ライフサイエンスコーパス: alarm

1 ic device to give a numerical reading and/or alarm.

2 LRs, to initiate a rapid and strong cytokine alarm.

3 oned fear, in which innocuous stimuli elicit alarm.

4 use of the high number of false and nuisance alarms.

5 rsing interventions associated with managing alarms.

6 Nurses responded to 46.8% of all alarms.

7 ursing interventions occurred in response to alarms.

8 gency warnings of volcanic activity as false alarms.

9 countries with high vaccination coverage is alarming.

10 alence of this resistance is increasing, are alarming.

11 nts who are overweight or obese worldwide is alarming.

12 The results are both promising and alarming.

13 s multidrug resistant Candida auris are also alarming.

14 al strains resistant to known antibiotics is alarming.

15 ntion), and if there was a lethal arrhythmia alarm (1.2 minutes [95% CI, -0.6 to 2.9] vs 10.4 minutes

16 ease encodes pro-social 50 kHz USVs, but not alarming 22 kHz USVs.

17 patients in whom the detector raised seizure alarms, 80% had scalp-negative mesial temporal lobe seiz

18 ders in the scientific community have raised alarms about a perceived lack of reproducibility of scie

19 ext] (thus reducing the probability of false alarms about pathogen adaptation).

20 The "alarm" AFF mode sounded when the force reached 9 mN.

21 d that males only produced predator-specific alarms after the females had produced theirs, in respons

22 Bedside monitor alarms alert nurses to life-threatening physiologic chan

23 Of 11745 alarms among 100 children, 50 (0.5%) were actionable.

24 t are not influenced by learning, such as in alarm and food calling.

25 a and the developed method, we compute false alarm and miss error probabilities in wild-type cells an

26 method computes and reveals changes in false alarm and miss probabilities in A20-deficient cells, cau

27 pes of incorrect cell decisions called false alarm and miss.

28 udden explosive epidemics often cause public alarm and seriously stress healthcare systems.

29 In study arm A, participants peeled with alarm and warning AFF modes, the order randomized within

30 additional species of Enterobacteriaceae is alarming and may disproportionately affect patients with

31 tion, reflected in both an increase in false alarms and a reduction in detected targets.

32 tural alarm signals as well as in artificial alarms and that the presence of roughness in sounds boos

33 de range of biological contexts, from trail, alarm, and queen pheromones in social insects to the mam

34 The equipment, monitor alarms, and acuity of patients in ICUs make it one of th

35 According to signal detection theory, false alarms are attributed to noise in the visual nervous sys

36 to bias and are not applicable to detect an alarming array of psychoactive stimulants, tranquilizers

37 ted increase in the frequency of seizures is alarming, as these events are associated with adverse ne

38 The NMR ALARM assay, mass spectroscopy experiments, in vitro cou

39 d bed alarm system (intervention units); bed alarms available but not formally promoted or supported

40 The threat is more alarming because, yield quality and quantity improvement

41 has been increasing dramatically, which has alarmed both the medical community and the FDA.

42 Enhancing hits and generating false alarms both scaled with stimulation intensity.

43 dangerous snake, whether or not he gives an alarm call depends on his perception of another individu

44 we show that chimpanzees were more likely to alarm call in response to a snake in the presence of una

45 eover, the females persistently continued to alarm call until their own male produced calls with the

46 Using an alarm-call-based field experiment, we show that chimpanz

47 irs, in response to which the females ceased alarm calling.

48 t the frequency parameters, of their mobbing alarm calls (hereafter 'alarm calls').

49 o which they were attracted by broadcasts of alarm calls (social information).

50 While the semantic properties of vervet alarm calls bear little resemblance to human words, the

51 to the informational content of each other's alarm calls but prioritize them differently relative to

52 Alarm calls given in response to leopards, eagles, and s

53 Despite the central role the vervet alarm calls have played for understanding the evolution

54 The alarm calls of vervet monkeys (Chlorocebus pygerythrus)

55 both the production and perception of avian alarm calls using a combination of lab and field experim

56 seen the snake or had not been present when alarm calls were emitted.

