ライフサイエンスコーパス: vigilance

1 f mecC-MRSA and ST398 indicates the need for vigilance.

2 tate, as evidenced by shifts in behavior and vigilance.

3 ources for both perceptual and metacognitive vigilance.

4 ognition are also associated with perceptual vigilance.

5 mission, highlighting the need for continued vigilance.

6 cificity should be continued improvement and vigilance.

7 metabolic and hormone regulation, mood, and vigilance.

8 e distinct from mechanisms modulating social vigilance.

9 EM disruption without changes in psychomotor vigilance.

10 ed responses to warning cues, suggesting low vigilance.

11 sk difficulty and cue processing to evaluate vigilance.

12 ular occlusion in patients with SLE deserves vigilance.

13 tical neurons during changes in the state of vigilance.

14 ed their rates of movement, displacement and vigilance.

15 social motivation and by attenuating social vigilance.

16 and a trend toward improvement in Attention/Vigilance.

17 as not correlated with change in psychomotor vigilance.

18 ges associated with decreases in behavioural vigilance.

19 communities internationally requires ongoing vigilance.

20 e reorienting, target detection, and arousal/vigilance.

21 dependent or vary according to the state of vigilance.

22 ere temporarily liberated from exteroceptive vigilance.

23 males while simultaneously inhibiting social vigilance.

24 s social approach but does not induce social vigilance.

25 of executive functioning but not psychomotor vigilance.

26 ucked was countered by reduced anti-predator vigilance.

27 iated energy conservation and anti-predatory vigilance.

28 ributes to both metacognition and perceptual vigilance.

29 followed by a brief wakeful rest or a simple vigilance (0-back) task.

30 g intimate partner violence, and to maintain vigilance about child maltreatment and its subtle clinic

31 re identified: Managing Competing Knowledge, Vigilance, Advocacy, Balancing Parental Work and the Bur

32 Vigilance against exploitation of the vulnerable meant m

33 Brain arousal was assessed using the Vigilance Algorithm Leipzig (VIGALL 2.1).

34 antidepressants show a) a high level of EEG-vigilance (an indicator of brain arousal) and b) a more

35 se, suggesting that heightened postoperative vigilance and a lower threshold to treat hyperglycemia m

36 bradycardia, a defensive response linked to vigilance and action preparation.

37 Continued vigilance and anti-poaching efforts will be necessary to

38 confirmation that CGp mediates exteroceptive vigilance and are consistent with the idea that CGp is p

39 ges in brain activity accompanying shifts in vigilance and arousal can interfere with the study of ot

40 in the perception of salient stimuli prompts vigilance and arousal.

41 n performance, probably because of decreased vigilance and attention.

42 y participates in brain circuits controlling vigilance and attention.

43 brain circuits regulating visual processing, vigilance and attention.

44 Rather than shifts between covert vigilance and avoidance of aversive facial expressions,

45 luntary airway defense reflexes on sleep and vigilance and cardiovascular function in healthy individ

46 etin), which have a crucial role in arousal, vigilance and central autonomic mobilization, all of whi

47 Clinicians should maintain a high level of vigilance and consider routine monitoring for ITP in pat

48 Our study highlights the importance of vigilance and continued surveillance of potential NAI mu

49 ed social stress-induced increases in social vigilance and decreases in social approach.

50 ficant finding which highlights the need for vigilance and education to accurately diagnose new and e

51 We conclude that the interplay of impaired vigilance and encoding in ADHD may compromise maintenanc

52 and neurophysiological measures of attention-vigilance and error detection distinguished ADHD remitte

53 Increased vigilance and expanding public health capacity should be

54 Pupillography can be used to investigate vigilance and how it contributes to perimetric variabili

55 e, patients should be treated with increased vigilance and improved therapies, in view of the increas

56 eocortex activation occurs during waking and vigilance and is readily induced in anesthetized animals

57 Diagnostic vigilance and prompt isolation may prevent nosocomial tr

58 BNSTam in stress naive mice increased social vigilance and reduced social approach.

59 summer of 2009 also resulted in an increased vigilance and sampling of seasonal influenza viruses (H1

60 teen controls completed the Counting Stroop, Vigilance and Stop Signal tasks.

