad

104 We tested this during threat anticipation induced by a well-established fear conditio

105 verall, these results indicate that top-down anticipation influences ongoing auditory beat processing

106 the neurobiological implementation of event anticipation is based on a different, simpler and more s

107 superior frontal gyrus (SFG) during conflict anticipation is positively correlated with the capacity

108 Anticipation is the ability to accurately predict future

109 ns according to the goals for which temporal anticipation is used.

110 eol, a pentacyclic meroterpenoid, led to the anticipation, isolation, and synthesis of isobruceol.

111 Participants made anticipation judgements after being presented informatio

112 ivation during all anticipation periods (win anticipation + loss anticipation) versus baseline, and w

113 These results uncover that a value-anticipation mechanism in vmPFC declines in aging, and t

114 showed that right SFG activation to conflict anticipation mediates the correlation between SSRT and m

115 e that controls movement times and a sensory anticipation module that anticipates external events.

116 re functional brain activation during reward anticipation, motor inhibition and viewing emotional fac

117 xperiment 1, our model replicated the larger anticipation observed for longer stimulus intervals and

118 The amount of anticipation observed in ADN enhances the precision of t

119 necting two models we replicated the smaller anticipation observed in human joint tapping with bi-dir

120 to accept or forgo a current kidney offer in anticipation of a future high-quality offer.

121 eds facilitates preprocedural evaluation and anticipation of a higher level of postprocedural care.

122 Our analysis revealed that in anticipation of a picture to be remembered, alpha power

123 in the nucleus accumbens in response to the anticipation of a reward, while cumulative depression se

124 pecific changes in visual cortex activity in anticipation of a stimulus.

125 Anxiety results from the anticipation of a threat and might be associated with po

126 uncertainty-driven belief updating and rigid anticipation of a volatile environment.

127 nd active restraint, as stem cells "idle" in anticipation of activation, proliferation, and different

128 and an experimental paradigm focusing on the anticipation of actively touching an animate (human hand

129 In anticipation of actual, potential or perceived ethical c

130 ntly inherited disease that exhibits genetic anticipation of affected progeny due to expansions of a

131 three species of great apes reliably look in anticipation of an agent acting on a location where he f

132 JNJ-42165279 increased the activation during anticipation of an aversive interoceptive event in the a

133 atellite-based fishing activity to show that anticipation of an impending no-take marine reserve unde

134 In anticipation of an intervention trial aimed to reduce ch

135 umulation, which might reflect ADHE-mediated anticipation of anaerobic survival.

136 xamine how brain activation corresponding to anticipation of and performance on easy vs. difficult wo

137 ificantly by 27%, 38%, 34%, respectively, in anticipation of anesthetic induction (Figure; p<0.05).

138 described Hb as a brain nucleus activated in anticipation of aversive outcomes.

139 btype that showed elevated activation to the anticipation of both gain and loss, an intermediate resp

140 ly, incentive hope may involve mechanisms of anticipation of both reward and threat, explaining why a

141 tion changes the pattern of microsaccades in anticipation of brief stimuli.

142 showed a loss of ability to open stomata in anticipation of daily dark-to-light changes and of circa

143 en reorient during the night to face east in anticipation of dawn.

144 care and withdraw life-sustaining agents in anticipation of death.

145 withdrawal currently and 67.5% terminally in anticipation of death.

146 surveillance, quarantine, risk modeling, and anticipation of disease emergences-all rely on knowledge

147 investment in immunity will be optimized in anticipation of disease risk.

148 fic hardwiring of NLR expression patterns in anticipation of distinct challenges.

149 ateral prefrontal cortex associated with the anticipation of drug-related rewards (cigarette puff).

150 proinflammatory and prothrombotic states in anticipation of either injury or hemorrhage during a thr

151 ed as apprehension cued by the occurrence or anticipation of elevated spaces.

152 ependent expression of a novel metabolism in anticipation of environmental stress, while minimizing e

153 ime consuming, they should be carried out in anticipation of epidemics rather than in response to the

154 ight caudate and left anterior insula during anticipation of erotic relative to monetary rewards in h

155 o species show reduced UV light avoidance in anticipation of evening onset relative to females.

156 tcomes; (ii) encourage research that enables anticipation of feasible recovery states and identifies

157 immunity (generic antibacterial activity) in anticipation of feeding and mating.

158 lamus, the activity of which also changes in anticipation of feeding onset.

159 switch that enhances oocyte proteostasis in anticipation of fertilization may be conserved in other

160 Affordable Care Act reduces DSH payments in anticipation of fewer uninsured patients and therefore d

161 oot growth under different light conditions, anticipation of flowering under long-day conditions, and

162 justments of cognitive control that occur in anticipation of forthcoming cognitive control demands (C

163 Perception is guided by the anticipation of future events.

164 em and show that the experimentally observed anticipation of future head directions can be explained

165 lso by instrumental or strategic motives, in anticipation of future misbehavior.

166 cts that are only possessed (i.e., saved) in anticipation of future needs.