57 Alarm calls were significantly more common if the caller

58 rs, of their mobbing alarm calls (hereafter 'alarm calls').

59 at current levels of road traffic noise mask alarm calls, impeding the ability of great tits to perce

60 s [8, 9]), but this does not usually include alarm calls, which are thought to be the product of kin

61 Therefore, an alarm can be delivered within a few minutes for in time

62 Mounted on an alarmed cardboard box, the keypad requires the appropria

63 arcinoma were identified (1.4%), one without alarm characteristics, 1 case of adenocarcinoma of the d

64 ueneberg ganglion, a structure implicated in alarm chemosignaling, or blockade of pups' alarm odor-in

65 How do circadian rhythms, alarm clocks and the light/dark cycle interact?

66 Alarm communication is a key adaptation that helps socia

67 sage) messaging, calendars, peer supporters, alarms, counselling, and basic and enhanced standard of

68 spent significantly more time in a chemical alarm cue (CAC) than control fish, supporting a potentia

69 es and as such, is a key candidate as a food/alarm cue in blood.

70 ses, and in other settings, to avoid "false" alarms due to isolated events and homogenize the ability

71 tion rules to ensure a manageable number of 'alarms' each day.

72 tibiotics to improve cure rates and curb the alarming emergence of drug resistance is the major objec

73 protozoan) parasite Trypanosoma cruzi, is an alarming emerging global health problem with no clinical

74 Missed alarm events (i.e., no notification page transmitted) oc

75 bservation period, the observers printed the alarm events as recorded by the central monitoring compu

76 The nature and degree of missed alarm events suggests patient safety concerns posed by h

77 oninvasive vital sign data streams to reduce alarm fatigue and missed true instability.

78 Chronic alarm fatigue resulting from long-term exposure to nonac

79 ogenic H7N7 in Europe in 2015 raised further alarm for a potential pandemic.

80 ke is also armed with a fluorescence turn-on alarm for accidental deactivation of the ABS function by

81 2.9] vs 10.4 minutes [95% CI, 5.1-15.8] for alarms for other conditions).

82 Unit staffing and false alarm frequency were not associated with response time,

83 Major food adulteration incidents occur with alarming frequency and are episodic, with the latest inc

84 replacement ranges from 0.8% to 15%, with an alarming frequency caused by methicillin-resistant Staph

85 We noted an alarming genetic relatedness between 7 (20.6%) MRSA isol

86 nce: Several epidemiological studies show an alarming global increase in incidence of melanoma and no

87 Several epidemiological studies show an alarming global increase in incidence of melanoma and no

88 mechanisms has grown rapidly in view of the alarming global increase in obesity.

89 The alarming growth of antibiotic resistant superbugs such a

90 advantage of particular importance given the alarming growth of pan-drug-resistant bacteria.

91 Researcher and media alarms have caused plastic debris to be perceived as a m

92 te ethanol (EtOH) intoxication has become an alarming health problem.

93 as Alzheimer disease are among today's most alarming health problems in our aging society.

94 We present evidence that these alarming health statistics are in part due to diminished

95 We propose the "false alarm" hypothesis, in which AGEs that are present in or

96 nditions (MCCs), and trends are particularly alarming in youth.

97 uding speech, a pre-requisite to avoid false alarms in normal vocal communication.

98 ing nurses' response to monitor desaturation alarms in postoperative patients on a general postoperat

99 It evolves as serious health burden with alarming incidence, but there is no satisfying pharmacol

100 mous global health concern complicated by an alarming increase in antibiotic resistance.

101 The alarming increase in the incidence and severity of food

102 During the past 5 years, an alarming increase in the number of patients with multidr

103 ough the results are imprecise, there was no alarming increase in the risk of upper gastrointestinal

104 The alarming increase of pathogenic bacteria that are resist

105 wide spectrum antibiotics, thus resulting in alarming increases of multidrug resistant pathogens.

