ライフサイエンスコーパス: responsivity

1 y hypersensitivity (also called sensory over-responsivity).

2 survival [DFS]) stratified by anti-HER2 Th1 responsivity.

3 ntegrate social information to modulate fear responsivity.

4 ce striatal, insular, and Rolandic operculum responsivity.

5 ic suppression of net motor excitability and responsivity.

6 ower function decrease following the peak of responsivity.

7 ssion could contribute to the reduced L-DOPA responsivity.

8 r plants sense temperature changes with high responsivity.

9 d is implicated in anxiety, pain, and stress responsivity.

10 n the visible light spectrum with high photo responsivity.

11 85~88% (VIS) and 26~40% (NIR) of theoretical responsivity.

12 35965, or CRF and were evaluated for stress responsivity.

13 tile stimulation and positively with tactile responsivity.

14 played significantly reduced HPA stress axis responsivity.

15 of HC function combined with a high frontal responsivity.

16 uring, but not after, the return of integrin responsivity.

17 ting palatable food contributes to increased responsivity.

18 r whether segmentation is an artifact of cue responsivity.

19 on nucleus accumbens medial shell and stress responsivity.

20 e used to endow insulin analogs with glucose responsivity.

21 ern is designed optimally for maximizing the responsivity.

22 ble to near-infrared photodetector with high responsivities.

23 logarithmic fit characterized by exceptional responsivity (20.89 Omega/pg mL(-1)), reproducibility (R

24 nm), an indirect bandgap, photoconductivity (responsivity = 4 +/- 1 mA/W), and stability for months i

25 h current gain (53.6), bandwidth (7 GHz) and responsivity (9.5 A/W) using a single crystalline indium

26 functional connectome in relation to reward responsivity across a population of adults with heteroge

27 creased baseline LC activity enhances neural responsivity across cortex and widening of attention to

28 We show distinct profiles of responsivity across the anterior-posterior axis of PVT d

29 rnal environmental factors, including stress responsivity, addict mindset, and social setting.

30 showed blunted behavioral and cardiovascular responsivity after control infusions, which was normaliz

31 14-layer structures, MoS2 offers the highest responsivity among graphene, h-BN, and MoS2 devices and

32 fects were partially driven by reductions in responsivity among the latter groups.

33 e combination of ultra-broad bandwidth, high responsivities and fast operating speeds affords new opp

34 atter, however, exhibit significantly higher responsivities and quantum efficiencies, with similar da

35 sm that has important consequences for light responsivity and activation.

36 oid (eCB) system critically regulates stress responsivity and anxiety throughout the life span.

37 tonergic changes in brain regions modulating responsivity and behavioral impairment were both prevent

38 zed here for the first time, show low visual responsivity and broad orientation selectivity.

39 ally driven by group differences in baseline responsivity and by opposite changes in neural activatio

40 Adaptation with small gratings reduced responsivity and caused tuning to shift away from the ad

41 e antennas have great promise for increasing responsivity and detection sensitivity of conventional p

42 sistors as a function of temperature and the responsivity and detectivity of the mid-IR photoconducto

43 The combination of both high responsivity and fast response times makes these photode

44 baseline LC activity globally dampens neural responsivity and is associated with adaptive deployment

45 nsible for the temperature dependence of the responsivity and NEP of the GaN HEMT are also analyzed t

46 The THz responsivity and noise equivalent power (NEP) of the dev

47 The current responsivity and polarity-switching wavelength of the de

48 ir heightened hypothalamic-pituitary-adrenal responsivity and reduced stress-induced cognitive impair

49 reflected general antidepressant medication responsivity and related differentially to a repetitive

50 phene conductive photodetector with improved responsivity and response speed.

51 ical application in photodetectors with high responsivity and selectivity.