61 Continuous vigilance and strengthening of infection control systems

62 ir homecage, including areas associated with vigilance and stress/anxiety, respectively, and during s

63 s the effects of clarithromycin on objective vigilance and subjective sleepiness.

64 Continued vigilance and sustained intensive control efforts are ne

65 Inhibition of this process impairs T cell vigilance and the ability of T cells to trigger T cell a

66 Multidisciplinary medical vigilance and the requisite health-care infrastructure a

67 thers indicating fluctuations between threat vigilance and threat avoidance.

68 72.5%, it was associated with an increase in vigilance and verifications in their professional practi

69 difficulty was low (consistent with impaired vigilance) and was predictive of memory task performance

70 cilitate attention via increasing alertness, vigilance, and by decreasing attentional thresholds.

71 rumination, excessive self-focus, increased vigilance, and emotional, visceral, and autonomic dysreg

72 acteristic pattern of species-typical social vigilance, and examined their performance in three socia

73 on, caffeine intake stimulates attention and vigilance, and reduces reaction time.

74 on, appetite regulation, hormone production, vigilance, and reward functions.

75 g doses of caffeine on objective measures of vigilance are not available.

76 al intraoperative caution, and postoperative vigilance are recommended in patients with a history of

77 inephrine-dependent Ca(2+) elevations during vigilance, are not well understood.

78 n, and low general attention due to impaired vigilance/arousal.

79 that active experience increases perceptual vigilance/attention to environmental acoustic stimuli (e

80 gical tasks (inhibition, working memory, and vigilance/attention).

81 Neonicotinoids are subjected to vigilance because of environmental contaminations and de

82 loss, emphasizing the importance of clinical vigilance, because early treatment might be critical to

83 boratory experiments that implicate foraging-vigilance behavior as one mechanism driving this pattern

84 e how the presence of tourists influence the vigilance behaviour of cranes foraging in Suaeda salsa s

85 s, causing them to increase the frequency of vigilance behaviour.

86 me and had a higher likelihood of performing vigilance behaviours, (ii) were quicker at handling live

87 late breathing, circulation and the state of vigilance, but previous methods to manipulate the activi

88 rative that these patients be monitored with vigilance by a multidisciplinary team to prevent progres

89 e of disturbance triggering a high degree of vigilance by cranes identified at 300 m.

90 ontaneous sleep states, a subject's level of vigilance can be monitored repeatedly during pharmacolog

91 Social stressors also increase social vigilance, characterized as orienting to an unfamiliar i

92 omotor, positional-autonomic, orienting, and vigilance circuits.

93 Delays tended to be resolved with vigilance, communication, coordination, and cooperation,

94 Crane vigilance declined with increasing distance from wildlif

95 , and potential resurgence if investment and vigilance decrease.

96 However, a vigilance decrement (reduced detection rate with time on

97 Again, we found a vigilance decrement but only when attention had to be ma

98 In a second experiment, we demonstrated a vigilance decrement in neglect patients specifically onl

99 participants did not experience the typical vigilance decrement in performance.

100 erformance declines over time (the so-called vigilance decrement), but the relationship between vigil

101 erformance declines over time (the so-called vigilance decrement), but the relationship between vigil

102 The vigilance decrement, or time-on-task effect-a decline in

103 a deterioration of performance over time--a vigilance decrement--considered by some to be a key inde

104 d one or more disturbances of sleep quality, vigilance deficits, or altered sleep-wake periodicity an

105 Vigilance-dependent astroglial activation is abolished b

106 Ethanol reduces vigilance-dependent Ca(2+) transients in noradrenergic t

107 HA neurons is important in the regulation of vigilance despite the lack of direct, causal evidence de

108 Likewise, mood, sleep quality, and morning vigilance did not differ (P > 0.05) between the dietary

109 The 15-minutes Time-course of EEG-vigilance did not differ significantly between groups.

110 effects due to global shifts of attention or vigilance do not explain our observations.