106 uct of the suggested methodology consists of alarms indicating a possible contamination event based o

107 diagnostic examinations), and TARP (CHOP-ROP alarm initiates imaging, and imaging finding of severe R

108 Telemetry alarms involving traditional on-site monitoring rarely a

109 Also alarming is the repetition of the fishery's response to

110 s and with antibiotic resistance becoming an alarming issue, the search for effective vaccine targets

111 besity in adults and children has reached an alarming level.

112 Patient, nurse, and alarm-level factors hypothesized to predict response tim

113 Illegal wildlife trade has reached alarming levels globally, extirpating populations of com

114 e of resistant HIV in Aruba has increased to alarming levels, compromising the WHO-recommended first-

115 Weight gain and obesity have reached alarming levels.

116 revalence is increasing in many countries at alarming levels.

117 habits, notably during the weekends, have an alarming link with both the structure of the adolescent

118 We demonstrate alarming losses comprising one-tenth (3.3 million km(2))

119 t elephants in Central Africa have sustained alarming losses in the last decade [1].

120 Gumti National Park, Nigeria, in which male alarm/loud calls were presented either alone, or followi

121 The nursing workload associated with alarm management remains unexamined.

122 nterval monitoring among select populations, alarm management, and documentation in electronic health

123 ient population; (3) Organizational Aspects: Alarm Management, Education of Staff, and Documentation;

124 ntinue to reveal gaps in practice related to alarm management.

125 ogy, as well as a hospitalist and experts in alarm management.

126 ing from long-term exposure to nonactionable alarms may be a more important determinant of response t

127 In biological terms, a higher false alarm metric in this abnormal TNF signaling system indic

128 those features that confer to screams their alarming nature, and we track their processing in the hu

129 tic stimuli shows that W3 cells may serve as alarm neurons for overhead predators.

130 Protein mass spectrometry and ALARM NMR confirmed these compounds react covalently wit

131 of 23, 65%) of the inhibitors are flagged by ALARM NMR, an industry-developed counter-screen for prom

132 We determined that alarming nocturnal oscillations in arterial pressure and

133 onditioned stimuli (CS+/CS-) and an aversive alarm noise as the unconditioned stimulus.

134 Alarm notification data and response times were recorded

135 One-third of pulse oximetry alarm notifications were for clinically relevant oxygen

136 vidence linking the ZIKV(BR) outbreak to the alarming number of cases of congenital brain malformatio

137 MU detection and notification of rhythm/rate alarms occurring 1 hour or less prior to emergency respo

138 n alarm chemosignaling, or blockade of pups' alarm odor-induced corticosterone increase prevented tra

139 allergies is increasing in parallel with the alarm of the scientific community.

140 tegrated separators prove efficient as early alarms of Li penetration, opening up the opportunity for

141 to sense Ag complemented their role as early alarms of pathogen invasion.

142 An alarming one-fifth of twins in the region dies before ag

143 participants first peeled without AFF, then alarm or warning AFF (order randomized within the experi

144 at, once initiated, has been occurring at an alarming pace.

145 le, nest defenders were triggered by the bee alarm pheromone and live hornet presence to heat-ball th

146 bee species can detect and use a specialized alarm pheromone component, benzyl acetate (BA), to avoid

147 hat OBP3 from M. viciae can bind to all four alarm pheromone components and the differential ligand b

148 xamine their molecular interactions with the alarm pheromone components.

149 We next examined responses to individual alarm pheromone compounds.

150 to release (E)-beta-farnesene (Ebetaf), the alarm pheromone for many pest aphids, using a synthetic

151 e chemical structure of the identified mouse alarm pheromone has similar features as the sulfur-conta

152 f conservation with mammals, even though the alarm pheromone itself is bee-specific.

