ライフサイエンスコーパス: behavioral change

1 ild SHSe and to engage more families to make behavioral change.

2 p links a specific synaptic dysfunction to a behavioral change.

3 of neuronal plasticity and experience-driven behavioral change.

4 t insulae correlated with the extent of this behavioral change.

5 als can generate both transient and enduring behavioral change.

6 ir study offers opportunities for addressing behavioral change.

7 erved concomitant with the scruffing-induced behavioral change.

8 about shared decision making, self-care, and behavioral change.

9 erial response, is also the elicitor of this behavioral change.

10 cale-up of early ART, even in the context of behavioral change.

11 the marketplace for nutrition monitoring and behavioral change.

12 h-old) mice on biochemical, morphologic, and behavioral changes.

13 f a single cell type can orchestrate complex behavioral changes.

14 onding mutations produce robust synaptic and behavioral changes.

15 induce oscillations in activity, can produce behavioral changes.

16 advice, is insufficient to achieve sustained behavioral changes.

17 ein kinase C (PKC) would contribute to these behavioral changes.

18 hat plays a prominent role in stress-induced behavioral changes.

19 ruption of dynorphin function reverses these behavioral changes.

20 in gene expression and ultimately long-term behavioral changes.

21 ed negative affect-related physiological and behavioral changes.

22 ecrease the occurrence or intensity of these behavioral changes.

23 ROS and causing hMSCs to undergo cancer-like behavioral changes.

24 g-and-memory machinery to produce persistent behavioral changes.

25 followed by or results directly in favorable behavioral changes.

26 ted chromatin and myelin, but did not induce behavioral changes.

27 DO has an important role in cytokine-induced behavioral changes.

28 racterized by numerous hormonal, neural, and behavioral changes.

29 ng physical maturation, cognitive and social behavioral changes.

30 -induced appetite suppression and associated behavioral changes.

31 he RISP cKO had a sudden death, with minimal behavioral changes.

32 d gene expression that supports drug-induced behavioral changes.

33 oral stress and its impact in the associated behavioral changes.

34 uA1 plasticity to cocaine-induced persistent behavioral changes.

35 igand input, modulating signaling output and behavioral changes.

36 maze tests and simvastatin counteracted such behavioral changes.

37 opathy, neurodegeneration, and cognitive and behavioral changes.

38 activity in different brain areas to produce behavioral changes.

39 ensorimotor integration to generate specific behavioral changes.

40 able chronic mild stress (UCMS) and assessed behavioral changes.

41 tivity whose time course matched that of the behavioral changes.

42 n, but it is not clear how Pb produces these behavioral changes.

43 nding and receiving to allow recognition and behavioral changes.

44 rbating confusion or hallucinations and with behavioral changes.

45 tribute to the development of cancer-related behavioral changes.

46 therapeutic agents account in part for these behavioral changes.

47 and network-level effects that mediate those behavioral changes.

48 lia, respectively, as well as the absence of behavioral changes.

49 e facilitated by regular coaching to support behavioral changes.

50 ponse and associated cognitive and affective behavioral changes.

51 elate these to later development of discrete behavioral changes.

52 ed with neither signs of desensitization nor behavioral changes.

53 mitochondria-associated mechanisms of these behavioral changes.

54 icult to link synaptic modification to overt behavioral changes.

55 ) and whether exposure to it would result in behavioral changes.

56 lly drive cellular, circuit, and ultimately, behavioral changes.

57 of the GM, as well as host neurological and behavioral changes.

58 dividual afferents, but also to pain-related behavioral changes.

59 e of pups in affecting offsprings' long-term behavioral changes.

60 auma and measured biochemical, anatomic, and behavioral changes.

61 trong physiological responses but infrequent behavioral changes.

62 us-response processing chain facilitate this behavioral change?

63 mplaints were diminished vision (96.45%) and behavioral changes (87.24%).

64 ifested through rapid waves, or cascades, of behavioral change (a ubiquitous behavior among taxa) in

65 Significant behavioral change accompanied this expansion, and archae

66 Behavioral changes accompany and may even precede host r

67 neurons within a brain region contribute to behavioral changes across the course of acute and chroni

68 interpretations of brain function underlying behavioral changes across the lifespan.

69 d practice to ultimately facilitate positive behavioral changes aimed at preventing HIV.