52 F]fallypride and d-amphetamine to measure DA responsivity and separately completed the effort expendi

53 ndous individual differences exist in stress responsivity and social defeat stress is a key approach

54 Furthermore, power dependence of both responsivity and specific detectivity shows similar tren

55 h the importance of SKA2 for cortisol stress responsivity and the development of PTSD and provide fur

56 the 2D MoS2 with metallic MoS2 showing high responsivity and the semiconducting phase exhibiting hig

57 postfertilization to alter offspring stress responsivity and, using zygote microinjection of the nin

58 MOR variants that may predict altered opioid responsivity and/or dependence in this subset of individ

59 selective detection ( approximately 5-8 V/W responsivity) and sensitivity performances (signal-to-no

60 estimation of insulin sensitivity, beta-cell responsivity, and hepatic insulin extraction from a mixe

61 The simple fabrication, broad responsivity, and high discrimination capacity of this t

62 d by increased stress-induced locomotion and responsivity, and reduced risk-aversion/fearfulness.

63 , stress-induced potentiation of amphetamine responsivity, and the increase in DA associated with str

64 ypically due to early absorption cutoff, low responsivity, and/or large dark/noise current under bias

65 These responsivities are created by complex optical interferen

66 adolescents who show elevated reward region responsivity are at increased risk for initial onset of

67 The specific detectivity and the responsivity are both enhanced by 322%.

68 y, risk-taking behavior, and elevated stress responsivity are prominent symptoms of mania, a behavior

69 ptimal when the laser energy and fluorophore responsivity are related by the golden ratio.

70 The resulting devices exhibit responsivities as high as 2,500 A/W (25,000 S/W) for vis

71 hotodetector arrays were achieved with photo responsivity as high as 0.32 A/W.

72 nput optical power as low as 6.2 pW with the responsivity as high as 2.4 x 10(7) A/W when operating a

73 This enables a voltage responsivity as high as 23,000 mV mW(-1) with a low-freq

74 ugh photoconductive gain mechanisms, achieve responsivity as large as 10(7) A W(-1) and a detectivity

75 tate EEG signature indexed prefrontal neural responsivity, as measured by concurrent transcranial mag

76 llel charge-voltage conversion and different responsivity at each pixel induces extra readout and pat

77 hibit 350% enhancement of the optoelectronic responsivity at microwatt power levels.

78 eshold voltage, the device showed fairly low responsivities but fast response times, as well as a con

79 tation produced indistinguishable effects on responsivity but caused opposite shifts in tuning prefer

80 The enhancement of responsivity can reach a maximum of 78% to 442 nm illumi

81 The exaggerated responsivity characteristic of specific phobia is limite

82 The high responsivity, combined with an extremely low electrical

83 ths, with three orders of magnitude enhanced responsivity compared to pristine graphene photodetector

84 hat heightened dopaminergic prediction error responsivity contributes to adolescent reward seeking.

85 closed-loop (CL) piezo controller design for responsivity-corrected AFM-IR imaging.

86 over 1-year follow-up, but reward circuitry responsivity did not predict future overweight/obesity o

87 However, aberrant reward region responsivity did not predict initial unhealthy weight ga

88 ship between insulin secretion and beta-cell responsivity differed significantly between genotypes.

89 ivity to food cues but reduced reward-region responsivity during food intake.

90 take was not significantly related to neural responsivity during palatable food intake.

91 nal surfaces that exhibit complex multimodal responsivity, e.g., to light, heat, pH, etc., although h

92 tional care in infancy show reduced HPA axis responsivity, even years after they are placed in suppor

93 o those without demonstrated heightened fear responsivity, exaggerated and prolonged corticosterone r

94 at of commercial silicon photodiodes, with a responsivity exceeding 0.25 A/W for each channel.

95 has been achieved and shows an extraordinary responsivity exceeding 2600 A W(-1) with fast photorespo

96 in damage, are unable to show any behavioral responsivity, expose the limits of the neuromuscular sys

97 sic emotional operations (e.g., recognition, responsivity, expression), through to high-order, comple

98 ry was associated with reduced reward region responsivity, extending results from studies that compar

99 ices, fortunately, leads to close-to-optimal responsivity for a wide range of 2D flakes.

100 sistance with temperature results in limited responsivity for absorbed power.

101 inear regression was used to estimate neural responsivity for each individual, namely the capacity to

102 This is accompanied by a shift in cortical responsivity from sensory (posterior) regions to executi

103 to the mid-infrared range, with mid-infrared responsivity higher than 1 A W(-1), as required by most

104 t a systematic study of the intrinsic motion responsivity in 2D nanomechanical systems using a Fresne

105 Analyses revealed blunted brain responsivity in alcoholic compared to nonalcoholic group

106 ss dark current density while retaining high responsivity in an ultrasensitive nonfullerene OPD.

