ライフサイエンスコーパス: level of consciousness

1 Neural complexity correlates with one's level of consciousness.

2 metrically according to clinically diagnosed level of consciousness.

3 hnic group, social class, stroke subtype and level of consciousness.

4 due to acute myeloid leukaemia and depressed level of consciousness.

5 ncephalopathy and four of whom had depressed level of consciousness.

6 reevaluation of the role of connectivity in level of consciousness.

7 n cohort, even in one patient with depressed level of consciousness.

8 ous system, which was a reversible depressed level of consciousness.

9 sing the SAS to subjectively determine their level of consciousness.

10 Blink and tail-clamp responses also assessed level of consciousness.

11 s computer desk with a substantially reduced level of consciousness.

12 h frank hematemesis, melena, and a decreased level of consciousness.

13 signals strongly relates to an individual's level of consciousness.

14 s computer desk with a substantially reduced level of consciousness.

15 l findings were fever, headache, and altered levels of consciousness.

16 mus and basal forebrain underlies decreasing levels of consciousness.

17 used a perturbational approach to assess the levels of consciousness.

18 singly, this phenomenon appears to transcend levels of consciousness.

19 of emotion relate differentially to types or levels of consciousness.

20 deep (N3-)sleep, characterised by different levels of consciousness.

21 rain functional organization that transcends levels of consciousness.

22 recently emerged as a robust metric to infer levels of consciousness.

23 h dissection (0.47, 0.22-0.99; p=0.047), low level of consciousness (0.45, 0.31-0.64; p<0.0001), and

24 dard supportive measures (1D), and decreased level of consciousness (2D).

25 Altered level of consciousness (67.9%) in the intensive care uni

26 ned by illicit drugs presented with impaired level of consciousness (92.5%), unstable vital signs and

27 fter the brain is stimulated to quantify the level of consciousness across different states.

28 The development of an index to quantify the level of consciousness across these different states is

29 ral urgency, cardiovascular instability, and level of consciousness after cardiac arrest were most pr

30 lowing neurologic abnormalities: an abnormal level of consciousness, an inability to answer two conse

31 oundational in assessing a patient's current level of consciousness and capacity for recovery.

32 tive days of ICU care, against constructs of level of consciousness and delirium, and correlated with

33 f interventions aimed at improving patients' level of consciousness and functional recovery were beha

34 In children with infection, decreased level of consciousness and higher Pediatric Risk of Mort

35 uated associations between these measures of level of consciousness and outcomes using multivariable

36 ted to the intensive care unit for decreased level of consciousness and respiratory failure.

37 diarrhea, anorexia, weight loss, and altered levels of consciousness and pathologically by the presen

38 common emergency conditions (such as altered level of consciousness) and automated paging for "panic

39 mptoms, seizures, memory deficits, decreased level of consciousness, and central hypoventilation asso

40 o 15, with lower scores indicating a reduced level of consciousness] and at least one reactive pupil)

41 exmedetomidine produced differing effects on level of consciousness as assessed by response to tail c

42 wide variability in BIS scores for any given level of consciousness as compared with the SAS.

43 stolic blood pressure, body temperature, and level of consciousness as previously described.

44 edelic phenomenology constitutes an elevated level of consciousness - as measured by neural signal di

45 Depressed level of consciousness, as defined by the RASS, was not

46 tress/low SpO2 at 28% (213/748), and altered level of consciousness at 23% (170/748) compared with re

47 of status epilepticus and improvement in the level of consciousness at 60 minutes occurred in 68 pati

48 The ACD score represents age at onset, level of consciousness at admission, and duration of sta

49 = no reaction to pain) to measure patients' level of consciousness at enrollment and 12 additional t

50 cerebellum significantly correlated with the level of consciousness at the time of PET (r = 0.58, P <

51 se regions significantly correlated with the level of consciousness at the time of PET.

52 t to controlling for sedation (P = 0.02) and level of consciousness at time of MRI (P = 0.02).

53 We included patients with altered levels of consciousness at ICU admission or within the f

54 Therefore, not only the level of consciousness, but also body posture, might aff

55 ally evident seizures and improvement in the level of consciousness by 60 minutes after the start of

56 We conclude that the level of consciousness can be dissociated from cortical

57 While the level of consciousness can be taken to describe the actu

58 al CMRglc were plotted against posttraumatic level of consciousness, CMRglc values for the thalamus,

59 We did identify that an altered level of consciousness, core feature 3 of delirium, was

60 neurodeficit score (NDS) which consisted of level of consciousness, cranial nerve, motor-sensory fun

61 Depressed level of consciousness during hospitalization was define

62 We investigated the relationship of level of consciousness during hospitalization with long-

63 was compared with severity of injury and the level of consciousness evaluated using GCSini and the Gl

64 thalamic sites, elicits major changes in the level of consciousness, even in some minimally conscious

65 ncy Destination; and gaze, facial asymmetry, level of consciousness, extinction/inattention.