70 cerebellum results in neurophysiological and behavioral changes, an effect that has been attributed t

71 PES schemes rely on incentives to induce behavioral change and can thus be considered part of the

72 The potential to explore behavioral change and clinical outcomes was limited.

73 l presentation of PLOSL: they presented with behavioral change and subsequent cognitive impairment an

74 he field of quality improvement (QI), namely behavioral change and systems redesign to improve patien

75 the effect of gene deficiency on PCP-induced behavioral changes and counteracted PCP-induced social w

76 netic differences in ovarian steroid-related behavioral changes and disorders.

77 ses control tactile hypersensitivity and the behavioral changes and impaired neurogenesis that are as

78 erapies for insomnia may cause cognitive and behavioral changes and may be associated with infrequent

79 Although the contribution of neuronal tau to behavioral changes and neuronal loss in neurodegenerativ

80 Afferent light signaling drives behavioral changes and raises new mechanistic implicatio

81 erability of adolescents to nicotine-induced behavioral changes and susceptibility to drug abuse.

82 loss in the hippocampus underpins the first behavioral changes and that there is a selective loss of

83 may be relevant both to normal cognitive and behavioral changes and the high incidence of schizophren

84 support and community resources that support behavioral change, and other health care and preventive

85 dge about soil-transmitted helminths, induce behavioral change, and reduce the rate of infection.

86 ion, hyperphosphorylated and aggregated tau, behavioral changes, and age-dependent hippocampal neuron

87 uiring coordination between gene expression, behavioral changes, and environmental conditions.

88 he connection between neurophysiological and behavioral changes, and the commonality of habitats betw

89 urons in learning and memory; however, other behavioral changes appear inconsistent with this functio

90 Prima facie, these continued behavioral changes appeared to challenge RL.

91 These behavioral changes are accompanied by abnormal dendritic

92 Behavioral changes are associated with differential trea

93 These behavioral changes are correlated with altered molecular

94 reversing methamphetamine-induced brain and behavioral changes are described, and it is argued that

95 These profound behavioral changes are hypothesized to involve a shift i

96 studied, the internal factors triggering the behavioral changes are largely unknown.

97 These behavioral changes are paralleled by the selective loss

98 plinary approach with dietary counseling and behavioral changes are required for long-term results.

99 by three brief reminders can cause long-term behavioral changes as shown by anxiety-like, nociception

100 osis in specific brain areas corresponded to behavioral changes as the disease advanced, with early i

101 ional feelings seriously, as opposed to just behavioral changes, as targets for development of new tr

102 posure have been implicated in the long-term behavioral changes associated with cocaine addiction.

103 ails to affect Akt/GSK3 signaling and induce behavioral changes associated with GSK3 inhibition as it

104 r brains and smaller teeth coevolved because behavioral changes associated with increased brain size

105 nts are insufficient to explain the range of behavioral changes associated with sleep.

106 Simvastatin may be effective in preventing behavioral changes associated with vaccination.

107 rate that we can predict complex cascades of behavioral change at their moment of initiation, before

108 rgent group effect that does not require any behavioral changes at the individual level.

109 high dose of ethanol leads to stereotypical behavioral changes beginning with increased activity, fo

110 In addition to the behavioral changes brought on by the RpoS-off state, acq

111 nic changes in amine release induce dramatic behavioral changes, but the underlying cellular mechanis

112 ecular mechanisms regulate physiological and behavioral changes, but they may also lead to important

113 These behavioral changes cannot be explained by reduced appeti

114 cting the OFC and BLA did not affect general behavioral changes caused by reduced motivation, but ins

115 pha-syn's insoluble fraction, accompanied by behavioral changes characteristic for neurodegenerative

116 tress (PRS) develop enduring biochemical and behavioral changes characteristic of an anxious/depressi

117 ASD), how genetic mutations translate to the behavioral changes characteristic of ASD remains largely

118 not replicate the full range of cellular and behavioral changes characteristic of the human disease.

119 and polyneuropathy, variably associated with behavioral changes, cognitive impairment, psychosis, sei

120 The onset of these behavioral changes coincided with irruption of noradrene

121 ndings suggest that Col9a1(-/-) mice present behavioral changes consistent with anatomic signs of OA

122 These behavioral changes corresponded to increased heat sensit

123 cal presentations, including personality and behavioral changes, dementia, depression, parkinsonism,

124 patterns, though the precise nature of these behavioral changes depends on a number of factors includ

125 The behavioral changes due to shRNA-mediated knockdown of AC

126 flux and excitation in sensory neurons, and behavioral changes due to TLR4 active metabolite, morphi

127 of neural TGF-? signaling, which results in behavioral change during infection.

