ライフサイエンスコーパス: Glasgow coma scale

1 osed head injuries (a score of 3 to 7 on the Glasgow Coma Scale).

2 accounted for 38% of the variability in the Glasgow Coma Scale.

3 ge of mortality than the verbal component of Glasgow Coma Scale.

4 h moderate or severe traumatic brain injury (Glasgow Coma Scale, 3-13).

5 ormed on 27 patients (age, 39 yr [24-54 yr]; Glasgow Coma Scale, 7 [6-8]; 24/27 [89%] with diffuse in

6 essure and arterial blood pressure, baseline Glasgow Coma Scale and 6 months Glasgow Outcome Scale we

7 Glasgow Coma Scale and Full Outline of UnResponsiveness

8 n coefficient were correlated with scores on Glasgow Coma Scale and modified Rankin scale.

9 or head injury who had a normal score on the Glasgow Coma Scale and normal findings on a brief neurol

10 tay did not differ (p = 0.055), and the last Glasgow Coma Scale and the last PaO2/FIO2 ratio before d

11 th of stay, and day of discharge neurologic (Glasgow Coma Scale) and respiratory (hypoxemia, hypercap

12 Chronic Health Evaluation III scores, lower Glasgow Coma Scale, and admission prior to 2004 were all

13 After adjusting for age, initial Glasgow Coma Scale, and mean intracranial pressure, perc

14 siology and Chronic Health Evaluation score, Glasgow Coma Scale, and PaO2/F(IO2).

15 sting for Injury Severity Score, prehospital Glasgow Coma Scale, and plasma catecholamines.

16 ity, CSF white blood cell count, hemoglobin, Glasgow Coma Scale, and pulse rate), and were used in th

17 ess syndrome, while neurologic diagnosis and Glasgow Coma Scale are not.

18 ariables model (age, verbal component of the Glasgow Coma Scale, arm power, ability to walk, and pre-

19 Admission (day 1) variables of age, Glasgow coma scale, arterial pH and lactate, creatinine,

20 Median Glasgow Coma Scale at admission was 7 (range 3-14), and

21 lable at the trauma resuscitation room: age, Glasgow Coma Scale, base excess, and prothrombin time.

22 ood pressure, and the motor component of the Glasgow Coma Scale, comorbidities, and year of admission

23 esponsiveness score was more useful than the Glasgow Coma Scale for predicting mortality.

24 ologic deterioration defined by a decline in Glasgow Coma Scale from pretreatment assessment by >or=2

25 system, as well as mortality were linked to Glasgow Coma Scale/Full Outline of UnResponsiveness scor

26 missing data for the motor component of the Glasgow coma scale (GCS) conditional on their observed c

27 The Glasgow Coma Scale (GCS) has been widely adopted.

28 The Glasgow Coma Scale (GCS) is frequently used to direct di

29 The Glasgow Coma Scale (GCS) is used frequently to define th

30 n emergency department (ED) after TBI have a Glasgow Coma Scale (GCS) of 14-15, and the rate of clini

31 Multivariate analysis showed that Glasgow Coma Scale (GCS) score (p < 0.0001) and partial

32 sting for other predictive factors including Glasgow Coma Scale (GCS) score and hematoma volume.

33 ury Severity Score (ISS) greater than 9, and Glasgow Coma Scale (GCS) score less than 9.

34 In the logistic regression analysis, a Glasgow Coma Scale (GCS) score of < or =11 (odds ratio,

35 Objective: To evaluate whether Glasgow Coma Scale (GCS) score or the Simplified Motor S

36 , the Sedation-Agitation Scale (SAS) and the Glasgow Coma Scale (GCS) scores.

37 tions and neurological status as assessed by Glasgow Coma Scale (GCS) was identified.

