ライフサイエンスコーパス: behavioral test

1 roke while it ameliorated the outcome of the behavioral test.

2 PTP in BMT-treated mice assayed by a rotarod behavioral test.

3 irs are not spontaneously discriminated in a behavioral test.

4 tivity was measured with an active avoidance behavioral test.

5 iated with cognitive deficits as revealed in behavioral tests.

6 cognitive ability, as assessed by maze-based behavioral tests.

7 d post-treated twice/wk for one month before behavioral tests.

8 (KO) mice was examined with a wide array of behavioral tests.

9 tagonists into the CeA unilaterally prior to behavioral tests.

10 o-locomotor and oculomotor functions through behavioral tests.

11 ce were more apparent in mice that underwent behavioral tests.

12 wild-type (WT) mice, with three independent behavioral tests.

13 d dorsomedial areas) were measured after the behavioral tests.

14 l artery occlusion in rats using a series of behavioral tests.

15 ogical and neurochemical analysis as well as behavioral tests.

16 the question of the ethological relevance of behavioral tests.

17 wo modes of running exercise on a battery of behavioral tests.

18 animals developed anxiety-like responses in behavioral tests.

19 ance and are normal in a standard battery of behavioral tests.

20 s required to induce a marked improvement in behavioral tests.

21 cient mice (M(1)R(-/-) mice) to a battery of behavioral tests.

22 on, as shown by ganglion cell recordings and behavioral tests.

23 On the 11th day, mice were subjected to behavioral tests.

24 ) knock-in mutant mice by using a battery of behavioral tests.

25 stinct neuropharmacological effects in mouse behavioral tests.

26 s assessed by intravital dynamic imaging and behavioral tests.

27 nce (MR) imaging and completed cognitive and behavioral tests.

28 onth all mice were administered a battery of behavioral tests.

29 Measuring this behavior can enhance behavioral tests.

30 ysis of brain and heart histology as well as behavioral tests.

31 treated animals, as evidenced by two visual behavioral tests.

32 heir regrowth is correlated with recovery in behavioral tests.

33 assessment and is prevalent in common rodent behavioral tests.

34 bly, these rats showed less hyperactivity in behavioral tests.

35 , as determined by neuroanatomic tracing and behavioral testing.

36 n thus affect apparent baseline responses in behavioral testing.

37 pe A receptors, 30 minutes before undergoing behavioral testing.

38 be explained by learning that occurs during behavioral testing.

39 iscuss informed consent, equipment setup and behavioral testing.

40 receptor in the amygdala was examined after behavioral testing.

41 red to determine cognitive resilience during behavioral testing.

42 amycin treatment after weaning and performed behavioral testing.

43 ected with MA once (1 mg/kg) 30 min prior to behavioral testing.

44 year by magnetic resonance imaging (MRI) and behavioral testing.

45 eated HIVE mice during water radial arm maze behavioral testing.

46 h P49, and placed into a locomotor arena for behavioral testing.

47 ats, relative to PF rats, prior to or during behavioral testing.

48 development by in vivo electrophysiology and behavioral testing.

49 sequences for pharmacological treatments and behavioral testing.

50 cular or dendritic morphology at the time of behavioral testing.

51 cleus (DRN) both at the time of IS and later behavioral testing.

52 re IS but not when administered before later behavioral testing.

53 analyses, as applied to EEG data, along with behavioral testing.

54 lidated with both computational modeling and behavioral testing.

55 behaviors in Gpr88(-/-) mice using extensive behavioral testing.

56 nd tested main central DOR functions through behavioral testing.

57 Rats underwent MRI and behavioral testing 1, 3, 5, 7, and 30 days after the sec

58 Using a spatially challenging behavioral test (a modified version of the active place

59 s antinociception is exaggerated by repeated behavioral testing, a phenomenon known as behavioral tol

60 rest conditions and during execution of two behavioral tests, a response inhibition test and a motor

61 Castrate male rats were subjected to behavioral tests after 90 min of middle cerebral artery

62 ce and WT littermates in psychiatry-relevant behavioral tests after SA or normal active (NA; 12:12 L:

63 During behavioral testing, all animals displayed increases in A

64 Following cessation of the behavioral testing, all animals underwent assessments of

65 Behavioral testing also shows that larval zebrafish beco

66 n was assessed with the cued water maze (WM) behavioral test and the optokinetic reflex (OKR) measure

67 Further work is needed to characterize this behavioral test and to determine whether it may have app

68 d anxiety-related behavior was studied using behavioral testing and chemogenetic manipulations.