167 to people who are laymen to the EPR field in anticipation of future progress and broad application of

168 We measured neural responses during the anticipation of guilt about committing potential everyda

169 l role for the anterior insula in coding the anticipation of guilt regarding potential moral transgre

170 s was extremely grim; her family gathered in anticipation of her death as she underwent four operatio

171 s reflect stronger investment in immunity in anticipation of higher disease risk, and that winged aph

172 del validation and performance assessment in anticipation of human breast cancer patient studies.

173 lycan-sequon combinations that may allow the anticipation of immune escape variants.IMPORTANCE The En

174 ced control over behavior by both increasing anticipation of impending rewards and making reward cues

175 ically adjusted the timing of their calls in anticipation of jamming.

176 ty will conserve glucose for maternal use in anticipation of lactation.

177 ts an adaptive increase of decision bound in anticipation of maladaptive reductions in sensitivity to

178 immune function in their copulatory organ in anticipation of mating by using feeding cues.

179 as courtship and/or feeding, we propose that anticipation of mating-associated infection in females m

180 ed constitutively under stress conditions in anticipation of melanin synthesis.

181 OLD response in the mesolimbic system during anticipation of monetary reward and an alcohol infusion.

182 level-dependent (BOLD) signal change during anticipation of monetary reward using the monetary incen

183 to activation of the ventral striatum during anticipation of monetary reward.

184 nactive at rest but change their activity in anticipation of movement, and that the intervention fail

185 further show differential activation in the anticipation of natural versus monetary rewards with the

186 In anticipation of near-term application to human healthcar

187 ure revision of old natural products and the anticipation of new ones.

188 eased neural response in the NAcc during the anticipation of nondrug rewards.

189 n measurement may impede quality assessment, anticipation of penalties, and quality improvement.

190 temporal anticipation also contribute to the anticipation of perceptual identity, as follows: attenua

191 smaller and 1 to 3 positive nodes; however, anticipation of PMRT may lead to delay or omission of re

192 activation in putamen and insula during the anticipation of potential losses; and increased left inf

193 e convenience, tolerability, simplification, anticipation of potential new drug interactions, pregnan

194 us, and superior occipital cortex during the anticipation of potential rewards; reduced activation in

195 bjective reports of state anxiety during the anticipation of public speech, a validated experimental

196 ps wore the device on their wrist during the anticipation of public speech, and were given the cover

197 ishment rather than reward and represent the anticipation of punishment or the motivation for avoidan

198 : reward uncertainty, expected reward value, anticipation of punishment, and unexpected reward and pu

199 vity in the ventrolateral PAG (vlPAG) during anticipation of resistive loading, with activity in the

200 magnetic stimulus by seeking out a target in anticipation of reward (food).

201 lated positively with the neural response to anticipation of reward in the nucleus accumbens.

202 enhancing ventral striatum responses to the anticipation of reward.

203 reduced ventral striatal activity during the anticipation of reward.

204 ication, as indexed by pupillary dilation in anticipation of reward.

205 orms of learning and behavior, including the anticipation of rewarding events.

206 by an idea in behavioral economics that the anticipation of rewards is itself attractive, we hypothe

207 indicates that incentive value depends on an anticipation of rewards within a given context.

208 PFC and ventral striatum interact during the anticipation of rewards.

209 oncerns about its impact on health care with anticipation of rising cancer incidences.

210 o look at potential applications in terms of anticipation of seizures.

211 identity-based anticipation, while equating anticipation of space, time, motor responses, and task r

212 In anticipation of subsequent taxonomic changes being compi

213 ts were admitted to the ward for bed rest in anticipation of surgery and were positioned on the side

214 Patients were admitted to the ward in anticipation of surgery.

215 like illnesses, altering staff scheduling in anticipation of surges, and securing sufficient personal

216 l the C-terminal domain of RNA polymerase in anticipation of termination.

217 In anticipation of the "first-in-human" heart xenotransplan

218 Neural activity in anticipation of the animate target significantly correla

219 Anticipation of the establishment of obesity among low s

220 ce to implement physiological adaptations in anticipation of the forthcoming winter, but also exploit

221 In anticipation of the increasing relevance of genetic test

222 n rhythm (2-5 h) power that uniquely enabled anticipation of the LH surge at least 2 days prior to it

223 dies and their remaining projections mediate anticipation of the lights-on and lights-off transitions

224 ases the predictive grip force modulation in anticipation of the load force.

225 In anticipation of the proliferation of time series data se

226 PAs) often aim to maintain connectivity, but anticipation of the scale and extent of climatic impacts

227 sought out such unusual sensory stimulation, anticipation of the sensory outcome was encoded in the s

228 ertension, and provide a reserve of blood in anticipation of the significant blood loss associated wi

229 Our results show that anticipation of the specific identity of a forthcoming p

230 fetal GR primes the activity of PPARalpha in anticipation of the sudden shifts in postnatal nutrient

231 tained conditioned physiological response in anticipation of the unconditioned stimulus during threat

232 In anticipation of their potential expansion into clinical

233 expression with a 24 h period, enabling the anticipation of these events.

234 udes the formation of fear memories when the anticipation of threat demands learning about temporal o

235 contributions to affective processing during anticipation of unpredictable, painful shock.

