ライフサイエンスコーパス: asleep

1 isturbances (eg, trouble falling and staying asleep).

2 efficiency (percentage of time in bed spent asleep).

3 ir heart rate, number of daily steps or time asleep.

4 any measured local stimulus either awake or asleep.

5 urbances interfering with falling or staying asleep.

6 decreases in blood volume when the mouse was asleep.

7 ns outlast the effects on SWA and time spent asleep.

8 alize not being awake but are dreaming while asleep.

9 sensory processing takes place upon falling asleep.

10 rations, reaching up to 106-h awake and 48-h asleep.

11 ectivity changes that occurs towards falling asleep.

12 states, despite the absence of movement when asleep.

13 -reported and actigraphy-assessed time spent asleep.

14 ith lateralized hand responses while falling asleep.

15 postures when awake, and hyperextension when asleep.

16 reductions in the time their denizens spend asleep.

17 before imaging were spent awake rather than asleep.

18 ere that infants exhibit learning even while asleep.

19 y undergo executive disconnection and remain asleep.

20 ng wakefulness is counterbalanced by staying asleep.

21 cted by how long an animal has been awake or asleep.

22 on maintaining airway patency awake, but not asleep.

23 they recall the location in which they fell asleep.

24 emory for the location in which the rat fell asleep.

25 h is an inability to breathe unassisted when asleep.

26 , sniffing occurred even while pups remained asleep.

27 pulse oximetry while children were awake and asleep.

28 0 [1.40, 3.14] in RS) and difficulty falling asleep (1.87 [1.49, 2.35] in US; RS = 1.90 [1.50, 2.43]

29 95% CI, 1.39-1.58) for difficulty in falling asleep, 1.47 (95% CI, 1.39-1.56) for excessive daytime s

30 antly more frequently having trouble falling asleep (44.6% vs. 16.6%), early morning awakening (38.9%

31 Difficulty falling asleep (8 cohorts, n = 12,500) was categorized as yes or

32 f wakefulness and dissipates with time spent asleep, a process called sleep homeostasis.

33 A consistent bedtime routine, falling asleep alone, and other sleep practices reduce difficult

34 ates for traditional awake DBS or prefer the asleep alternative.

35 esponse to visual and auditory stimuli while asleep and awake.

36 ants reading an LE-eBook took longer to fall asleep and had reduced evening sleepiness, reduced melat

37 Here we show that individuals who are asleep and in the midst of a lucid dream (aware of the f

38 vels in Kenyon cells decline when flies fall asleep and increase when they wake up.

39 reflects the degree of difficulty of falling asleep and is a critical measure for the FNE.

40 antly higher arousal durations after falling asleep and more periodic limb movements (P = 0.002 and P

41 a symptoms, especially difficulty initiating asleep and nonrestorative sleep, are associated with a m

42 Patients were fed so they would fall asleep and placed in the scanner with an immobilizing pi

43 Time spent asleep and sleep efficiency were also captured.

44 l between the time a person attempts to fall asleep and the onset of sleep) (1.7+/-0.4 vs. 0.3+/-0.3

45 mass index was inversely related to average asleep and waking oxygen saturation.

46 These data provide evidence that low asleep and waking oxygen saturations are associated with

47 ividuals, including in the timing of falling asleep and waking up and non-rapid eye movement sleep (N

48 Like falling asleep and waking up, many biological processes in mamma

49 ropeptides to dictate when an organism falls asleep and when it wakes up.(1)(,)(2)(,)(3)(,)(4)(,)(5)(

50 or oxygenation/ventilation support (awake or asleep) and required admission to our pediatric ICU.

51 s between body temperature when awake versus asleep, and (3) lower diurnal body temperature amplitude

52 asing number of symptoms, difficulty falling asleep, and difficulty returning to sleep.

53 eported on sleep quality (difficulty falling asleep, and early morning awakening), sleep quantity (<

54 e sleep duration, sleep onset - time to fall asleep, and frequencies of night awakenings).

55 n of 40 increased time awake, decreased time asleep, and increased sleep/wake consolidation in 12-mon

56 cluding tremor, transient difficulty falling asleep, and mild urinary retention (requiring early morn

57 s of nighttime sleep, increased time to fall asleep, and reduced sleep quality.

58 sess sleep quality, sleep disturbances, time asleep, and time in bed.

59 he neural processes that change when falling asleep are only partially understood.