69 rmed different sets of experiments including behavioral testing and electrophysiological recordings.

70 Eight patients underwent behavioral testing and functional magnetic resonance ima

71 We used behavioral testing and morphological methods to detail t

72 cross-sectional case-control study involved behavioral testing and neuroimaging that were conducted

73 The mice exhibit abnormalities in behavioral testing and pathological examination of the b

74 Outcome measures included cognitive behavioral testing and quantitative histopathological an

75 Here, via extensive behavioral testing and quantitative modeling, we show th

76 Rats underwent behavioral testing and were killed at day-3 for measurem

77 ere treated with simvastatin and assessed by behavioral tests and biochemical analyses.

78 Behavioral tests and biochemical assays were performed a

79 sis of USVs has broad utility during diverse behavioral tests and can be performed noninvasively in a

80 naptic and cognitive functions, we performed behavioral tests and electrophysiological experiments in

81 were predictable, resulting from a focus on behavioral tests and functions unrelated to present evid

82 ctivation of the NLRP3 inflammasome improves behavioral tests and synaptic plasticity phenotypes in a

83 Behavioral tests and taste nerve recordings of single an

84 us time points the animals were subjected to behavioral tests and their brains were analyzed.

85 deficient mice were subjected to a series of behavioral tests and were found to exhibit deficits in t

86 g genetics, cell biology, electrophysiology, behavioral testing, and bioinformatics.

87 ontrol women underwent hormonal evaluations, behavioral testing, and fMRI scanning on two occasions,

88 ty, electrophysiology, hippocampus-selective behavioral testing, and magnetic resonance imaging tract

89 Perimetry, by behavioral testing, and retinal histology data were obta

90 eers using three different approaches: fMRI, behavioral testing, and somatosensory-evoked potentials

91 716A (0, 1 or 3 mg/kg, i.p.) 15 min prior to behavioral testing, and the 2-DG procedure was initiated

92 mice were analyzed by immunohistochemistry, behavioral tests, and electrophysiology to assess nBMP2

93 pheromones can be identified, validated with behavioral tests, and incorporated in research on vomero

94 ductive consequences of experiments treating behavioral tests as assays used merely for the generatio

95 nificantly greater motor improvement in both behavioral tests as compared to vehicle-treated animals

96 focus on experiments that used cognitive or behavioral tests as outcome measures in experimental des

97 and anxiety-related effects in a variety of behavioral tests as well as potentiation of conditioned

98 lated behavior using an extensive battery of behavioral tests as well as the neurotransmitter metabol

99 ing state functional MRI scans and extensive behavioral testing assessing changes in hunger/satiety r

100 n/tetracycline transactivator mice underwent behavioral testing at 3, 6, 9, and 12 months of age to e

101 A series of behavioral tests at five different time points (20, 40,

102 rol non-transgenic (NT) mice in an extensive behavioral test battery administered between 5 and 8.5 m

103 f motor and cognitive function, as well as a behavioral test battery including the Problem Behavior A

104 A behavioral test battery was used to assess anxiety-like,

105 subjected CN mutant mice to a comprehensive behavioral test battery.

106 oked potential recordings and standard motor behavioral tests (BBB).

107 stational Day 2 through postnatal Day 7, and behavioral testing began at postnatal Day 65--following

108 However, behavioral tests beginning 3 months after injury demonst

109 al nerve, motor-sensory function, and simple behavioral tests (best = 100 and brain dead = 0).

110 After behavioral testing, brains were removed and processed fo

111 In behavioral tests, Ca(V)3.2 knockout (KO) mice showed sig

112 covered shorter distance in a light and dark behavioral test compared to the controls.

113 ssant and less anxious phenotypes in several behavioral tests compared with WT mice.

114 Behavioral testing confirmed striatal deficits (hyperact

115 In behavioral tests, CP/CPPS rats showed anxiety- and depre

116 s of altered neurophysiology in ASD than the behavioral tests currently used in humans or lab animals

117 impairments, as measured by three different behavioral tests, delayed the Alzheimer-like pathology p

118 Behavioral testing demonstrated no differences between a

119 In addition, two independent behavioral tests demonstrated elevated amygdala-dependen

120 In vivo recordings and whisker-specific behavioral tests demonstrated sensory discrimination def

121 Behavioral tests demonstrated that heterozygous females,

122 Behavioral tests demonstrated that perceived hunger, imp

123 Behavioral tests demonstrated that recipients of BDNF-pr

124 place escape/avoidance paradigm (PEAP) is a behavioral test designed to quantify the level of unplea