128 l consequences, we investigated cellular and behavioral changes during and after reversing a mouse mo

129 , Uganda, the authors evaluated their sexual behavioral changes during approximately 3 years' follow-

130 The clinical utility of monitoring behavioral changes during intraoperative testing of subc

131 te male brain plasticity that coincided with behavioral changes during spawning season.

132 10-CXCR3 axis as target for the treatment of behavioral changes during virus infection and type I IFN

133 rgy, low-glycemic load, high-fiber diet with behavioral change education.

134 ell-targeted programs to generate meaningful behavioral change, even with a problem as complex as you

135 ains to be established whether postscreening behavioral changes extend over time for PWID and whether

136 man presented with cognitive impairment and behavioral changes followed by rapidly progressive motor

137 results describe a new mechanism underlying behavioral changes following errors.

138 eroin-induced antinociception and locomotive behavioral changes following repeated subcutaneous and i

139 erforation and the animals were observed for behavioral changes for 24 hrs following cecal ligation a

140 ss resulted in repeated episodes of dramatic behavioral changes from hyperactivity to "depression-lik

141 Translating neuronal activity to measurable behavioral changes has been a long-standing goal of syst

142 f these action potential patterns in driving behavioral changes has been unclear.

143 ength-based technique with known efficacy in behavioral change, have begun to demonstrate clinical ef

144 ronal mechanisms underlying such maladaptive behavioral changes, however, are poorly understood.

145 Using these tools, we demonstrated large behavioral changes (i.e., up to several fold increases i

146 identify the genetic mechanisms that mediate behavioral change in a natural context.

147 We determined that this behavioral change in feeding posture is not due to chang

148 erform monetary savings information to drive behavioral change in the home.

149 del much larger wounds, we uncover a dynamic behavioral change in the responding immune cells in vivo

150 o more accurately predict the propagation of behavioral change in these groups during leadership even

151 pportunity for high throughput screenings of behavioral changes in 3D over a long term in Drosophila.

152 report here G72/G30 expression profiles and behavioral changes in a G72/G30 transgenic mouse model.

153 e that temporally overlaps with the onset of behavioral changes in a mouse model of MPS IIIA.

154 Behavioral changes in adulthood were also assessed.

155 strated that single fights induced important behavioral changes in both combatants and resulted in th

156 l units affected by inflammation rather than behavioral changes in conventional animal tests of depre

157 to determine anxiety- and depression-related behavioral changes in Dagla(-/-) mice.

158 Behavioral changes in dietary intake and physical activi

159 MDA injection did not cause axonal injury or behavioral changes in either group.

160 there are relatively early radiation-induced behavioral changes in female mice and reduced MAP-2 leve

161 socioadaptive factors, such as cultural and behavioral changes in hospital units, are important in p

162 modulates normal brain activity and induces behavioral changes in humans.

163 f parasitism on host physiology would induce behavioral changes in L. littorea, which in turn would m

164 ducible promoter and examined functional and behavioral changes in mice upon reversible expression of

165 do not yet affect implementation of adaptive behavioral changes in middle-aged participants.

166 iduals use simple, robust measures to assess behavioral changes in neighbors, and that the resulting

167 rk suggests that any resultant cognitive and behavioral changes in normal or disordered states or the

168 This method was applied to behavioral changes in Parkinson disease (PD) induced by

169 tivity involving the left insula may predict behavioral changes in patients with frontotemporal demen

170 in hippocampal slice recordings paralleling behavioral changes in rats treated with a single intoxic

171 Behavioral changes in response to stressful stimuli can

172 We show that these macronutrient-induced behavioral changes in social decision making are causall

173 se protein-level changes conspire to produce behavioral changes in the cells: cells that had been rel

174 protein levels, produced antidepressant-like behavioral changes in the forced swim test, and stimulat

175 single-neuron studies of attention conflates behavioral changes in the subject's criterion and sensit

176 osensory cortex, and they suggested that the behavioral changes in these mice may be caused by a gene

177 ction, and activating engrafted cells drives behavioral changes in transplanted mice.

178 experience to trigger lasting functional and behavioral change, in a wide variety of species, includi

179 ers have reported seizures and unpredictable behavioral changes including dogs' eyes "glazing over,"

180 harmacotherapies had risks for cognitive and behavioral changes, including driving impairment, and ot

181 in circulating estradiol are associated with behavioral changes, including severe disturbances in moo

182 scence, offspring also exhibited significant behavioral changes, increased consumption of nicotine an

183 rations associated with suicide and possibly behavioral changes increasing suicide risk.