111 hat patterns in perceptual and metacognitive vigilance do not follow the pattern predicted by a previ

112 more immunosuppressive than FC, but with due vigilance, does not lead to a higher treatment-related m

113 ignificant group difference in the attention/vigilance domain (p = .024, effect size = 0.49) showed t

114 nd secondary outcomes (the MATRICS Attention-Vigilance Domain and P50 gating), showed no significant

115 tion of those patients who require increased vigilance due to their inherent genetic risk for the dev

116 sent data on a method for monitoring patient vigilance during a visual field test by using pupillomet

117 Soldiers developed threat vigilance during combat deployment, particularly when th

118 We call for increased vigilance during immune checkpoint inhibition until its

119 component processes of working memory (WM) (vigilance, encoding and maintenance) that may be differe

120 Acute stress transiently increases vigilance, enhancing the detection of salient stimuli in

121 shoot, even when controlling for psychomotor vigilance, fluid intelligence, and self-reported desirab

122 ter improvements in one measure of attention/vigilance following B-vitamin supplementation.

123 ith the predator cue, did not show increased vigilance following its detection, and spent less time i

124 NCIPLE FINDINGS: The macaques showed initial vigilance for aggressive faces across both conditions, b

125 The risk score can be used to increase vigilance for cognitive deterioration and for selection

126 exity and prolonged use warrant a heightened vigilance for early and late side effects, a priori beca

127 evel of anxiety may be beneficial to sustain vigilance for food avoidance; however, excessive anxiety

128 ive changes in the abdominal wall, increased vigilance for groin hernia seems to be important for the

129 Vigilance for Hodgkin lymphoma is needed for immune-defi

130 to cancer care and further call for extended vigilance for multiple mental disorders starting from th

131 These findings highlight the importance of vigilance for ocular syphilis, to avoid diagnostic and t

132 OSSN not associated with pterygium, and thus vigilance for recurrence is important.

133 fficiently along DNA while maintaining their vigilance for target damaged sites.

134 Continued vigilance for the development of resistance and unantici

135 Vigilance for this complication and new strategies for p

136 Continued vigilance for this invasive pathogen remains critical, a

137 striate activity in a manner consistent with vigilance for threat (N1), but disrupted later activity

138 tary adrenal (HPA) activation may exacerbate vigilance for threat cues.

139 Vigilance for threat information was decreased in the tr

140 contrast, OT reduced species typical social vigilance for unfamiliar, dominant, and emotional faces

141 Inducing vigilance immediately before evaluation increased fact-c

142 Subjective sleepiness, but not psychomotor vigilance, improved during a 2-week course of clarithrom

143 y elements in common, including the need for vigilance in detecting Escherichia coli O157:H7 infectio

144 ntal stimuli, episodic aggression, and hyper-vigilance in MAL.

145 reased the sense of urgency and the need for vigilance in medical research, clinical diagnosis, and e

146 is and fatigue wave amplitude are related to vigilance in patients who take a perimetric-type test.

147 nce decrement), but the relationship between vigilance in perception and metacognition has not yet be

148 nce decrement), but the relationship between vigilance in perception and metacognition has not yet be

149 sed risk of DRESS or SJS requires particular vigilance in telaprevir-treated patients.

150 Our recommendations include greater vigilance in testing adrenal function than current stand

151 tal cortex only, perhaps reflecting elevated vigilance in the MAP+ group.

152 ition of OTR alone is insufficient to induce vigilance in unstressed mice, suggesting that mechanisms

153 surge of public health interest and clinical vigilance in vulnerable areas of Southeast Asia.

154 tials to disentangle the impact of stress on vigilance, indexed by early perceptual activity, from it

155 ulation of sleep-wake cycle with fluctuating vigilance, intrusion of rapid eye movement dream imagery

156 Vigilance is a key component of behavioral inhibition, a

157 ing of negative test results, close clinical vigilance is indicated, natalizumab treatment should be

158 dispersion of V. velutina, we conclude that vigilance is required over a large area to prevent the e

159 nce is not a permanent state, and continuous vigilance is required to detect rejection episodes.