60 lative contributions of time spent awake and asleep are unknown.

61 hesiologists: awake/alert, drowsy/arousable, asleep/arousable, deep sedation, and general anesthesia.

62 ect laryngoscopy) and (2) strategy (awake or asleep), as determined by the anesthesiologists after tr

63 ay; 26% reported persistent problems falling asleep at night; 31% experienced problems sleeping throu

64 Falling asleep at the wrong time can place an individual at risk

65 arrest; of these, 52% were determined to be asleep at time of event, and these deaths were more like

66 e and cooperative) or deep sedation (patient asleep, awakening upon physical stimulation).

67 ical trials should examine some of the newer asleep based DBS technologies because this study was lim

68 High blood pressure (BP) during sleep (asleep blood pressure) is associated with an increased r

69 atment-induced decrease of clinic, awake, or asleep BP are unknown.

70 the most pronounced effects observed in the asleep BP parameters.

71 High asleep BP was defined as mean asleep SBP/DBP of at least

72 sked asleep hypertension was defined as high asleep BP without high clinic BP.

73 e, progressive treatment-induced decrease of asleep BP, a potential therapeutic target requiring ambu

74 urately derive individualized mean awake and asleep BP.

75 P was not significant when corrected by mean asleep BP.

76 After the patient was asleep but before the operation, we spent 15 minutes can

77 cadian phase and the length of time awake or asleep co-vary.

78 after the shift but not with faster falling asleep compared with placebo.

79 When we fall asleep, consciousness fades yet the brain remains active

80 as associated with higher clinic, awake, and asleep DBP (all P<0.05).

81 2 (29%) after awake and 11 of 51 (22%) after asleep DBS (odds ratio, 0.7 [95% CI, 0.3-1.7]).

82 Daytime sleepiness and time to fall asleep decreased during weight loss.

83 Mice frequently fell asleep during imaging, and these sleep events were inter

84 d OR, 1.23 [95% CI, 1.08-1.40]), and falling asleep during meetings (14.1% vs 7.0%; adjusted OR, 1.95

85 ng data from 57 healthy participants falling asleep during simultaneous functional magnetic resonance

86 logic symptoms (decreased alertness, falling asleep during the day, forgetfulness, lack of pep and en

87 the therapies, and an ability to keep people asleep during the night.

88 4 carriers and 36 noncarriers), who remained asleep during the scanning session.

89 nts, sleeping shorter-than-usual and falling asleep earlier-than-usual were associated with increased

90 hree sleep complaints (i.e., trouble falling asleep, early morning awakening, and hypersomnia) on the

91 tic resonance imaging (MRI) only if they are asleep, either under sedation, which is deeper than cons

92 king exon 21 of Shank3 have problems falling asleep even when sleepy.

93 (2100-0200) while awake throughout and while asleep from 0000 to 0200 in random sequence.

94 tly during the night and take longer to fall asleep from 10 months of age.

95 age, 60.0 (7.4) years; 40 [71%] male) or to asleep (general anesthesia; n = 54; mean [SD] age, 61.3

96 M: 6.1 x 10(3) cm(-3)) or the occupants were asleep (GM: 5.1 x 10(3) cm(-3)).

97 cits were seen in the awake group versus the asleep group at 3 months in patients aged 70 years and o

98 ree survival between the awake group and the asleep group for those aged 70 years and older, with NIH

99 s also longer in the awake group than in the asleep group in patients younger than 70 years (9.3 mont

100 ival was longer for the awake group than the asleep group in the subgroups younger than 70 years (19.

101 atients in the awake group with those in the asleep group to create a matched cohort, and to match pa

102 awake group: mean [SD], -27.3 [17.5] points; asleep group: mean [SD], -25.3 [14.3] points; mean diffe

103 but a national prevalence estimate of masked asleep hypertension (high BP while sleeping but without

104 US adults (28.2 million) had isolated masked asleep hypertension (masked asleep hypertension but with

105 The estimated prevalence of masked asleep hypertension among US adults was 18.8% (95% CI, 1

106 isolated masked asleep hypertension (masked asleep hypertension but without high awake BP) using JNC

107 ndings suggest that the prevalence of masked asleep hypertension is high among US adults.

108 Masked asleep hypertension status in NHANES was imputed using a

109 Masked asleep hypertension was defined as high asleep BP withou

110 The prevalence of masked asleep hypertension was higher among older adults (aged

111 vascular risk reduction benefits of treating asleep hypertension.