153 ided BA as strongly as they did to their own alarm pheromone on natural inflorescences.

154 We analysed the volatile alarm pheromone produced by attacked workers of the most

155 ials or a closer imitation, in the plant, of alarm pheromone release.

156 For the alarm pheromone response gene set, we found a particular

157 onserved honey bee genes associated with the alarm pheromone response shows overrepresentation of pro

158 entially expressed gene sets associated with alarm pheromone response, the difference between old and

159 g of critical neural circuits in response to alarm pheromone.

160 ral tests, the chemical structure of a mouse alarm pheromone.

161 tarily warn the prey or by the production of alarm pheromones by the stressed prey alerting its consp

162 t Apis cerana foragers avoid the distinctive alarm pheromones of A. dorsata and A. mellifera, species

163 as the sensory organ through which mammalian alarm pheromones signal a threatening situation, the che

164 Both species use alarm pheromones to warn of dangers.

165 foragers could eavesdrop upon heterospecific alarm pheromones, and would detect and avoid conspicuous

166 d avoidance of heterospecific alarm signals, alarm pheromones, at food sources in bees.

167 n hospitals (for example, voice, intravenous alarm, phone, ice machine, outside traffic, and helicopt

168 hotosynthetic path, with the suggested name "alarm photosynthesis," seems to provide a number of adap

169 ndangered ecosystems such as paramos and the alarming potential for species losses throughout the tro

170 This alarming property of acetyl-specific antibodies has far-

171 An alarming proportion of incident human immunodeficiency v

172 most antibiotics in clinical use has reached alarming proportions.

173 ealth, and their potential coexistence is an alarming prospect.

174 ZIKV reached pandemic level resulting in an alarming public health emergency.

175 allergic inflammation, and has emerged as an alarming public health issue.

176 It continues to represent an alarming public health threat in the region and beyond a

177 10(6) particles), an ultralow decoding false-alarm rate (<10(-9)), the ability to manipulate particle

178 Nearby collinear flankers increase the false alarm rate (reports of the target being present when it

179 Across flank distances, both the false alarm rate and d' (with no external noise) are correlate

180 amount of external noise at which the false alarm rate increases by the radical2 (which we refer to

181 The detector had a false alarm rate of only 0.31 per day and a positive predictiv

182 ) and the false-positive rate (ie, the false-alarm rate or 1 - sensitivity) and compared these rates

183 and increasing the filling-in effect (False Alarm rate).

184 resistance to dirt with an acceptable false alarm rate.

185 ty levels were associated with a lower false alarm rate.

186 The alarming rate at which antibiotic resistance is occurrin

187 de prevalence of obesity is increasing at an alarming rate but treatment options remain limited.

188 emic of Ebola virus disease has spread at an alarming rate despite containment efforts.

189 virus infections are still increasing at an alarming rate in tropical and subtropical countries, und

190 It further emphasizes the alarming rate of amphibian translocations, both at globa

191 Given the alarming rate of biodiversity loss, systematic methodolo

192 of food allergies has been increasing at an alarming rate over the last few decades.

193 Primary tropical forests are lost at an alarming rate, and much of the remaining forest is being

194 lence of Type 2 diabetes has increased at an alarming rate, highlighting the need to correctly predic

195 The human population is increasing at an alarming rate, whereas heavy metals (HMs) pollution is m

196 ve substances," is increasing globally at an alarming rate.

197 bally, and the incidence is increasing at an alarming rate.

198 The incidence of obesity is rising at an alarming rate.

199 ctive substances" (NPS), is increasing at an alarming rate.

200 is evolving new resistance activities at an alarming rate.

201 g genes, species and biological traits at an alarming rate.

202 g from gastrointestinal angiodysplasia at an alarming rate.

203 ssing cassava yields in eastern Africa at an alarming rate.

204 values; the increased noise to higher false alarm rates (the filling effect).

205 nd yields hit rates above 0.5, whereas false-alarm rates are below 0.1.