125 A broad range of behavioral tests designed to assess genotype-dependent e

126 s on male mice was performed with additional behavioral tests, determination of regional activation b

127 We have shown that the use of appropriate behavioral tests (e.g., a relatively difficult place lea

128 Following behavioral testing, effects of 1 or 24 h of E2 exposure

129 Among the behavioral tests employed, the pole climb movement test

130 owed no significant association with bedside behavioral testing, except in a few cases when EEG was s

131 However, in the plus maze, a commonly used behavioral test for assessing anxiety, no significant di

132 pha5-GABARs accelerates reversal learning, a behavioral test for cognitive flexibility dependent on r

133 was recorded during the administration of a behavioral test for latent inhibition (LI) or the retard

134 Children underwent annual developmental and behavioral testing for 5 years.

135 Behavioral testing for tactile allodynia, performed one

136 Useful behavioral tests for separating adult mice according to

137 We performed behavioral tests, functional MRI, and histology in a rat

138 We tested whether behavioral tests, grounded in the neurobiology of cognit

139 Behavioral testing (handling and open field), continuous

140 Behavioral testing has revealed that pigeons may use the

141 Finally, using behavioral tests (humans, both sexes), we show that it i

142 d not show any differences in terms of motor behavioral tests (i.e., apomorphine rotations, forelimb

143 Behavioral tests identified changes in exploratory behav

144 easant and causes negative affect, we used a behavioral test in which mice avoid an environment that

145 nt elevation of CRH during development only, behavioral testing in adult mice revealed a persistent a

146 electrocorticogram recordings and cognitive behavioral testing in adult mice, we demonstrate that ch

147 s issue using laser ablations and subsequent behavioral testing in zebrafish.

148 encephalographic recordings and a battery of behavioral tests in a rat model, we demonstrate that gra

149 etabolism than 1a, were selected for further behavioral tests in animals.

150 Using behavioral tests in combination with optogenetic manipul

151 However, a number of behavioral tests in rodents are sensitive to antidepress

152 of knockout/congenic strains in a series of behavioral tests in which mouse performance has a signif

153 n-weighted imaging) and reading development (behavioral testing) in individual children (age 7-15 y).

154 To assess the hypothesis, behavioral tests including chow and high-fat diet intake

155 ning on P50, the mice were given a series of behavioral tests including locomotor activity, novel obj

156 rticle focuses on the preliminary aspects of behavioral testing, including a protocol for an open fie

157 Mice were subjected to extensive behavioral testing, including assessment of social behav

158 3R were subjected to an extensive battery of behavioral tests, including several relevant to schizoph

159 offspring were analyzed through a series of behavioral tests, including the visual-motor response (V

160 Behavioral tests indicate that the animals' ability to c

161 Furthermore, behavioral tests indicate that working memory, a key fun

162 Behavioral tests indicated that the mutant mice had a re

163 , AC3 mutants failed several olfaction-based behavioral tests, indicating that AC3 and cAMP signaling

164 Different brain regions control these behavioral tests, indicating that the lack of Nrf2 has a

165 In behavioral tests, intraplantar S-DHPG (0.1, 1.0, 10 mM)

166 first benzothiadiazide to have an effect in behavioral tests, is an important lead compound in clini

167 netic compass has been well characterized in behavioral tests: it is an "inclination compass" based o

168 d control rats were subjected to a series of behavioral tests (locomotor activity, sensorimotor batte

169 o models of persistent pain, suggesting that behavioral testing may not be a sensitive measure of inj

170 V-GFP or AAV-CRE in CREB(loxP/loxP) animals, behavioral testing measured anxiety levels, using the No

171 Mice were tested in 3 behavioral tests measuring different modes of arousal: s

172 (mGluR5(KD-D1)) were tested in a battery of behavioral tests measuring learning abilities, anxiety l

173 eltaex7/8) mice was determined by performing behavioral tests, measuring ceramide in brains and serum

174 Moreover, in subsequent behavioral tests, mice exhibited habituation to paired u

175 or mild fluid percussion injury (mFPI), and behavioral testing, MRI, and blood collections were cond

176 gression in the resident-intruder or dangler behavioral tests, NZB/B1NJ mice are extremely aggressive

177 Behavioral testing occurred after choline treatment had

178 red for antidepressant responses in a common behavioral test of antidepressant efficacy.

