ライフサイエンスコーパス: repetition

1 pressed using bootstrapped estimates (10,000 repetitions).

2 ssaying a single plate and by performing one repetition.

3 mory, is highly sensitive to recency but not repetition.

4 itivity by analyzing the effects of stimulus repetition.

5 tency and adaptation effects due to stimulus repetition.

6 costs of tasks should predictably rise with repetition.

7 peed of the mouse EHR strategy worsened with repetition.

8 ge in self-serving dishonesty increases with repetition.

9 esentation of speech stimuli across multiple repetitions.

10 mained in a fixed viewpoint across the study repetitions.

11 anipulated in terms of recency and number of repetitions.

12 ens from response adaptation during syllable repetitions.

13 shown to increase reliably after just a few repetitions.

14 about 4 times faster for the same number of repetitions.

15 vity in FE-ScZ was not modulated by stimulus repetitions.

16 bsequently recognized, but not for identical repetitions.

17 c training, as indexed by the number of task repetitions.

18 ulus response adapts gradually over multiple repetitions.

19 ook 6 wk of unilateral (1-legged) RET [6 x 8 repetitions, 75% 1 repetition maximum (1-RM) 3/wk], rend

20 rs), performed 6 weeks unilateral RET (6 x 8 repetitions, 75% of one repetition maximum (1-RM), 3 tim

21 an inability to use reward to promote choice repetition after switching to an alternative option due

22 of consistency, although unlike consistency, repetition alone does not increase adaptation rate.

23 Stimulus repetition alters neural responses to the repeated stimu

24 Further repetition analysis revealed that participants were more

25 y factors involved in automatization such as repetition and complexity, and a discussion of mechanist

26 een combined physical exposures of force and repetition and CTS were observed in all models.

27 emonstrated robust response suppression with repetition and familiarity-related facilitation.

28 Additional analyses indicated that the repetition and familiarity-related signals in the DG/CA3

29 leted three tasks: (a) word recognition, (b) repetition and lexical decision of real and nonsense wor

30 hromatography coupled to a mass spectrometer repetition and noncompartmental PKs were analyzed using

31 th the features of the object through simple repetition and not knowledge about the environment.

32 es were goal setting and planning, feedback, repetition and substitution, shaping knowledge and compa

33 tests evaluating auditory input processing, repetition and working memory, lexical and grammatical c

34 n-response functions, dependency on stimulus repetitions and stimulated area), these results define o

35 tch but large when accompanied by a response-repetition, and vice versa for response-switch costs.

36 itory feedback by deafening reduces syllable repetitions; and neural responses to auditory playback o

37 sychosocial assessment and a reduced risk of repetition appeared to be least evident in those from th

38 Recency and repetition are two factors that have large effects on hu

39 ong-lasting neocortical store, many learning repetitions are considered necessary after initial encod

40 ecule (L1CAM) interactions gene set with the repetition-based memory improvement.

41 in birds whose song motifs ended with minor repetitions before lesioning.

42 subsets of these clusters, which show little repetition between events.

43 al shift (Dixon) reconstruction, in the same repetition by using partial echoes combined with modifie

44 tion in speeding up adaptation and find that repetition can greatly potentiate the effect of consiste

45 w by recruitment of the same protein and its repetition can transform a weak biological activity into

46 e initially 'beneficial' effects of stimulus repetition: cases with Wernicke's aphasia showed initial

47 fects of set size and delay between stimulus repetitions, confirming the presence of working memory e

48 n, and increasing the frequency of FSCV scan repetitions decreases the oxidation current, because the

49 comes from stroke patients that have speech repetition deficits (conduction aphasia) and studies usi

50 stemmed from interference with mechanisms of repetition-dependent plasticity in M1.SIGNIFICANCE STATE

51 tend to repeat, likely through mechanisms of repetition-dependent plasticity.

52 s demonstrate that although both recency and repetition dramatically improve recognition memory perfo

53 ned to control environmental consistency and repetition during training might yield faster, more robu

54 6,400, 9,600, or individualized maximum (IM) repetitions, during 1-hour sessions, 4 days/week for 8 w

55 isplayed a significant reduction of the N400 repetition effect after 1 year.