206 xplosive threats while maintaining low false alarm rates.

207 Species and interactions are being lost at alarming rates and it is imperative to understand how co

208 Posidonia oceanica meadows are declining at alarming rates due to climate change and human activitie

209 eas overweight and obesity have increased at alarming rates in all age and socioeconomic groups.

210 hat land and water grabbing are occurring at alarming rates in all continents except Antarctica.

211 rth observations have located and quantified alarming rates of groundwater depletion worldwide.

212 The prevalence of obesity has increased at alarming rates, particularly because of the increased co

213 With antibiotic resistance increasing at alarming rates, targets for new antimicrobial therapies

214 idrug-resistant superbugs, are increasing at alarming rates.

215 yet they are being converted and degraded at alarming rates.

216 sistant pathogens that continue to emerge at alarming rates.

217 erious infectious diseases, has increased at alarming rates.

218 ty during pregnancy continues to increase at alarming rates.

219 observed for Go correct-hit and No-Go false-alarm reaction times with increased reaction times in he

220 Pain triggers a homeostatic alarm reaction to injury.

221 ising molecular tool with which to raise the alarm regarding early population decline, since telomere

222 e heuristics nurses use to assess whether an alarm represents a life-threatening condition.

223 for 2 or more patients), if there were prior alarms requiring intervention (5.5 minutes [95% CI, 1.5-

224 Among the most alarming resistance trends is the rapid rise in the numb

225 factors associated with physiologic monitor alarm response time.

226 One possible explanation for these alarming results is the notion that the effects of antio

227 We currently face an alarming resurgence in infectious diseases characterized

228 istance plasmids are key contributors to the alarming rise in bacterial multidrug resistance.

229 ons like Diabetic retinopathy are showing an alarming rise in developing countries like Zanzibar.

230 Beginning in the 1980s, an alarming rise in the incidence of esophageal adenocarcin

231 The ongoing Ebola outbreak poses an alarming risk to the countries of West Africa and beyond

232 vel of economic inequality in the nation has alarmed scholars, pundits, and elected officials alike,

233 Alarm, shock and disbelief were frequently expressed ini

234 nequities; a looming increase in the already alarming shortfall in health-care professionals; and fai

235 7 receptor constitutes a neuron-to-microglia alarm signal implicated in ALS pathology, we used primar

236 competing pollinators can take advantage of alarm signal information provided by other species.

237 the first evidence, in social insects, of an alarm signal that encodes graded danger and attack conte

238 nce, is therefore matched with an inhibitory/alarm signal that encodes information about the context

239 exRNA) has been characterized as a molecular alarm signal upon cellular stress or tissue injury and t

240 ls isolated from 1L of beer, which fits the "alarm signal" range (from 1 to 100 cells per 100mL).

241 treated patients observed in our study is an alarming signal for the VL elimination campaign, urging

242 in addition to Fas ligand (FasL) and induced alarm signaling molecule IL-33 in Kupffer cells, presuma

243 implicated in attraction, reproduction, and alarm-signaling behaviors in other species.

244 ntered antigens that precipitate innate-like alarm signals and draw circulating memory CD8(+) T cells

245 We show that roughness is present in natural alarm signals as well as in artificial alarms and that t

246 dominated responses by triggering endogenous alarm signals that, in turn, induce type I IFN-dependent

247 avesdropping and avoidance of heterospecific alarm signals, alarm pheromones, at food sources in bees

248 ate their position in response to peripheral alarm signals.

249 th 2-6 day heartburn episodes weekly without alarm signals.

250 the responses of other bee species to these alarm signals.