179 along both axes in the visual water task, a behavioral test of cortical functions.

180 An independent behavioral test of expertise predicted relative activati

181 sual cortical responses and performance on a behavioral test of visual acuity.

182 We also performed behavioral testing of anesthetic endpoints in mice lacki

183 Behavioral testing of ART-OE mice showed that they had i

184 In this study, we combined aggressive behavioral testing of female and male prairie voles with

185 Behavioral testing of NRTN-OE mice revealed an increased

186 Behavioral testing of ovipositing females to odorants hi

187 defines the need for further and more robust behavioral testing of potential unintentional harm cause

188 of TrkB in the spinal cord, had no effect in behavioral tests of acute heat, mechanical, or chemical

189 wild type (WT) and Ido1(-/-) mice underwent behavioral tests of antidepressant activity (e.g., force

190 LPS- and SNI-induced deficits in behavioral tests of antidepressant activity in WT but no

191 chanistically distinct from that measured by behavioral tests of antidepressant activity.

192 g that of clozapine; they proved inactive in behavioral tests of antipsychotic activity.

193 Behavioral tests of delay discounting (DD), which index

194 Initial behavioral tests of individuals with impaired hearing re

195 Behavioral tests of motion perception found no impairmen

196 e also displayed substantial improvements on behavioral tests of muscle strength, coordination, and l

197 n addition displayed diminished responses in behavioral tests of olfactory function.

198 Behavioral tests of recognition and source recall showed

199 s ventral tegmental nucleus lesions impaired behavioral tests of spatial working memory and, in parti

200 Behavioral tests on limb placement and grid and beam wal

201 ral traits in SMS, we performed a battery of behavioral tests on Rai1 mutant mice and the Df(11)17-1/

202 In standard behavioral tests (open field and elevated plus maze), mR

203 and their metabolites, as well as changes in behavioral tests (open field test, elevated plus maze te

204 erent injuries that are not distinguished by behavioral testing or the neuroimmune markers used in th

205 In behavioral testing, PGE(2)-induced thermal hyperalgesia

206 Here we applied behavioral testing, pharmacology, and in vivo electrophy

207 In addition to behavioral tests, phenotypic characterization included a

208 In behavioral tests, pregnanolone hemipimelate showed neuro

209 In a behavioral test, PRL pretreatment significantly potentia

210 After behavioral testing, rats were perfused with 4% paraforma

211 In behavioral tests, rats performed learned escape response

212 ic acid oligonucleotides several days before behavioral testing reduced social recognition.

213 ntiator pentobarbital (PB) before and during behavioral tests rescued the cognitive deficits; but wit

214 electroretinography and an active avoidance behavioral test, respectively.

215 s on the inter-laboratory reproducibility of behavioral test results.

216 Behavioral testing resumed 5 days after surgery and cont

217 Various behavioral tests reveal that in PC7 KO mice spatial memo

218 Morris water maze behavioral test revealed that infection with AAV1-I(2CTF

219 Behavioral testing revealed a significant deficit in nov

220 hology showed hippocampal neuron damage, and behavioral testing revealed hippocampus-dependent memory

221 Behavioral testing revealed normal motor coordination, w

222 Behavioral testing revealed significant improvements in

223 Behavioral testing revealed that both cell lines reduced

224 Behavioral testing revealed that the encoding capacity o

225 Behavioral tests revealed that scotopic visual acuity an

226 Multiple behavioral tests revealed that SRC-1(-)/- mice exhibit n

227 However, behavioral testing reveals underlying deficits of motor

228 mice subjected to a comprehensive series of behavioral test screenings for schizophrenic-like sympto

229 Standardized behavioral tests (SHIRPA protocols) demonstrated signifi

230 Behavioral tests show defects in context and cued condit

231 Behavioral tests show humans combine cues near-optimally

232 Behavioral testing showed a post-lesion deficit and reco

233 Behavioral testing showed complete recovery of cognitive

234 Electroretinograms and behavioral tests showed decreased retinal and visual res

235 In addition, behavioral tests showed motor abnormalities in the KO an

236 mum caused little Wallerian degeneration and behavioral tests showed no significant long-term adverse

237 Similarly, a battery of behavioral tests showed partial recovery in some treatme

238 Behavioral tests showed that both types of unilateral tr

239 Finally, behavioral tests showed that the olfactory-specific Ric-

240 Behavioral testing shows that nob mice have a significan

241 Behavioral testing started 2 weeks following irradiation

242 Behavioral tests such as the PEAP may be more sensitive

243 Extensive behavioral testing supported our hypothesis, and functio

244 ytochemistry, pharmacological treatments and behavioral testing techniques, we have used a rodent par