56 benefits on both cued-recall memory and N400 repetition effect amplitude.

57 of memantine in FXTAS sought to use the N400 repetition effect to evaluate effects of chronic memanti

58 al (ERP) studies in FXTAS found reduced N400 repetition effect, a glutamate-related electrophysiologi

59 rrelated with amplitude increase of the N400 repetition effect.

60 which these stimuli were encoded, we studied repetition effects by presenting the stimuli in pairs co

61 Here we investigated the neural repetition effects of repeating known and novel word ord

62 In contrast, low frequency (1 Hz, 180 repetitions) electrical stimulation of axons or network

63 Reducing stimulus repetition eliminated over-specificity.

64 petition led to an increase in the syntactic repetition enhancement effect in language-related brain

65 Similarly, the repetition of verbs led to repetition enhancement effects in areas related to lexic

66 We thus propose that repetition enhancement might reflect a brain mechanism t

67 Repetition enhancement might reflect a mechanism to buil

68 ures, as well as words in contexts, leads to repetition enhancement, whereas repetition of known stru

69 etition of novel syntactic structures led to repetition enhancement, whereas repetition of known stru

70 nstructional videos and practice at least 10 repetitions every 10 days to maintain their skill.

71 ffective in reducing the number of self-harm repetitions following a suicide attempt in people who co

72 , whereas large variation is observed within repetitions for each compound, causing a response overla

73 , measurements are typically limited to scan repetition frequencies of 10 Hz.

74 Pa, 100-cycle pulse length, and 540 Hz pulse repetition frequency (PRF) for 2min exhibited superior t

75 that with long pulses by adjusting the pulse repetition frequency (PRF).

76 instead exhibited hyperpolarization at high repetition frequency but sustained depolarization at low

77 onized to CI stimuli, yet reflected changing repetition frequency by increased firing rate.

78 vely with 50-msec bursts at a 5% duty cycle, repetition frequency of 1 Hz, and spatial peak temporal

79 arameters (pressure, pulse length, and pulse repetition frequency) and microbubble concentration in a

80 reasing firing rate with increasing stimulus repetition frequency) displayed sustained depolarization

81 campus (1.68 MHz, 10-msec bursts, 1-Hz burst repetition frequency, 120-second total duration).

82 T fiber microelectrodes, independent of scan repetition frequency, and stable for over 10 h.

83 ) displayed sustained depolarization at high repetition frequency, the negative-monotonic neurons (op

84 requency but sustained depolarization at low repetition frequency.

85 f dopamine at CNTYMEs is independent of scan repetition frequency.

86 lting in current that is independent of scan repetition frequency.

87 neural activation pattern similarity across repetitions (i.e., self-similarity) was greater for subs

88 everal hundred phosphenes, which may require repetition if electrode performance deteriorates over ti

89 ed neurophysiological adaptation to stimulus repetition in adults and children with dyslexia for a wi

90 animals, and considerably increased syllable repetition in birds whose song motifs ended with minor r

91 lesions produce declining comprehension with repetition in both verbal and non-verbal tasks.

92 We proceed to elucidate the role of stimulus repetition in speeding up adaptation and find that repet

93 This result suggests that the repetitions in native squid proteins could have a geneti

94 Many globular and structural proteins have repetitions in their sequences or structures.

95 h nonhuman primates have shown that, through repetition, individuals are able to anticipate the occur

96 n with dyslexia were associated with greater repetition-induced neural adaptation.

97 For each subsequent repetition, intervention subjects significantly outperfo

98 This repetition is not observed if these compartments face di

99 port shows that workers with high force/high repetition jobs had the highest prevalence of CTS (odds

100 We show that stimulus repetition leads to profound changes of neuronal gamma-b

101 lables for immediate serial recall in a Hebb repetition learning task that simulates word-form learni

102 Additional verb repetition led to an increase in the syntactic repetitio

103 ral (1-legged) RET [6 x 8 repetitions, 75% 1 repetition maximum (1-RM) 3/wk], rendering 1 leg untrain

104 Thigh muscle volume, handgrip strength, one-repetition maximum (1-RM) lower- and upper-body strength

105 nilateral RET (6 x 8 repetitions, 75% of one repetition maximum (1-RM), 3 times per week).