160 Vigilance is required to ensure that patients eligible f

161 This significant reduction in fear vigilance is similar to that seen with anxiolytic treatm

162 Increased vigilance is warranted among survivors of NHL to maximiz

163 oma is positive, although continued clinical vigilance is warranted for patients with nodular melanom

164 ith frequent arousals and increased next-day vigilance lapses versus Sham despite preserved sleep dur

165 omises was most frequently accomplished with vigilance, leadership, communication, and/or coordinatio

166 mean difference=5.4, SE=2.0), and attention/vigilance (least squares mean difference=8.7, SE=2.5).

167 responders showed a stronger decline in EEG-vigilance levels from baseline to T1 than non-responders

168 tion pathways that govern arousal states and vigilance levels.

169 In all states of vigilance, LFP power was lower in task-off than task-on

170 Chronically defeated females also showed vigilance-like behavior and deficits in social interacti

171 Clinician vigilance, longitudinal local surveillance, and refined

172 hat a basic role for OT in regulating social vigilance may have facilitated the evolution of prosocia

173 ur placebo manipulation consistently reduced vigilance measured in terms of undifferentiated reactivi

174 governed by prefrontal cortex, to a sensory-vigilance mode, governed by the amygdala and other threa

175 Cases collected by the Allergy Vigilance Network from 2002 to 2010 were analyzed for cl

176 nac hypersensitivity recorded by the Allergy Vigilance Network in France from 2002 to 2012 were studi

177 Our findings could improve the vigilance of hospitals and laboratories by raising aware

178 is able to adapt dramatically and escape the vigilance of the host's immune cells to survive.

179 Clinical vigilance of this disease process is important to ensure

180 specialties may induce rheumatic disease and vigilance on making a diagnosis is the key.

181 Increased frequency in crane vigilance only occurred in the much taller S. salsa/P. a

182 her enhanced by reward and punishment (e.g., vigilance) or specific to either reward or punishment (e

183 Does such prediction require conscious vigilance, or does it continue to unfold automatically i

184 st it is difficult to maintain attention and vigilance over long periods of time, it is unclear preci

185 he backbone of a network that ensures proper vigilance over the processes of protein folding, traffic

186 t performance in three of five TAP subtasks (vigilance, P < 0.001; shared attention: optical task, P

187 ific neuroprotective properties in attention/vigilance, particularly in patients with elevated homocy

188 on (TSD) paradigm to investigate psychomotor vigilance performance in individuals with chronic sleep-

189 uantity and quality, sleep-wake periodicity, vigilance performance, and workload throughout the recor

190 ta were divided into three consecutive 5-min vigilance periods to analyze sustained attention.

191 assays to be performed in both discovery and vigilance phases of small molecule development.

192 The magnitude of this early effect on threat vigilance predicted therapeutic response after 4 weeks.

193 entially modulate social approach and social vigilance, primarily through an OTR-Gq mechanism.

194 tional outcomes can induce anxiety and raise vigilance, promote and signal the opportunity for learni

195 acognitive demand led to superior perceptual vigilance, providing further support for this hypothesis

196 bjectively-(questionnaires) evaluated sleep, vigilance (psychomotor vigilance test), and athletic per

197 ovement in reaction time at all time-points (Vigilance Reaction Time MWU Z = -2.1 p = 0.03, MWU Z = -

198 Vigilance regarding longer-term comparative effectivenes

199 r of brain arousal) and b) a more stable EEG-vigilance regulation than non-responders.

200 b-associated PML requires optimised clinical vigilance, reliable and sensitive PCR testing of the JC

201 TR activation in anteromedial BNST induces a vigilance response in which individuals avoid, yet atten

202 creased social approach and decreased social vigilance responses.