245 Here, we report a behavioral test that enables combined testing of speech

246 In behavioral tests, the Asian otter (defective Tas1r2) sho

247 mbination with a series of physiological and behavioral tests, the chemical structure of a mouse alar

248 In behavioral tests, the KI alpha2 mice did not show any di

249 aracterize overall RGC loss and an optomotor behavioral test to measure corresponding changes in visu

250 tensive statistical microarray analyses with behavioral testing to comprehensively identify genes and

251 We then performed repeat behavioral testing to identify which brain areas show ce

252 After behavioral testing to measure the depth of the resulting

253 I and diffusion tensor imaging together with behavioral testing to relate longitudinal modifications

254 Using in vivo magnetic resonance imaging and behavioral testing to study male and female decrepit mic

255 ocal brain ischemia, we combined imaging and behavioral testing to unambiguously identify brain regio

256 optical imaging and somatosensory and motor behavioral tests to characterize the consequences of bif

257 the present study, we performed a battery of behavioral tests to evaluate motor, cognitive, and socia

258 Here, we describe the results of further behavioral tests to further define the pathway involveme

259 A visually guided water maze behavioral test under dim light showed significantly imp

260 ed a smaller infarct and performed better in behavioral tests up to 15 days after ischemia.

261 ADMET studies coupled with a behavioral test using the amphetamine-induced hyperactiv

262 Behavioral tests, using the elevated body swing test, we

263 ) over seven consecutive days, and a yawning behavioral test was also performed to test for sensitivi

264 Behavioral testing was conducted 72 hours or 10 days fol

265 ormal housing environment until maturity and behavioral testing was conducted before the recording ex

266 Behavioral testing was initiated on the second day after

267 Behavioral testing was performed in a cross-maze.

268 lactate from days 12-25 and a second set of behavioral tests was conducted on day 26.

269 A battery of behavioral tests was performed weekly to assess motor an

270 te mechanical and thermal pain thresholds in behavioral tests was preserved in nerve-ligated rats tha

271 sm with regard to surgical interventions and behavioral testing, we generated a rat KI model of the P

272 Before behavioral testing, we infused a retrograde tracer into

273 vivo electrophysiology and neuroanatomy with behavioral testing, we show that G(PFC)E mice at neonata

274 nfocal microscopy, biochemical analyses, and behavioral testing, we show that loss of Caspr2 in the C

275 retinograms, cortical recordings, and visual behavioral tests, we demonstrated that mice with these n

276 Moreover, using hippocampal-specific behavioral tests, we demonstrated that only injured anim

277 In conjunction with behavioral tests, we evaluated adult neurogenesis, inclu

278 Results of behavioral tests were all normal.

279 Behavioral tests were conducted to assess exploratory ac

280 Histological and behavioral tests were examined from days 0-28 after stro

281 of cerebral infarct volumes and neurological behavioral tests were performed 24 hrs post-MCAO.

282 Behavioral tests were performed by using presymptomatic

283 Histological analysis and behavioral tests were performed from day 0 to 28 days af

284 A series of behavioral tests were performed in mice with or without

285 Finally, behavioral tests were performed to analyze the impact of

286 Sensory and cognitive behavioral tests were performed to assess the effect of

287 Before imaging, behavioral tests were performed to evaluate the neurolog

288 ch gene expression studies, western blot and behavioral tests were performed.

289 At the end of this one-week treatment, behavioral tests were repeated in these same rats.

290 Using cognitive-behavioral tests, Western blotting, and confocal and ele

291 ike behaviors in the rodent, in a battery of behavioral tests, which represented conflict situations

292 model, we performed an extensive battery of behavioral tests, which revealed that these mice manifes

293 ctivity was assessed within 1 week after the behavioral test with three indices: DA neuron population

294 control of maternal aggression by combining behavioral testing with immunohistochemistry for both cF

295 able to prevent amblyopia as evaluated using behavioral testing with optotypes or with sweep VEPs.

296 Behavioral testing with twenty-eight healthy volunteers

297 We combined behavioral tests with neuronal circuit tracing, morpholo

298 id they show ultrasonic vocalizations during behavioral tests with receptive female mice.

299 ytic and antidepressant drugs in a number of behavioral tests, without affecting performance in a spa

300 ve their learning and memory assessed by two behavioral tests, Y maze and Morris water maze.