106 om m. vastus lateralis were collected, and 1 repetition maximum (1RM) and maximal isometric voluntary

107 VO2peak and one-repetition maximum declined by 6.4 +/- 2.3 (P < 0.05) an

108 x 10 leg presses and leg extensions; 80% one-repetition maximum) was performed.

109 n = 13), 70% (n = 12) or 80% (n = 13) of one repetition maximum.

110 Enhanced visual preference for geometric repetition may be an early developmental biomarker of an

111 ging studies have indicated that recency and repetition may modulate similar brain structures, partic

112 lts, combined with the emerging intense high-repetition MHz lasers, promise to increase harmonic yiel

113 matching and together with the emerging high-repetition MHz mid-infrared lasers, we anticipate effici

114 hanically engineering cellular shape was the repetition of a chosen stretch regimen, indicating that

115 Repetition of a nontemporal aspect of the stimulus (i.e.

116 A fugue is characterized by the systematic repetition of a principal theme in simultaneous melodic

117 However, repetition of a visual stimulus can also be considered i

118 d other neural disorders involving excessive repetition of action sequences.

119 Consecutive repetition of actions is common in behavioral sequences.

120 etween the left and right hemispheres during repetition of auditory and visual words and pseudowords.

121 ation on the tissues in BCCTB that will save repetition of experiments and expand scientific knowledg

122 tures led to repetition enhancement, whereas repetition of known structures resulted in repetition su

123 ts, leads to repetition enhancement, whereas repetition of known structures results in repetition sup

124 ed through smaller scale experiments without repetition of lengthy and expensive RCTs.

125 Tandem repeat proteins, which are formed by repetition of modular units of protein sequence and stru

126 posure (preexposed > nonexposed) and whether repetition of nonexposed (and preexposed) pairs at test

127 tal gyrus and posterior temporal cortex, the repetition of novel syntactic structures led to repetiti

128 We show that the repetition of novel syntactic structures, as well as wor

129 Decisions may arise via 'model-free' repetition of previously reinforced actions or by 'model

130 Reverse tagging, repetition of purifications and statistical analyses, pr

131 The primary outcome was repetition of self-harm at the conclusion of treatment a

132 Repetition of self-harm was common, particularly in wome

133 87, 95% CI 0.62-1.23; n=3277) did not reduce repetition of self-harm.

134 ere generated by varying strain, length, and repetition of stretch.

135 A sensitivity analysis was conducted by repetition of the CART analysis in 58 cases and 58 contr

136 added to the phase of oscillation upon every repetition of the cell cycle.

137 temporally dissociable effects that predict repetition of the current choice and adaptation away fro

138 Subsequent alcohol aspiration and repetition of the cycle was performed until the collapse

139 offer amounts to avoid rejection, while the repetition of the game works to responders' advantage be

140 Transcription elongation consists of repetition of the nucleotide addition cycle: phosphodies

141 We show handy repetition of the operations on various initial states a

142 Repetition of these events creates a positive feedback f

143 The iterative repetition of these steps allow synthesis of uniform pol

144 an-3-ones can be made in high ee (86-90%) by repetition of this lithiation/alkylation sequence under

145 Repetition of this mechanism leads to the formation of R

146 Repetition of this process affords a second reduced ferr

147 Similarly, the repetition of verbs led to repetition enhancement effect

148 ke's aphasia showed initial improvement with repetition of words and pictures, while in semantic apha

149 pCopN contains three repetitions of a helical motif flanked by disordered N-

150 During 100 repetitions of a learning instruction, simple-spike firi

151 Amyloids consist of repetitions of a specific polypeptide chain in a regular

152 ower reliability within an individual across repetitions of a story.