38 Secondary outcome measures were discharge Glasgow Coma Scale (GCS), modified Rankin Scale, Glasgow

39 rn seen in patients with low c\scores on the Glasgow Coma Scale (GCS), who are known to have poor out

40 45 children with clinical diagnosis of TBI (Glasgow Coma Scale [GCS] 3-15) and 40 healthy subjects,

41 ssed for eligibility and 98 comatose adults (Glasgow Coma Scale [GCS] score of </=8 for <12 hours) wi

42 enrolled into the study after a severe TBI (Glasgow Coma Scale [GCS] score, </=8).

43 ed patients younger than 18 years with mTBI (Glasgow Coma Scale [GCS] score, 13-15) and ICI on comput

44 , respectively, for discriminating mild TBI (Glasgow Coma Scale [GCS] score, 13-15, n = 162) from hea

45 Adults with apparently minor head trauma (Glasgow Coma Scale [GCS] scores >/=13 who appear well on

46 Clinical information (age, sex, outcome, Glasgow Coma Scale [GCS], and HIV status) was ascertaine

47 quired (age, pupil responsiveness, admission Glasgow Coma Scale, glucose level, and hemoglobin level)

48 40 years later, the Glasgow Coma Scale has become an integral part of clinic

49 Since 1974, the Glasgow Coma Scale has provided a practical method for b

50 The Glasgow Coma Scale has value but is incomplete and canno

51 er prognostic tool of ICU mortality than the Glasgow Coma Scale in critically ill patients, most like

52 s score has emerged as an alternative to the Glasgow Coma Scale in that it incorporates essential inf

53 Admission Glasgow Coma Scale, increasing haematoma volume and cort

54 ssociated with survival were year of injury, Glasgow Coma Scale, Injury Severity Score, age, and pupi

55 the patients 76% wore helmets, and had lower Glasgow coma scale, injury severity score, head abbrevia

56 not-resuscitate"), adjusted for age, gender, Glasgow Coma Scale, intracerebral hemorrhage volume, int

57 h mortality, independently of age, admission Glasgow Coma Scale, intracranial pressure, pressure reac

58 ker of neurologic injury not captured by the Glasgow Coma Scale, is a risk factor for acute lung inju

59 ears, injury severity score greater than 33, Glasgow Coma Scale less than 8, and systolic blood press

60 adenosine was independently associated with Glasgow Coma Scale < or = 4 vs. > 4 and time after injur

61 equential Organ Failure Assessment criteria (Glasgow Coma Scale </= 14, respiratory rate >/= 22 breat

62 < 18 yr) with severe traumatic brain injury (Glasgow Coma Scale </= 8; intracranial pressure monitori

63 Diffuse neurological signs or a Glasgow Coma Scale <9 resulted in more expeditious neuro

64 uded 150 evaluable patients with severe TBI (Glasgow Coma Scale <or=8).

65 While the Glasgow Coma Scale maintains its standing in the trauma

66 wing: Glasgow Coma Scale score less than 15, Glasgow Coma Scale motor score less than 6, initial syst

67 False-positive rates were higher for a Glasgow Coma Scale motor score showing extensor posturin

68 ogic deterioration (defined as a decrease in Glasgow Coma Scale of > or = 2 points).

69 dified Rankin Scale </=3, ICH volume < 60ml, Glasgow Coma Scale of <9, and severe IVH with tamponade

70 hanisms of injury, incidence of hypotension, Glasgow Coma Scale on admission, Injury Severity Score,

71 of the injury was assessed using either the Glasgow coma scale or the length of post-traumatic amnes

72 fidence interval [CI], 1.05-1.10; p <.0001), Glasgow Coma Scale (OR, 0.76; 95% CI, 0.66-0.87; p <.000

73 s did not differ with regard to age, gender, Glasgow Coma Scale, or diagnosis.