184 Recent studies show that behavioral changes induced by chronic alcohol are revers

185 f the important biochemical, structural, and behavioral changes induced by chronic exposure to drugs

186 The behavioral changes induced by Dagla deletion include a r

187 in contrast to global heterozygous mice, the behavioral changes induced by gamma2 subunit knockdown a

188 ty of 5-HT(2A) inverse agonists to normalize behavioral changes induced by glutamate receptor antagon

189 The behavioral changes induced by masking noise were accompa

190 e is known about the neurobiology underlying behavioral changes induced by short-term calorie restric

191 ly, this neural effect was related to future behavioral changes: information encoding in MPFC was cha

192 We employed a multifaceted behavioral-change intervention to improve communication

193 Behavioral change interventions have demonstrated short-

194 nergy conservation through technological and behavioral change is estimated to have a savings potenti

195 e in three generations, indicating that this behavioral change is not caused by a genetic mutation.

196 and negative (reward omission) outcomes when behavioral change is prompted by switches in reinforceme

197 Whether such information motivates behavioral change is unknown.

198 alter later waking behavior and whether such behavioral changes last for minutes, hours, or days rema

199 preweanling rat brain that may contribute to behavioral changes later in life.

200 fe on earth, and (2) environmentally induced behavioral changes lead the way in species change.

201 The disease leads to behavioral changes, lesions, loss of turgor, limb autoto

202 Behavioral change may occur through evolutionary process

203 Dogs with severe behavioral changes may be euthanized as they can represe

204 Persons who are interested and ready to make behavioral changes may be most likely to benefit from be

205 ave focused on the immediate aftermath, when behavioral changes may be the direct result of elevated

206 Education on modifiable behavioral changes may reduce the acquisition of HSV-2.

207 Bacterial reductions correlated with select behavioral changes measured in the EPM.

208 evolution of herbivory likely involves major behavioral changes mediated by remodeling of canonical c

209 However, the signal in dACC that instigates behavioral change need not itself be a conflict or diffi

210 Neither behavioral changes nor selective medial prefrontal corte

211 for motor control and show that tACS-induced behavioral changes not only result from activity modulat

212 However, behavioral changes observed during this period are often

213 a biochemical alteration that parallels the behavioral changes observed in a mouse model of prenatal

214 exists in the specific social and nonsocial behavioral changes observed in nonhuman primates with bi

215 d, an alteration that may be involved in the behavioral changes observed.

216 Alternatively, behavioral changes of contained insects can be interpret

217 s due to their temporal correlation with the behavioral changes of IJs towards the infected hosts.

218 support the concept of permanent genetic and behavioral changes of PCa epithelial cells after being e

219 Understanding behavioral changes of prey and predators based on lunar

220 any peripheral soluble receptor) induce such behavioral changes, or that they localize in relevant br

221 Demonstrations of longer-term effects, with behavioral changes persisting once increases in stress h

222 regular professional contact and supportive behavioral change programs.

223 iological, molecular, neuropathological, and behavioral changes related to SZ.

224 f vHPC GABA neurons in adult mice results in behavioral changes relevant to schizophrenia.

225 Some of these behavioral changes resemble those observed in animals la

226 contrast, age-correlated and stress-induced behavioral changes resulted in a high SERT genotype-medi

227 Adult behavioral changes resulting from early fluoxetine (Proz

228 fever and for many of the physiological and behavioral changes seen in experimental stress or anxiet

229 k-out mice does not result in several of the behavioral changes seen in the offspring of wild-type mi

230 This behavioral change should promote pathogen spread since n

231 -out of Pten in mice can cause macrocephaly, behavioral changes similar to ASD, and seizures.

232 A-mediated NR2B/Grin2b knockdown resulted in behavioral changes similar to those elicited by the Setd

233 ular animals can make both physiological and behavioral changes so as to cope with nutrient starvatio

234 ting reports as to the exact nature of those behavioral changes: some studies suggest that OT effects

235 brain that explain (1) acute ethanol-related behavioral changes, such as stimulant followed by depres

236 ssary mortality and facilitate prevention by behavioral changes that accompany knowledge of serostatu

237 ight on the physiological, morphological and behavioral changes that allowed sufficient external resp

238 echanisms may offer new avenues to avert the behavioral changes that are characteristic of many menta

239 Thus, neural signals can predict behavioral changes that are not predicted from self-repo

240 Our method identified DBS-induced behavioral changes that depended significantly on DBS si

241 Uncontrollable stressors produce behavioral changes that do not occur if the organism can

242 effect of ketamine against neurochemical and behavioral changes that follow inescapable, uncontrollab