66 jury, but its use in patients with decreased levels of consciousness from acute poisoning is uncertai

67 and decreased for those triggered by reduced level of consciousness (from 20% to 17%; difference [95%

68 ; 95% CI: 0.25-0.62), and those with reduced levels of consciousness, GCS <9, (HR: 0.44; CI: 0.33-0.5

69 The level of consciousness, hemoglobin concentration, blood

70 cognition, the PFC is a key regulator of the level of consciousness (i.e., the global state of arousa

71 y be the pathological correlate of depressed level of consciousness in acute disseminated encephalomy

72 l adjunctive tool in objective assessment of level of consciousness in brain-injured patients.

73 ical wake-up test" is needed to evaluate the level of consciousness in patients with severe traumatic

74 ship between sleep electrophysiology and the level of consciousness in severely brain-damaged patient

75 iable nor valid for routinely monitoring the level of consciousness in the critically ill patient.

76 e of human consciousness by manipulating the level of consciousness in volunteers with anesthetic age

77 that has been shown to distinguish different levels of consciousness in in vivo settings.

78 proven helpful in assessing objectively the level of consciousness irrespective of sensory processin

79 Assessing someone's level of consciousness is a complex matter, and attempts

80 Depressed level of consciousness is a more specific clinical crite

81 g critically ill patients, acutely depressed level of consciousness is associated with mortality, but

82 ill, brain-injured patients with a decreased level of consciousness is challenging.

83 pre-percutaneous coronary intervention (PCI) level of consciousness (LOC) and outcomes among patients

84 encephalopathy syndrome, seizures, depressed level of consciousness, methotrexate-related stroke-like

85 What is the level of consciousness of the psychedelic state?

86 nesias, autonomic dysfunction, and decreased level of consciousness often requiring ventilatory suppo

87 nd mental travel strongly rely, at different levels of consciousness, on past and ongoing sensory inp

88 There was little variation in level of consciousness or motor activity or drug dose ov

89 1; 95% CI, 1.023-1.099; P = .001), decreased level of consciousness (OR, 5.397; 95% CI, 2.660-10.948;

90 t with encephalopathy (P < 0.001), depressed level of consciousness (P < 0.001), headache (P < 0.001)

91 , atrial fibrillation, and any impairment in level of consciousness (p <.05).

92 nificant reductions in fatigue and depressed level of consciousness (P <.05).

93 RASS showed significant differences between levels of consciousness (P<.001 for all) and correctly i

94 be dysfunctional, although correlation with level of consciousness remains controversial.

95 ntinence, agitation, combativeness, a labile level of consciousness, respiratory depression, and deat

96 linical variables including use of a 6-point level of consciousness scale (1 = awake, 6 = no reaction

97 The ability of level of consciousness score and additional clinical dat

98 er controlling for these factors, increasing level of consciousness score at 3 hrs after enrollment a

99 Maximum level of consciousness score during the initial 24 hrs o

100 in conditions associated with changes in the level of consciousness, such as following severe brain i

101 syndrome characterized by an acute change in level of consciousness that is associated with inattenti

102 patients in the intensive care unit retain a level of consciousness that is inconsistent with their b

103 olved issues include psychology's neglect of levels of consciousness that are distinct from access or

104 , there was no association between depressed level of consciousness (total or sedation-associated) wi

105 Reversible delirium, headache, decreased level of consciousness, tremor, and seizures were most c

106 itions and EEG signatures for monitoring the levels of consciousness under sedation.

107 We assessed delirium and level of consciousness using the Confusion Assessment Me

108 We assessed delirium and level of consciousness using the Confusion Assessment Me

109 Patients were prospectively evaluated for level of consciousness using the RASS, SAS, and GCS ever

110 Sedative-associated level of consciousness was similarly defined for all hos

111 The decreased level of consciousness was thought to be secondary to se

112 icity (seizures, motor neuropathy, depressed level of consciousness) was attributed to radiation trea

113 The presence of Feature 3, altered level of consciousness, was significantly associated wit

114 to explain different aspects or mechanistic levels of consciousness, we argue that the theories do n

115 of the default mode network (DMN) reflects "level of consciousness," we observed functional uncoupli

116 History of seizures, age, seizure type, and level of consciousness were determined at status epilept

117 to 15, with lower scores indicating a lower level of consciousness) were randomly assigned to intrav

118 ention, cognitive dysfunction and an altered level of consciousness, whereas dementia is an insidious

119 ceptors induce hallucinations and reduce the level of consciousness, while the nicotinic receptor is

120 icient hemodynamic conditions, and decreased level of consciousness, who received mild induced hypoth

121 The development of a decreased level of consciousness within the initial hours after st

122 hese findings suggest that variations in the level of consciousness within the same physiological sta