107 pirical insights into atypical social reward responsivity in ASD.

108 oattractant protein-1, together with reduced responsivity in diastolic BP, heart rate, and cortisol,

109 ate at signal modulation surpassing -100 dB, responsivity in excess of -600 dB.V(-1) and switching ra

110 k for obesity show elevated reward circuitry responsivity in general, coupled with elevated somatosen

111 , is related to a reduction in reward-region responsivity in humans, paralleling the tolerance observ

112 up, thus suggesting heightened noradrenergic responsivity in line with compromised neural gain.

113 histone acetylation of Cdk5 regulates stress responsivity in male mice, we hypothesized that such a m

114 ng that PDE11A4 negatively regulates lithium responsivity in mice suggests that the PDE11A SNPs ident

115 expression is sufficient to increase lithium responsivity in mice.

116 2 calcium imaging was used to assess glucose responsivity in neurons isolated from the MAN and single

117 We propose that maintaining neural responsivity in older age confers benefits in task-relat

118 Lithium responsivity in patients with bipolar disorder has been

119 d efficient light absorption, enabling large responsivity in photodetectors.

120 Understanding of exaggerated responsivity in specific phobia-its physiology and neura

121 hese findings suggest that heightened reward responsivity in the brain to food and sexual cues is ass

122 These data demonstrate abnormal stress responsivity in the MAM model of schizophrenia and sugge

123 ci of dysconnectivity associated with reward responsivity in the nucleus accumbens, the default mode

124 The greater aldosterone responsivity in women may be a mechanism for this sex ef

125 and consistent with altered offspring stress responsivity, including increased expression of glucocor

126 little dopamine signaling and reward region responsivity increases risk for overeating, suggesting q

127 little dopamine signaling and reward region responsivity increases risk for overeating.

128 intake is positively associated with neural responsivity independent of excess adipose tissue.

129 Parental responsivity, independent of the use of physical discipl

130 Insulin sensitivity and beta-cell responsivity indices were estimated using the oral minim

131 beta-Cell responsivity indices were estimated with the oral C-pept

132 Poverty status and neural responsivity interacted statistically to predict inflamm

133 The peak responsivity is 0.5 AW(-1).

134 oresponse from 532 to 1850 nm with ultrahigh responsivity is achieved.

135 The improved responsivity is attributed to optical transitions betwee

136 ngs show that a relative reduction in neural responsivity is correlated to the behavioural effect.

137 hich the medial preoptic area regulates this responsivity is described.

138 The high responsivity is enabled by photoinduced charge transfer

139 hermally responsive nanoparticles, where the responsivity is endowed by a responsive polymeric corona

140 Based on clinical observations, sensory over-responsivity is hypothesized to reflect atypical neural

141 charge/discharge, and reliable environmental responsivity is made by using multi-scale conjugated blo

142 lications because of their high cost and low responsivity (<0.2 A W(-1)).

143 However, these individual differences in responsivity may result from a period of overeating.

144 These results indicate that neural responsivity measures relate to naming accuracy and flui

145 disrupted within the IT cortex, whereas face responsivity (neutral faces > scrambled faces) and face

146 than 430 MOmega K(-1) below 6 K), leading to responsivities of 1 x 10(10) V W(-1), a figure that is f

147 ntact disorder to modulate the light and gas responsivities of the device; unexpectedly, it multiplie

148 todetection in the visible range, in which a responsivity of 0.16 mA/W was achieved at 532 nm.

149 , 25% quantum efficiency (corresponding to a responsivity of 0.31 A/W), 3 GHz bandwidth, and 30 nA da

150 tectors exhibit room-temperature (300K) peak responsivity of 0.6 A/W at ~1.7 mum, corresponding to a

151 a cut-off wavelength at ~1.7 mum and gives a responsivity of 1.5 AW(-1) and implied detectivity of 6.

152 strate a high open-circuit voltage of 1.3 V, responsivity of 10.1 A W(-1) , specific detectivity of 9

153 For instance, the responsivity of 10.9 A/W was observed with the gain of 7

154 The photovoltaic peak responsivity of 11.6 uA/W is obtained corresponding to v

155 tion of 12.43 fm Hz(-1/2) and an outstanding responsivity of 170 nV fm(-1), which is comparable to th

156 toresistive dual behaviour, with a very high responsivity of 2.5 x 10(5) A W(-1).