243 rcise in mice results in antidepressant-like behavioral changes that may involve a BDNF related mecha

244 ades later, it is unknown whether neural and behavioral changes that may precipitate illness are evid

245 we discuss the anatomical, neurochemical and behavioral changes that occur during the acute and chron

246 uncovered a circuit that partly explains the behavioral changes that occur in response to unexpected

247 t with the psychological, physiological, and behavioral changes that occur when individuals are expos

248 Here we report on dietary and associated behavioral changes that occurred with the experimental t

249 as well as progressive neurodegenerative and behavioral changes that resemble LS.

250 hese fish subsequently lost their dominance, behavioral changes that were reflected in their reproduc

251 Though effective, IFN-alpha induces marked behavioral changes that, when severe, can appear indisti

252 short time spans to induce physiological and behavioral changes, the mechanisms by which these change

253 thylation and demethylation, drive long-term behavioral change through active regulation of gene tran

254 he very same brain circuits that may mediate behavioral change through interventions.

255 lia-derived chemokine ligand CXCL10 mediated behavioral changes through impairment of synaptic plasti

256 f the genome; yet the ability to attribute a behavioral change to a specific, naturally occurring gen

257 ghout the brain, making it difficult to link behavioral changes to circuit specific receptor expressi

258 rgeons reported that they were contemplating behavioral changes to improve personal well-being.

259 in the striatum as well as neurochemical and behavioral changes to methamphetamine administration.

260 ded (n = 121) weight loss program supporting behavioral changes to promote a 5% weight loss.

261 dinal research has definitively linked these behavioral changes to underlying neural development.

262 The behavioral changes triggered by GLP/G9a deficiency are s

263 mJ mice resulted in no temperature-sensitive behavioral changes, TRPM8 and/or other menthol-sensitive

264 A quantitative understanding of the behavioral changes upon metabolic challenges is key to a

265 To facilitate behavioral change, various barriers need to be addressed

266 ly demanding and difficult processes such as behavioral change via interactions with prefrontal corte

267 This behavioral change was found to be dependent on the highe

268 A wider spectrum of behavioral changes was evident in sIL-2Rbeta-treated mic

269 ons in the central nervous system to produce behavioral changes, we found that six to eight sensory n

270 the possible biochemical correlates of these behavioral changes, we screened for arousal-related and

271 These behavioral changes were abolished with topical applicati

272 These behavioral changes were accompanied by a lack of muscari

273 Unexpectedly, these behavioral changes were accompanied by a marked increase

274 These behavioral changes were accompanied by altered concentra

275 Unexpectedly, these behavioral changes were accompanied by an increase in in

276 These behavioral changes were accompanied by synaptic alterati

277 Body composition and behavioral changes were also greater in the intervention

278 physical activity and leisure-time sitting, behavioral changes were assessed across eight weeks in 6

279 These behavioral changes were associated with an overall incre

280 These behavioral changes were associated with terminal deoxynu

281 These behavioral changes were correlated with adaptations in m

282 naptic currents (mEPSCs) revealed that these behavioral changes were due to altered neuronal developm

283 Neuroinflammatory, sensory, and behavioral changes were evaluated in conjunction with ar

284 t, postnatal days (PD) 50-51, and subsequent behavioral changes were examined including: locomotor ac

285 The nature and magnitude of behavioral changes were largest in male mice, which also

286 These behavioral changes were mediated by an enhanced cortical

287 Moreover, stress-induced behavioral changes were modulated by individual WM capac

288 These behavioral changes were not associated with alterations

289 These behavioral changes were not observed in adults consuming

290 onally, a similar pattern of biochemical and behavioral changes were observed in mice born to mothers

291 Behavioral changes were predominantly associated with a

292 Behavioral changes were rescued by acute selective serot

293 These behavioral changes were strongly predicted by pronounced

294 Behavioral changes, which are common in behavioral varia

295 S) rats develop long-lasting biochemical and behavioral changes, which are the expression of an anxio

296 These behavioral changes, which precede severe neuropathology,

297 lescence is a time of significant neural and behavioral change with remarkable development in social,

298 erage population learning curves tracked the behavioral changes with high fidelity, consistent with p

299 e H3K14 hypoacetylation and a broad range of behavioral changes with translational relevance to schiz

300 ual-level, governmental databases to measure behavioral change without relying on surveys or aggregat