203 al and paralimbic structures associated with vigilance, salience, reward, and motivation, and mentali

204 self-identification with positive words and vigilance scores increased to positive faces and decreas

205 Vigilance should be maintained in the thousands of Ebola

206 is mosaic vegetation whereas the duration of vigilance showed no significant difference between the t

207 hat both the frequency and duration of crane vigilance significantly increased in the presence of wil

208 standing of the interaction between state of vigilance (SOV) and seizure onset has therapeutic potent

209 uracy responses in tasks designed to measure vigilance (speed: P = 0.39, Cohen's d = 0.26; accuracy:

210 h responders showing significantly more high vigilance stage A and less low vigilance stage B.

211 tly more high vigilance stage A and less low vigilance stage B.

212 ders differed in distribution of overall EEG-vigilance stages (F2,133 = 4.780, p = 0.009), with respo

213 es tune the gating of synaptic NMDARs to the vigilance state and demonstrate that this is directly re

214 y behaving male rats change as a function of vigilance state and time awake.

215 communication from brain regions controlling vigilance state to the central circadian clock, with beh

216 te stimulation of pontine nuclei controlling vigilance state with analytical chemical measurements of

217 cuits connect brain stem sites that regulate vigilance state with the suprachiasmatic nucleus (SCN),

218 etween two brain systems, one which controls vigilance state, regulating the transition between sleep

219 fts in spontaneous dynamics depending on the vigilance state.

220 sticity was either absent or masked by large vigilance-state effects.

221 s importantly in central chemoreception in a vigilance-state- and diurnal-cycle-dependent manner and

222 stantially attenuate the CO(2) response in a vigilance-state- and diurnal-cycle-dependent manner.

223 ch lead to transitions between primary brain vigilance states (waking, non-rapid eye movement sleep [

224 such as ambient glucose directly to regulate vigilance states accordingly.

225 d sleep in sheep, quantifying characteristic vigilance states and neurophysiological hallmarks such a

226 spikes and bursts; bursts prevail during low-vigilance states but also occur during awake behavior.

227 ctivity from these two structures across all vigilance states in freely moving male rats to determine

228 particular, the ability to express distinct vigilance states is a key physiological marker of neurol

229 Although the brain circuitry underlying vigilance states is well described, the molecular mechan

230 can integrate noradrenergic activity during vigilance states to mediate distinct functions supportin

231 inuous electroencephalographic monitoring of vigilance states was performed in macaques, using an imp

232 tegration across brain systems that regulate vigilance states, and a potential vulnerability to alter

233 calcium activity changes dynamically across vigilance states, is proportional to sleep need, and is

234 t (~10%) differences in response gain across vigilance states, replicating previous studies.

235 ctions in neuronal activity are dependent on vigilance states.

236 occur in different behavioral, cognitive, or vigilance states.

237 bling those obtained from EEG SWA and global vigilance states.

238 so increased delta/theta activity during all vigilance states.

239 changes in brain connectivity across the two vigilance states.

240 and innexin2 genes are dynamically linked to vigilance states.

241 etacognitive task demand improves perceptual vigilance, suggesting that aPFC may house a limited cogn

242 ociated with sleep to behavioural changes in vigilance (sustained eye closure and muscle inactivity).

243 ex; secondary outcomes were sleep structure, vigilance, symptoms, adverse effects, and exercise perfo

244 ad significantly slower reactions during the Vigilance task (F = 4.86, p = .035), and incongruent tri

245 ze changes in performance on the psychomotor vigilance task (PVT) and subjective fatigue ratings.

246 was median reaction time on the psychomotor vigilance task (PVT) at week 2 in each condition.

247 Neuroimaging studies of the Psychomotor Vigilance Task (PVT) have revealed brain regions involve

248 ng a face/nonface categorization psychomotor vigilance task (PVT) over multiple experimental sessions

249 dependent effects of caffeine on psychomotor vigilance task (PVT) performance of sleep-deprived subje

250 MR) imaging was performed with a psychomotor vigilance task (sustained attention) and delayed match-t

251 ilateral insular cortex during a psychomotor vigilance task (Z = 2.9-3.4, P = .01-.008) and functiona

252 the proposed unified model using psychomotor vigilance task data from three prior studies involving T

253 ffects of a brief wakeful rest compared to a vigilance task immediately after the encoding of traumat

254 onal failures on a 10-min visual psychomotor vigilance task taken at 20 hours awake (resilient: less

255 ing (fMRI) during a parametrically modulated vigilance task with a progressively increasing load of s

256 parametrically modulated sustained attention/vigilance task, the authors examined brain activation an

257 nherently boring or tedious, something that "vigilance tasks" were intentionally designed to be.