153 n solvent, extraction time and the number of repetitions of extraction were evaluated with the aim of

154 ace Area is influenced by the probability of repetitions of faces, implying that perceptual expectati

155 ch session was comprised of three sets of 12 repetitions of four exercises: bench press, dumbbell cur

156 Cooling HVC reduces the number of repetitions of long-repeated syllables and increases the

157 detected in each of 3 independent biological repetitions of NGS of RNA from fibroblasts and neurons p

158 ter surgery, visual acuity, VEP, PERG, and 3 repetitions of scans using the RNFL and macular analysis

159 the selected gene fragment contains several repetitions of short sequences, a careful optimization o

160 e timing and number of spikes varying across repetitions of stimuli.

161 te of study results over many (hypothetical) repetitions of the experiment of interest.

162 s, the signal did not continue to adapt over repetitions of the same HD.

163 tiotemporal pattern similarity (STPS) across repetitions of the same item (i.e., self-STPS) during en

164 /MS parameters across an analytical batch or repetitions of the same sample by using exclusion or inc

165 surement normally requires a large number of repetitions of the same short sound stimuli, which may l

166 re unreliable: a single neuron's response to repetitions of the same stimulus is variable, and depend

167 contexts are best constructed after numerous repetitions of the very same stimulus in the absence of

168 sensitivity by analyzing effects of stimulus repetition on the time-locked signal.

169 of instructions, and recalled either by oral repetition or physical enactment.

170 aried in presentation viewpoint across study repetitions or remained in a fixed viewpoint across the

171 cial language learning task with a syntactic repetition paradigm.

172 there were sequential changes in the module repetition pattern, reproductive organ position, branchi

173 with poor auditory-verbal comprehension and repetition, plus fluent speech with jargon.

174 Glycoprotein A repetitions predominant (GARP) is a surface marker of ac

175 Glycoprotein A repetitions predominant (GARP) is expressed on the surfa

176 Glycoprotein A repetitions predominant (GARP) is specifically expressed

177 is production is regulated by glycoprotein A repetitions predominant (GARP), a transmembrane protein

178 cytokine signaling 3 (SOCS3), glycoprotein A repetitions predominant (GARP), the IL-2 receptor alpha

179 for the cell-surface protein glycoprotein A repetitions predominant (GARP), which is a docking recep

180 of the Treg surface molecule glycoprotein A repetitions predominant (sGARP) has strong anti-inflamma

181 pendent inhibition of Lrrc32 (glycoprotein A repetitions predominant [GARP]), the adapter protein tha

182 rred by the administration of glycoprotein A repetitions predominant, a molecule expressed by activat

183 pattern of recognition memory (explicit) and repetition priming (implicit) in amnesia.

184 We investigate stimulus specificity of repetition priming in a tractable model system; the feed

185 Using repetition priming in visual perception as a model task,

186 Non-conscious mnemonic influences, such as repetition priming, are thought to have a negligible eff

187 us specificity that can be characteristic of repetition priming.

188 l and human fMRI studies have failed to find repetition probability [P(rep)] modulations of RS with n

189 nface visual objects is not modulated by the repetition probability in humans.

190 ce has been evaluated as a function of laser repetition rate (100-20 Hz) with corresponding C-trap io

191 This work represents the highest repetition rate achieved so far in a LGS Q-switched lase

192 magnitude down to 900 ps, a broadly-tunable repetition rate across three orders of magnitude up to 3

193 x per laser shot, scalability towards higher repetition rate and capability of seeding with a high ha

194 Repetition rate filtering relies on a single quantitativ

195 We applied a novel fast repetition rate fluorometry approach to screen genetical

196 Fast Repetition Rate fluorometry showed downregulated photosy

197 and 1840 nm is achieved with a synchronized repetition rate from 20 kHz to 40.5 kHz.

198 er with variable pulse duration, energy, and repetition rate has enabled the characterization of phot

199 ular, we demonstrate good reproducibility, a repetition rate in the range of only a few seconds, and

200 Despite the recent introduction of high-repetition rate lasers to increase sample throughput of

201 and 1845 nm, respectively, are obtained at a repetition rate of 12.3 MHz.