236 In anticipation of upcoming replacement gene therapy trials

237 sis of congenital heart disease (CHD) allows anticipation of urgent neonatal treatment and provides a

238 ls decreased the size of their braincases in anticipation of winter by an average of 15.3%.

239 irtual crossmatch (XM) strategies, a correct anticipation of XM results is required for appropriately

240 Interspersed short fixation trials reduced anticipation on long pursuit trials, suggesting that fix

241 During loss anticipation, on the other hand, decreased activation wi

242 ls engaged in the task, and those reflecting anticipation or behavioral choices specifically in neuro

243 spiking code that does not map to states of anticipation or reward.

244 ntity anticipation from spatial and temporal anticipation, our results suggest a role for alpha atten

245 We compared anticipation performance and electrophysiological activi

246 We compared coincidence-anticipation performance in normal vision and stroboscop

247 participants failed to maintain coincidence-anticipation performance in the normal vision condition

248 s by contrasting brain activation during all anticipation periods (win anticipation + loss anticipati

249 er being primed on the content of the video (anticipation phase).

250 represents a neural correlate of behavioral anticipation, predictive activity that helps to coordina

251 I) ventral striatum activation during reward anticipation (primary outcome) as compared to placebo (b

252 obiological mechanisms may underlie aberrant anticipation processes in BDD and MDD, and that distinct

253 ive disorder in neural mechanisms underlying anticipation processes.

254 ial prefrontal response during logo-elicited anticipation (r = -0.44).

255 tions at rest, whereas during breathlessness anticipation, reduced functional synchronicity was seen

256 S) or the anterior insula (AI) during reward anticipation regardless of motivated response and to the

257 Anticipation-related and task-related brain activation w

258 neural activation, AMPT decreased the reward anticipation-related neural activation in the anterovent

259 nding to this vulnerable moment in time when anticipation-related neural signals may be present.

260 Lithium differentially modulates the anticipation relative to the learning of rewards.

261 es of the motor system, we propose that beat anticipation relies on action-like processes consisting

262 l electroencephalography (iEEG) to show that anticipation resets the phase of delta oscillations in p

263 During action anticipation, reward and effort expectations were integr

264 opamine-like characteristics lacked a reward anticipation signal and showed a smaller response to rew

265 in frontostriatal connectivity during reward anticipation significantly correlated with reduction in

266 We suggest that such boosted anticipation significantly drives risk-seeking behaviors

267 ntations of experienced and observed fearful anticipation spontaneously and following an empathy prom

268 tive function in the so-called preoccupation/anticipation stage involve the dysregulation of key affe

269 During the preoccupation/anticipation stage, individuals with AUD who are abstine

270 s.SIGNIFICANCE STATEMENT An effective threat anticipation system is crucial to survival across specie

271 atients and 20 matched controls completed an anticipation task during an fMRI scan.

272 atum activity during performance of a reward anticipation task in both species, using fMRI in humans

273 Phenomena like the anticipation tendency can be explained by delay-coupled

274 The anticipation tendency increases with longer stimulus per

275 Consequently, there is much anticipation that NGS technologies may be harnessed in t

276 f the efficacy of deferoxamine mesylate with anticipation that the drug would significantly improve t

277 y enables us to hold onto past sensations in anticipation that these may become relevant for guiding

278 t unknown, however, how the brain encodes in anticipation the flexible, rich repertoire of novel task

279 During breathing load anticipation, the RBN group, relative to CW, showed incr

280 tor to the adjacent field are highlighted in anticipation this will yield advances not possible from

281 blunted activation in the NAcc during reward anticipation (time 1 to time 2: beta = -0.26, P = .04; t

282 ole of the right SFG in translating conflict anticipation to the control of impulsive response, which

283 ow that in each sample when going from shock anticipation to the moment of shock confrontation neural

284 These intrinsic clocks allow stable anticipations to light-dark (diel) cycles.

285 variation of NAcc responses to gain and loss anticipations using fMRI.

286 loss anticipation) versus baseline, and win anticipation versus loss anticipation.

287 nticipation periods (win anticipation + loss anticipation) versus baseline, and win anticipation vers

288 hat greater activation during breathing load anticipation was associated with past bulimic symptom se

289 Win anticipation was characterized by dense connectivity of

290 These analyses showed that loss anticipation was characterized by denser top-down fronto

291 ect link between DAT availability and reward anticipation was detected within the mesolimbic pathway

292 ated ventral striatal response during reward anticipation was observed following ketamine relative to

293 Greater NAcc activation during anticipation was significantly associated with lower NAc

294 all participants, DS activity (during reward anticipation) was positively associated with putamen vol

295 defensive responding during uncertain threat anticipation whereas the amygdala may drive responding u

296 4-Hz oscillations predominate during reward anticipation, which can effectively trigger neurostimula

297 s that lithium might reverse dampened reward anticipation while reducing overactive reward updating i

298 l signatures of memory-guided identity-based anticipation, while equating anticipation of space, time

299 utator phenotypes produced a form of genetic anticipation with regard to aging, where the longer a li

300 During reward anticipation, youths in the overall DBD group (with and