251 Recent years have seen an increase in alarming signals regarding the lack of replicability in

252 The age of 48 years was indicative of alarm signs.

253 revalence during adolescence is particularly alarming since recent evidence indicates that obesity ca

254 In view of the alarming spread of antimicrobial resistance in the absen

255 e demonstrate the role of habenular Kiss1 in alarm substance (AS)-induced fear response in the zebraf

256 ere has been increasing recognition that the alarming surge in allergy and autoimmunity in the indust

257 esophageal dysphagia is a so-called red flag alarm symptom requiring oesophagogastroduodenoscopy.

258 Coexistent dysphagia is considered an alarm symptom, prompting evaluation.

259 ndicated in men and women with heartburn and alarm symptoms (dysphagia, bleeding, anemia, weight loss

260 ; 95% CI 1.0-36.5) and positive psychosocial alarm symptoms (OR = 3.8; 95% CI 1.0-14.0) were associat

261 We believe that alarm symptoms and endoscopic scanning programs require

262 al and gastric cancers and the usefulness of alarm symptoms in diagnosing gastric cancer in subjects

263 should be restricted to those patients with alarm symptoms, with ill-matching symptoms, or other cas

264 Forty-five percent of the patients reported alarm symptoms.

265 ary lifestyle measures, for patients without alarm symptoms.

266 f-life care, proxy reports of pain and other alarming symptoms in the last year of life increased fro

267 cal support to promote use of a standard bed alarm system (intervention units); bed alarms available

268 trol of the amygdala, and sets off a general alarm system as seen in affective disorders, such as chr

269 accounts of the dACC-AI network as a neural alarm system restricted within the social domain to the

270 tap into the same neural and physiological 'alarm system' that responds to other critical survival t

271 nt of useful devices for a fast and reliable alarm system.

272 he difficulties and complexities of managing alarm systems and the range of nursing interventions ass

273 Bed alarm systems intended to prevent hospital falls have no

274 m with such precision as to avoid triggering alarms that could potentially reveal its presence.

275 trast, females always gave predator-specific alarms that matched the predator type, regardless of the

276 tions between exposures and response time to alarms that occurred while the nurse was outside the roo

277 in practice: Technologies generated frequent alarms that placed a burden upon staff, but staff were a

278 ver, the males always gave predator-specific alarms that referentially matched the females' calls, re

279 n good memory performers (R-hits minus false alarm), the coupling was stronger in R than NR between t

280 gainst parasitic diseases that still pose an alarming threat to mankind.

281 or irrelevant (i.e., artifact, inappropriate alarm threshold, or failure to delay page).

282 odal stimulation reduced the number of false alarms to lure pictures in subsequent recognition memory

283 The number of nonactionable alarms to which the nurse was exposed in the preceding 1

284 cies with highly dimorphic predator-specific alarms, to investigate the communication strategies of m

285 Primary outcome was alarm-to-thrombolysis time.

286 g patients for whom STEMO was deployed, mean alarm-to-treatment time (51.8 min; 95% CI, 49.0-54.6) wa

287 a reduction of 15 minutes (95% CI, 11-19) in alarm-to-treatment times in the catchment area during ST

288 s remain, given potential system barriers to alarm transmission, recognition, and nursing response.

289 s but some features of the generated results alarmed us about possible surveillance bias, which we de

290 bed alarm use in an urban hospital increased alarm use but had no statistically or clinically signifi

291 An intervention designed to increase bed alarm use in an urban hospital increased alarm use but h

292 ct to being either 'normal' via A-fibres or 'alarm' via TRPV1 expressing C-fibres and, accordingly, t

293 Poor patient selection contributes to a high alarm volume with low clinical yield.

294 region, and the coral reef "Bleaching Alert" alarm was not raised.

295 Of the 13 control patients, false seizure alarms were raised in only one patient.

296 Alarms were triggered when displayed saturations decreas

297 e liberal response bias (more hits and false alarms) when testing memory for the scenes 24 h later.

298 were followed by playbacks of male or female alarms with a matching or mismatching referent.

299 e disparity between urban and rural sites is alarming, with all maternal mortality indicators signifi

300 e incidence of microcephaly in Brazil raised alarms worldwide.