157 room temperature that exhibits a remarkable responsivity of 2900 VW(-1), detectivity of 1.1 x 10(9)

158 ate interfacial design, a record high device responsivity of 4.5 x 10(3) A/W at 7 V is achieved, indi

159 hotodetector exhibits a peak extrinsic photo-responsivity of 518, 30, and 2.2 mA W(-1) at 3.4, 5, and

160 frared photo-transistor is fabricated with a responsivity of 97.5 A W(-1) and detectivity of 1.17 x 1

161 Here we show that the improved responsivity of a laser gyroscope caused by operation ne

162 ow dark current of a photodiode and the high responsivity of a photoconductor ( approximately 721-1,0

163 A responsivity of approximately 10(7) A W(-1) is achieved.

164 ectral response and find a constant spectral responsivity of between 500 and 1,500 nm.

165 re, we compared the influence of 5-HT on the responsivity of brain dynamics during facial-emotion pro

166 n the light absorption layer can improve the responsivity of graphene photodetectors to approximately

167 However, the low responsivity of graphene-based photodetectors compared w

168 However, the responsivity of graphene-based photodetectors has so far

169 neurochemically mediated differences in the responsivity of key 'limbic' regions (including amygdala

170 a 'junk-food' diet, consistent with greater responsivity of mesolimbic circuits in obesity-susceptib

171 Then, utilizing thermo-responsivity of methylcellulose (MC), we developed a cyt

172 s of as little as nW cm(-2) intensity with a responsivity of more than 300 A W(-1).

173 weight gain is associated with a decrease in responsivity of regions associated with taste and reward

174 3 year follow-up period show an increase in responsivity of reward and attention regions to a cue si

175 l that obese versus lean humans show greater responsivity of reward and attention regions to palatabl

176 d that this overeating may further attenuate responsivity of reward circuitry in a feedforward proces

177 Results show that hyper-responsivity of reward circuitry increases risk for futu

178 otypes per a multilocus composite, show less responsivity of reward regions that primarily rely on DA

179 gained body fat did not show a reduction in responsivity of reward regions to milkshake receipt or c

180 shake receipt and a simultaneous decrease in responsivity of reward regions to milkshake receipt vers

181 on regions to palatable food cues, but lower responsivity of reward regions to palatable food receipt

182 roperties, they provide a way to enhance the responsivity of sensors.

183 ll depolarization and regulates the temporal responsivity of the cells.

184 of these channels in regulating the temporal responsivity of the cells.

185 ualification, such as linearity and spectral responsivity of the detection system, spectral irradianc

186 The responsivity of the hypothalamus and the crosstalk of th

187 ith subjective ratings of itchiness, and the responsivity of the left BA44 reflected individual diffe

188 Remarkably, the overall responsivity of the population remained highly consisten

189 The pH responsivity of the resulting nanoagents (gamma-SD/PLL)

190 The weaker responsivity of the ventral striatum to reward anticipat

191 model-based fMRI analysis revealed a reduced responsivity of the ventral striatum to reward predictio

192 No differences were found regarding the responsivity of the ventral striatum to the receipt of a

193 We probed the visual responsivity of the ventral visual cortex of an agnosic

194 on-graphene conductive photodetector shows a responsivity of up to 10(5 )A/W at room temperature (27

195 ngth-specific detection, with an input power responsivity of up to 38 V W(-1), referenced to incident

196 s (statistically) robust, corresponding to a responsivity of ~0.45 zeptomoles of dsDNA/spot.