258 ave revealed significant overall deficits on vigilance tasks, but to date there has been no demonstra

259 ber, and included actigraphy and psychomotor vigilance tasks.

260 sed whether baseline features of Psychomotor Vigilance Test (PVT) performance can be used for classif

261 inska Sleepiness Scale, KSS) and Psychomotor Vigilance Test (PVT) performance were examined during da

262 0 min and a 3 min version of the psychomotor vigilance test (PVT) were administered every 3 h during

263 reaction time performance on the psychomotor vigilance test (PVT).

264 leep]), and a brief computerized Psychomotor Vigilance Test (PVT-B), with long response times (lapses

265 We validated the model on psychomotor vigilance test data from two studies involving 12 subjec

266 res) evaluated sleep, vigilance (psychomotor vigilance test), and athletic performance (40-m sprint t

267 For the psychomotor vigilance test, it accounts for lapses in performance un

268 sk (a "simple RT task") and on a psychomotor vigilance test.

269 ; wore actigraphs; and performed psychomotor vigilance testing daily.

270 Psychomotor vigilance testing did not demonstrate any differences.

271 ual dolphins are able to maintain continuous vigilance through this active sense is unknown.

272 mice carrying this mutation showed increased vigilance time and less sleep time than control mice in

273 d to adverse infectious events and continued vigilance to define the benefits and risks of FMT across

274 requires a considered balance of maintaining vigilance to detect endemic COVID-19, establishing conti

275 Vigilance to identify early VZV symptoms is important to

276 ystemic innate immune system and to maintain vigilance to infection.

277 atment to a lower target may require greater vigilance to monitor for and avoid possible symptoms and

278 a life-long condition that requires constant vigilance to prevent accidental exposure and avoid poten

279 use of clozapine is warranted together with vigilance to prevent and detect serious medical adverse

280 sing tasks, including a dot-probe measure of vigilance to threat.

281 FC (bipolar-balanced montage) showed reduced vigilance to threatening stimuli.

282 hat modulating activity in the DLPFC reduces vigilance to threatening stimuli.

283 model snake, alongside sustained attention (vigilance) to novel cues in a context associated with un

284 -based understanding of biosafety practices, vigilance toward biosafety, and enforcement of biosafety

285 ission efficacy genotype display attentional vigilance toward negatively valenced stimuli, a pattern

286 these results demonstrate that OT suppresses vigilance toward potential social threats in the rhesus

287 es social interaction by reducing a state of vigilance toward potential social threats.

288 id individual cognitive domains of attention/vigilance, verbal learning, and social cognition; howeve

289 Following the health check, initial vigilance was followed by rapid and sustained avoidance

290 Ac OTR can modulate both social approach and vigilance, we use pharmacological approaches to assess t

291 ve stimuli that lead to prolonged periods of vigilance were accompanied by robust noradrenergic axona

292 ction in gCBF, yet cognitive performance and vigilance were enhanced.

293 No changes in sleep and psychomotor vigilance were observed.

294 iminated the emergence of a typical state of vigilance when dominant face images were available durin

295 on systems and the importance of maintaining vigilance when operating drinking water systems using so

296 in multi-drug resistance, and indicate that vigilance will be required if benznidazole is used in co

297 ecause rubella is a highly epidemic disease, vigilance will be required to assure continued eliminati

298 This calls for renewed vigilance, with systematic reference to astronomical tim

299 was driven by the MCCB domains of attention/vigilance, working memory, and visual learning.

300 nd nonsocial (speed of processing, attention/vigilance, working memory, verbal memory, visual memory,