112 Individuals experience difficulty falling asleep in a new environment, termed the first night effe

113 re sensitive noninvasive monitors of falling asleep in humans.

114 rSIGNIFICANCE STATEMENT Our tendency to fall asleep in moving vehicles or the practice of rocking inf

115 e humans spend about one-third of their time asleep in their bedrooms and are themselves emission sou

116 the frequency of inactive behavior (still or asleep) in this group increased.

117 isodes of upper airway closure when they are asleep, in particular during rapid-eye-movement (REM) sl

118 peated episodes of upper airway closure when asleep, in particular during REM sleep.

119 f self-reported sleep, actigraphy time spent asleep increased by 20 minutes (95% confidence interval:

120 taneous EEG and fast fMRI in humans who fell asleep inside the scanner, we developed a machine learni

121 nt sleeps, putting the infant to bed already asleep instead of drowsy but awake, limited active play

122 Nocturnal hypertension while asleep is associated with substantial increases in risk

123 Difficulty falling asleep is one of the typical insomnia symptoms.

124 ability to process sensory information while asleep is yet unclear.

125 of time that it takes an individual to fall asleep, is a key indicator of sleep need.

126 s item and the 2) difficulty falling/staying asleep item of the Clinician-Administered PTSD Scale and

127 ereas sleeping longer-than-usual, or falling asleep later-than-usual, showed the opposite relationshi

128 Falling asleep leads to a loss of sensory awareness and to the i

129 somnia is defined by difficulties in falling asleep, maintaining sleep, and early morning awakening,

130 The inability to fall asleep may be related to a failure of arousal mechanisms

131 ions, although rats with triple lesions were asleep more during the light-to-dark transition period.

132 they were more tired, needed more naps, fell asleep more rapidly, and had higher anxiety/depression s

133 urbances, including a longer latency to fall asleep, more time awake during the night, a decrease in

134 brillation, usually occurring at night while asleep (n=17), or were suspected to have had symptoms si

135 omnia (e.g., taking at least 2 hours to fall asleep nearly every night).

136 ciated with primary thoracic placement in an asleep neonate.

137 al ligand, myoinhibitory peptide (MIP), fall asleep normally, but have difficulty in maintaining a sl

138 experienced by 27 patients; 'prickling' or 'asleep numbness' in 20, mild pain in 13 and sensory loss

139 Residents spent 1.7 call hours asleep on average as compared to 5.4 for consultants.

140 ed with challenges in their attempts to fall asleep on off-days.

141 dy mass index (BMI), and time the child fell asleep on sleep times.

142 g giving the baby a few minutes to fall back asleep on their own (RR, 1.6 [95% CI, 1.0 to 2.6]) and b

143 ty of an individual being in the same state (asleep or awake) at any two time points 24 hr apart, ave

144 configuration depends on whether the rat is asleep or awake.

145 in insomnia symptoms of difficulties falling asleep or frequent nighttime awakenings, are a strong ri

146 tiredness and/or trouble falling or staying asleep or sleeping too much in an electronic patient-rep

147 mend asking about trouble falling or staying asleep or sleeping too much.

148 We take for granted the ability to fall asleep or to snap out of sleep into wakefulness, but the

149 s, track which regions are the first to fall asleep or wake up at the wake-sleep transitions, and inv

150 ng thousands of episodes when male rats fell asleep or woke up.

151 ide at 10-year follow-up: difficulty falling asleep (OR, 2.24; 95% CI, 1.27-3.93; P < .01) and nonres

152 ut depending on whether we are awake, deeply asleep, or dreaming.

153 For every 1% drop in the average asleep oxygen saturation, there was a 2.1 g/m(2.7) incre

154 ous/worried and having difficulty in falling asleep (P 0.01).

155 V off medication score (78.4% awake vs 59.7% asleep, p=0.022).

156 While asleep, people heard sounds that had earlier been associ

157 d DBP in the office and during the awake and asleep periods as evidenced by ABP monitoring.

158 c BP, in the clinic and during the awake and asleep periods.

159 Trouble falling or staying asleep, poor sleep quality, and short or long sleep dura

160 During the falling-asleep process, the low-frequency oscillation first appe

161 location in the room in which the rats fell asleep, rather than the location to which they were move

162 nsitioned the brain to a state of arousal in asleep rats.