197 -4Cl, are presented, showcasing a remarkable responsivity over 0.5 A W(-1) in the NIR spectral region

198 o induced a pronounced increase in beta-cell responsivity (PHItotal) that was largely due to an enhan

199 Owing to their tunable bandgaps, the peak responsivity position and photoresponse edge of Se(x) Te

200 emerged, with delta and beta band (3/15 Hz) responsivity prevailing in the right hemisphere and thet

201 Nevertheless, the responsivity profile of the ensemble remained fixed as d

202 recise fashion that early childhood parental responsivity prospectively and independently predicts st

203 Responsivity R = 10(6) A W(-1) and detectivity D* = 3.8

204 Meanwhile, the peak responsivity (R) and detectivity (D*) reach up to 270 mA

205 d hypothalamic-pituitary-adrenal stress axis responsivity, recapitulating phenotypes previously repor

206 b and chemotherapy), depressed anti-HER2 Th1 responsivity (recurrence, 2 of 25 [8%], vs nonrecurrence

207 um chow for 3+ weeks exhibit greater lithium responsivity relative to wild-type (WT) littermates in t

208 , cognition, emotional regulation and stress responsivity relevant to addiction vulnerability.

209 r controlling for confounding, anti-HER2 Th1 responsivity remained independently associated with recu

210 elper type 1 response metrics were anti-HER2 responsivity, repertoire (number of reactive peptides),

211 as GeS, which display the largest band edge responsivities reported so far.

212 ons, combined with excess subcortical limbic responsivity, resulting in the selection of foods most c

213 A high responsivity Rv of 15.5 and 2.7 kV/W and a low NEP of 0.

214 e for experimental investigations into their responsivity, sensitivity, and roles in sensory acquisit

215 nse food results in attenuated reward-region responsivity specifically to that food, which suggests t

216 gest that distributed, multi-component brain responsivity supports cognition across the adult lifespa

217 ab plus chemotherapy-treated patients by Th1 responsivity, Th1-nonresponsive patients demonstrated a

218 index of vulnerability for low reward region responsivity than individual genotypes.

219 evice with significantly larger photocurrent responsivity than previously reported antenna-based geom

220 ship between a dimensional measure of reward responsivity (the reward sensitivity subscale of the Beh

221 ) (pTEGMA) that exhibits significant thermal responsivity; the resulting hydrogels collapsed by up to

222 advantages of the exceptional-point-enhanced responsivity, they do show that the fundamental sensitiv

223 lectronic nose system, which showed improved responsivities to low molecular weight alcohols compared

224 ession in 16 SLC6A4 genotyped marmosets with responsivity to 5HT(2A) antagonism during the human intr

225 s passenger strand a potential biomarker for responsivity to a mir-135-based therapeutic.

226 Moreover, these hydrogels display responsivity to a multitude of external stimuli, includi

227 hertz sensors are typically limited in their responsivity to a narrow slice of the incident field pro

228 with decreased cardiovascular and behavioral responsivity to acute stressors in humans that may incre

229 and its cognate DNA exhibits dose-dependent responsivity to an analyte.

230 unctional MRI tasks, which measured amygdala responsivity to angry facial expressions and ventral str

231 evaluation or, in the case of PC metastases, responsivity to antihormone therapy.

232 es of the high trait anxious phenotype: high responsivity to anxiety-provoking stimuli and an exagger

233 the high trait-like anxiety phenotype: high responsivity to anxiety-provoking uncertain threat and r

234 c field significantly reduces the biological responsivity to blue light of the cryptochrome receptor

235 ty to anxiety-provoking uncertain threat and responsivity to certain conditioned threat.

236 lly indicative of altered norepinephrinergic responsivity to changes in this aspect of environmental

237 nty-one days after FLX treatment, behavioral responsivity to cocaine (0, 2.5, 5, 10, or 20 mg/kg) con

238 s, and propelled by both impulsivity and the responsivity to cocaine-linked cues ('cue reactivity').

239 alters future behavioral strategy as well as responsivity to conventional anxiolytic agents.

240 erotonin neuron membrane characteristics and responsivity to CRF.

241 p period experienced an increase in striatal responsivity to cues for palatable foods compared to tho

242 rovide evidence that differential behavioral responsivity to E2-WD in PMD reflects intrinsic differen

243 Single neurons exhibited diverse mixtures of responsivity to each of the three actions and these mixt

244 Weight gain leads to reduced reward-region responsivity to energy-dense food receipt, and consumpti

245 min, during which time cells maintain their responsivity to external stimuli.

246 er attention-, gustatory-, and reward-region responsivity to food cues but reduced reward-region resp

247 d period of overeating may increase striatal responsivity to food cues, and that maintaining a balanc

248 ce striatal, insular, and Rolandic operculum responsivity to food cues, which might decrease risk for

249 t model was most predictive of NAcc size and responsivity to food cues.