202 as short as 660 fs are readily obtained at a repetition rate of 15.4 MHz and a wavelength of 1557 nm.

203 nstrate an efficient Q-switched laser with a repetition rate of 200 kHz.

204 a spot size of 6 mm, fluence of 0.71 J/cm2, repetition rate of 5 Hz, and pulse width of 750 picoseco

205 nsform enables real-time spectroscopy at the repetition rate of million scans per second.

206 ch allows for full use of the current 120-Hz repetition rate of the Linear Coherent Light Source (LCL

207 n two-dimensional detectors, which limit the repetition rate of the measurement and can hinder real-t

208 The repetition rate of ~2 mum pulses can be tuned between ha

209 Pitch, the perceptual correlate of sound repetition rate or frequency, plays an important role in

210 Films can be formed at a prolonged, high repetition rate without the need for subsequent realignm

211 ealizing the promise of next-generation high-repetition rate X-ray lasers.

212 mental frequency [f0]) or temporal envelope (repetition rate) cues.

213 f six images per second (6 Hz; 3 Hz identity repetition rate) for a 20 s testing sequence, following

214 vel near-infrared (NIR) fiber laser of 1 MHz repetition rate, 65 ps pulse duration, and 1 cm(-1) spec

215 parameters that are easily recorded at high-repetition rate, by training a model on a small set of f

216 ynchronizing the sample exchange to the XFEL repetition rate, our method allows for most efficient us

217 ude, the number of electric pulses, or their repetition rate, the Raman signatures of live cells appe

218 osecond extreme-ultraviolet pulses at 50-kHz repetition rate, utilizing the ultraviolet second-harmon

219 fibers using 300-nJ laser pulses at 250 kHz repetition rate.

220 rable to the SACLA free-electron laser pulse repetition rate.

221 ed ions using an infrared laser with a 20 Hz repetition rate.

222 with peak electric field of 72 MV/m at 1 kHz repetition rate.

223 n invasive and many cannot operate at a high-repetition rate.

224 the Nyquist-Shannon sampling theorem on the repetition rate.

225 ing optimized aspherical profiles and a fast-repetition-rate excimer laser with cyclotorsion control

226 when combined with the on-going push of high-repetition-rate lasers (sub- to few MHz's) may eventuall

227 have been limited to continuous wave or high-repetition-rate pulsed lasers.

228 ld signal extraction method that enables low-repetition-rate pulsed light sources.

229 Low-repetition-rate pulsed sources cannot be used, due to th

230 The method shall enable s-SNOM with low-repetition-rate pulses with high-peak-powers, such as fe

231 An automated, miniature, high-repetition-rate shock tube was developed and can be used

232 Also, an operating point of enhanced repetition-rate stability occurs through balance of disp

233 on of IAP with the available high-energy kHz-repetition-rate Ytterbium-based laser amplifiers (delive

234 range, and terminate prey pursuits with high-repetition-rate, low-intensity buzzes.

235 mobility spectrometer (FAT-IMS) allows high repetition rates and reaches limits of detection in the

236 rs with simple accelerating structures, high repetition rates and significant charge per bunch.

237 The peak fields and the repetition rates are highly scalable and once fully oper

238 and helping to separate the signals even at repetition rates as high as 20-30 Hz.

239 lses with microsecond duration and kilohertz repetition rates at 1030 and 1558 nm.

240 actical Q-switched laser with a tunable high repetition rates for many applications, such as material

241 electric fields and 0.3 T magnetic fields at repetition rates of few 100 kHz.

242 Extending high-harmonic generation to high repetition rates portends great experimental benefits, y

243 table-top laser systems at sufficiently high repetition rates to enable quantitative nonlinear spectr

244 ects of pulse-to-pulse mixing at laser-pulse repetition rates up to 100 Hz.

245 ulses at unprecedented quasi-continuous-wave repetition rates up to the MHz regime.

246 trengths in the multi-ten-MV/cm range at kHz repetition rates, and tens of kV/cm at oscillator repeti

247 ition rates, and tens of kV/cm at oscillator repetition rates.