163 part of our lives; yet, how our brain falls asleep remains one of the most enduring mysteries of neu

164 and at 6 months with awake craniotomy versus asleep resection in patients younger than 70 years (3 mo

165 rall matched cohort, awake craniotomy versus asleep resection resulted in fewer neurological deficits

166 nderwent awake mapping during craniotomy, or asleep resection, as per treating physician or multidisc

167 whom 134 had awake craniotomies and 402 had asleep resection.

168 Index, which included difficulty in falling asleep, restlessness of sleep, daytime sleepiness, sleep

169 ple adjustments, frequent difficulty falling asleep (RR = 5.3, 95% confidence interval: 1.1, 27.9) an

170 High asleep BP was defined as mean asleep SBP/DBP of at least 120/70 mm Hg for JNC7 and at

171 after the intervention), and ease of falling asleep (sleep diary score, 2.32 [0.89] at baseline vs 1.

172 in bed, sleep latency (time required to fall asleep), sleep duration, and sleep efficiency (percentag

173 time, sleep latency, awakening after falling asleep, sleep efficiency, N1, N2, and N3 rates, arousal

174 We found that when falling asleep, stimulus-induced neuronal silent periods (OFF pe

175 reased sleep latency (amount of time to fall asleep), suggesting an influence by gender.

176 Asleep surgery was experienced as less burdensome by pat

177 as associated with higher clinic, awake, and asleep systolic BP and DBP (all P<0.05).

178 aldosterone and PRA with clinic, awake, and asleep systolic BP and diastolic BP (DBP) and ABP monito

179 Mean asleep systolic BP was the most significant predictor of

180 in the risk of CKD per 1-SD decrease in mean asleep systolic BP, independent of changes in mean clini

181 Chinstrap penguins fall asleep thousands of times per day in the wild.

182 direct laryngoscopy) and strategy (awake or asleep tracheal intubation).

183 eeds existing ones in promoting fast falling asleep, tracking sleep state accurately, and achieving h

184 children with autism (n = 39) and naturally asleep typically developing children (n = 39) between 2

185 leus DBS was performed while the patient was asleep (under general anesthesia) in 1 study arm and awa

186 07), daytime fatigue (p = 0.02), and falling asleep unintentionally during daytime (p = 0.002).

187 in diabetic subjects (the final awake versus asleep values were 240 +/- 86 and 85 +/- 47, 205 +/- 24

188 as "residential fatalities" most likely were asleep vs 10 (18%) of 56 of those whose deaths were iden

189 was no difference in the primary outcome of asleep vs awake DBS.

190 known if there is a difference in outcome in asleep vs awake deep brain stimulation (DBS) of the subt

191 sual pleasurable activities, trouble falling asleep, wakefulness several times during the night, dimi

192 a symptoms (restlessness, difficulty falling asleep, waking at night, trouble getting back to sleep,

193 assessing insomnia symptoms (trouble falling asleep, waking up several times a night, or waking earli

194 Mean amount of time spent asleep was 7.85 (standard deviation, 1.12) hours by self

195 Sleep efficiency (percent time asleep) was 77 +/- 18% in the diabetic subjects, but onl

196 which is the percentage of time in bed spent asleep, was the primary measure of sleep quality.

197 ices of mice and rats that had been awake or asleep, we found that the frequency and amplitude of mEP

198 sequence learning, while human subjects were asleep, we measured spontaneous cortical oscillations by

199 -reported and actigraphy-assessed time spent asleep were lower with male sex, younger age, sleep effi

200 Patients who were asleep were more likely to have unwitnessed arrests.

201 and sleep efficiency (percent of time in bed asleep) were assessed via seven nights of wrist actigrap

202 not fire related," 49 (36%) most likely were asleep when poisoned.

203 eptors (alpha1ARs) increased latency to fall asleep, whereas alpha1AR blockade had the opposite effec

204 [OR], 1.43 [95% CI, 1.23-1.67]); of falling asleep while driving (14.4% vs 9.2%; adjusted OR, 1.51 [

205 cational programs about the risks of falling asleep while driving are needed for physicians, the publ

206 total cohort, 1294 (26.1%) reported falling asleep while driving at least 1 time a month.

207 tended shifts, the risk that they would fall asleep while driving or while stopped in traffic was sig

208 Participants who had fallen asleep while driving within 1 year prior to HGNS implant

209 ions of neurons in the cortex may be falling asleep, with negative consequences for performance.