250 uces blunted dopamine signaling and elevated responsivity to food cues.

251 , coupled with elevated somatosensory region responsivity to food, which may lead to overeating that

252 an alternate context after conditioning and responsivity to foot shock were unaffected by optogeneti

253 beta-Cell responsivity to glucose and disposition index was higher

254 data demonstrate that by diversifying their responsivity to growth cues, distinct coronary progenito

255 a responsivity to neutral faces, or striatal responsivity to monetary losses.

256 ngry facial expressions and ventral striatum responsivity to monetary rewards.

257 ow NPY expression, thereby increasing neural responsivity to negative stimuli within key affective ci

258 muscle is necessary for normal postsynaptic responsivity to neurotransmitter release and for normal

259 ; no interactions were apparent for amygdala responsivity to neutral faces, or striatal responsivity

260 tric condition among women, reflect abnormal responsivity to ovarian steroids.

261 dmPFC activity predicts psychophysiological responsivity to pending threats.

262 The first entailed increased amygdala responsivity to phasic fear cues.

263 Thus, stress distorts LHb responsivity to positive and negative feedback, which co

264 s the aberrant behavioral and cardiovascular responsivity to potential threats.

265 logy in depotentiating neural and behavioral responsivity to prior emotional events remains unknown.

266 d regions to milkshake receipt or changes in responsivity to receipt and anticipated receipt of monet

267 , and the same was true for ventral striatum responsivity to reward.

268 eceptor BP(ND), including study of DA system responsivity to rewarding stimuli, and increasing power

269 terized by greater motor activity, increased responsivity to sensory stimuli, and greater emotional l

270 Atypical responsivity to social rewards has been observed in youn

271 circuitry underlies phenotypic variation in responsivity to stress.

272 D70; adulthood) we examined their behavioral responsivity to sucrose (1%) on a two-bottle choice desi

273 difference in within-network connectivity or responsivity to syntactic processing demands despite gra

274 d to relate to dopamine D2 receptor density (responsivity to tactile stimuli, performance on a learni

275 of cell firing; (8) ketamine reduces network responsivity to the environment; (9) ketamine effect cou

276 e, OCD patients reported increased emotional responsivity to the outcomes of their choices and to the

277 We found that the responsivity to the photoillumination depends on the tra

278 ipheral axons and decreases in the supply or responsivity to trophic and/or tropic factors.

279 zation, which may contribute to the enhanced responsivity to uncertain rewards or the reinforcing eff

280 veractivation was found to induce heightened responsivity to uncertain, low-imminence threat while bl

281 Their adaptive nature imparts unprecedented responsivity to various stimuli.

282 ty of nil or negative effect in language and responsivity to vowel change (P1: ES-0.62, CI -2.42 to 0

283 ometry because of, in most cases, their poor responsivities toward nuclear magnetic resonance, ultrav

284 submillisecond activation kinetics, and full responsivity under two-photon excitation.

285 ualize the dependence of motion transduction responsivity upon 2D material type and number of layers,

286 The highest responsivity value of 4.08 +/- 1.65 x 10(5) A/W was achi

287 In addition, impaired reward responsivity was associated with default mode network hy

288 mp recordings revealed that EGC subthreshold responsivity was far broader than indicated by GCaMP6f C

289 Parental responsivity was higher following peaks in infant negati

290 children living in poverty, amygdala threat responsivity was positively associated with inflammation

291 LPA responsivity was significantly reduced in more different

292 We report that beta-cell responsivity was slightly impaired in the TT genotype gr

293 ces where the adult showed greater autonomic responsivity were associated with faster infant quieting

294 cues signaling potential loss and increased responsivity when actually experiencing losses.

295 hene conductive photodetector has ultra-high responsivity when operating at low temperature, which pr

296 he threshold voltage, the device showed high responsivities with additional gain, but slow rise and r

297 f photodetectors, each of which has a unique responsivity with rich spectral features.

298 Several brain regions mediate stress responsivity, with a prominent role of the medial prefro

299 We show that sleep deprivation enhances pain responsivity within the primary sensing regions of the b

300 The maximum corrected responsivity (without contribution of dark current) reac