248 te nanosecond time windows with over 100-kHz repetition rates.

249 ns duration and 1.1-kW peak power at a 1-kHz repetition ratio.

250 ulation developed across hundreds of percept repetitions, reflecting several minutes of accumulating

251 We propose that the repetition-related changes in gamma-band synchronization

252 MUA and putative interneurons showed repetition-related decreases in firing rate, yet increas

253 Putative pyramidal cells showed no repetition-related firing rate change, but a decrease in

254 implying that perceptual expectations affect repetition-related processes.

255 ropic), we observed distinct familiarity and repetition-related recognition signal profiles in the de

256 ng viewing of novel faces also led to larger repetition-related suppression in the hippocampus, indic

257 y related to spontaneous speech, naming, and repetition scores.

258 juvenile songs, but also increased syllable repetitions similar to stuttering.

259 Other studies showed that stimulus repetition suppresses the neural response.

260 al expectations in determining adaptation or repetition suppression (RS) in humans.

261 The magnitude of repetition suppression (RS) in the Fusiform Face Area is

262 Specifically, the repetition suppression contrast map included bilateral s

263 alue their social groups exhibited decreased repetition suppression in bilateral DLPFC.

264 Using functional magnetic resonance imaging repetition suppression in humans, we examined how neuron

265 hat frontoparietal control network exhibited repetition suppression in response to "identical in-grou

266 by a whole-brain analysis showing additional repetition suppression in the precuneus.

267 It has been argued that this phenomenon of repetition suppression is related to increases in proces

268 Comparison of our whole-brain repetition suppression map with an independently identif

269 By contrast, the observed repetition suppression points to overlapping neural mech

270 Here, we use repetition suppression to examine the neural circuitry u

271 We used human fMRI repetition suppression to show that plasticity induced b

272 Using fMRI repetition suppression we measure newly formed cortical

273 early visual processing, including increased repetition suppression, suggesting better exemplar discr

274 without the confounds of stimulus novelty or repetition suppression, we used a cross-modal (audiovisu

275 as repetition of known structures results in repetition suppression.

276 s repetition of known structures resulted in repetition suppression.

277 irect electrical stimulation during a melody repetition task.

278 h perception and production in an overt word-repetition task.

279 ic tests correlated with conventional verbal repetition tests.

280 ice capable of delivering many more stimulus repetitions than conventional laboratory studies.

281 al damage predicted the 'harmful' effects of repetition: the ability to reselect both word and pictur

282 cts dual phase encoded lines within a single repetition time (TR) using two bipolar read-out trains.

283 (31)P magnetic resonance spectra (repetition time =10 s; echo time =0.35 ms) were acquired

284 mpled data by using five gradient echoes per repetition time at 3.0 T.

285 (23)Na (repetition time msec/echo time msec, 160/0.35) and (35)C

286 e-dimensional very short echo time sequence (repetition time msec/echo times msec, 30/0.075, 2, 5, 12

287 were imaged with proton density-weighted SE (repetition time msec/TE msec, 2000/15) and ultrashort TE

288 ve head motion (ie, > 0.8 mm translation per repetition time of 1.6 seconds throughout >10 minutes).

289 Dual-repetition time three-dimensional hybrid-radial UTE imag

290 ery high acquisition efficiency with a short repetition time.

291 ed (more than twofold, P < .0001), with mean repetition times compared with conventional SSFSE imagin

292 urrently varied stimulus familiarization and repetition to engage different facets of recognition mem

293 arental feeding, based on "context-dependent repetition" to promote automatic responding and to reduc

294 bjects were exposed to either two identical [repetition trials (RTs)] or two different [alternation t

295 o bind item features within and across study repetitions, ultimately disrupting recognition when it r

296 onal components that dissociated recency and repetition variables, indicating largely independent neu

297 rative teaching, postoperative feedback, and repetition was implemented for postgraduate year 4 resid

298 st for the second presentation of conceptual repetitions when the test probe was subsequently recogni

299 han was change in another task-auditory word repetition-which requires articulation but not word retr

300 Repetition within the columns of the network motif we de