74 r than 75 years, in those with a decrease in Glasgow Coma Scale, or in those with hypotension as the

75 (P=0.047) and a score of 12 or lower on the Glasgow Coma Scale (P=0.02) than the others; a trend tow

76 ic dysfunction (as assessed by the admission Glasgow Coma Scale) (p < .001) and patient outcome (as a

77 = 178) by age, gender, mechanism of injury, Glasgow Coma Scale, presence of hypotension on admission

78 regression analysis, both the presence of a Glasgow Coma Scale score >7 at time of intubation (odds

79 amples), with severe traumatic brain injury (Glasgow Coma Scale score < or =8).

80 re 16 yrs or older, had acute head injury, a Glasgow Coma Scale score < or =8; external ventricular d

81 250 patients admitted to the ICU with coma (Glasgow Coma Scale score </= 8) and treated with invasiv

82 ith severe traumatic brain injury (admission Glasgow Coma Scale score </= 8, International Classifica

83 r moderate to severe traumatic brain injury (Glasgow Coma Scale score </= 8; patient age 18-71 yrs ol

84 thermia significantly increased the risk for Glasgow Coma Scale score <13 at PICU discharge (odds rat

85 e post-SAH day 5 (OR, 1.9; 95% CI, 1.1-3.3), Glasgow Coma Scale score <14 (OR, 1.8; 95% CI, 1.1-3.1);

86 g (p = .007), gastric feedings (p = .009), a Glasgow Coma Scale score <9 (p = .021), and gastroesopha

87 luding systolic blood pressure <or=90 mm Hg, Glasgow Coma Scale score <or=12, respiratory rate <10 or

88 rial of hypothermia in severe pediatric TBI (Glasgow Coma Scale score <or=8).

89 hould be suspected from the initial or early Glasgow Coma Scale score (13-14/15) if not directly reco

90 llowing independent, significant predictors: Glasgow Coma Scale score (chi2, 19.3; P<0.001), time fro

91 Mean Glasgow Coma Scale score (GCS) of crani patients was 9,

92 ws: more severe neurologic injury [admission Glasgow Coma Scale score (odds ratio 0.86/point, confide

93 Survival was independently predicted by 6-hr Glasgow Coma Scale score (odds ratio [OR] 4.6; 95% confi

94 Six-hour Glasgow Coma Scale score (OR 0.62; 95% CI 0.48-0.80; p <

95 ge (OR, 1.03/year; 95% CI, 1.01-1.04), lower Glasgow Coma Scale score (OR, 0.6/point; 95% CI, 0.58-0.

96 postinjury outcome inversely correlated with Glasgow Coma Scale score (r = -.47, p =.01) and correlat

97 or 1 yr increase in age) and lower admission Glasgow Coma Scale score (relative risk, 0.34; 95% CI, 0

98 cohort of patients with mild head injuries (Glasgow Coma Scale score 13-15) and calculated accuracy

99 d 23 adult patients with TBI (median initial Glasgow Coma Scale score [GCSini], 8) underwent (18)F-FD

100 Those with Glasgow Coma Scale score above 8 (OR = 1.22; 95% CI, 1.0

101 were associated with worse Hunt-Hess grade, Glasgow Coma Scale score and Acute Physiology and Chroni

102 We assessed Glasgow Coma Scale score and pupil reaction on admission

103 Younger age and lower admission Glasgow Coma Scale score are independently associated wi

104 The initial Glasgow Coma Scale score ascertained at the scene by the

105 higher median (interquartile range) modified Glasgow Coma Scale score at 72 hours (10 [8-11] vs 7 [4-

106 Secondary outcome was modified Glasgow Coma Scale score at 72 hours after enrollment, l

107 d into a stepwise logistic regression model, Glasgow Coma Scale score at admission, age, mean arteria

108 d Sequential Organ Failure Assessment score, Glasgow Coma Scale score at intensive care unit admissio

109 a remained an independent predictor of lower Glasgow Coma Scale score at PICU discharge (OR 4.7, CI 1

110 consciousness evaluated using GCSini and the Glasgow Coma Scale score at the time of PET (GCSpet).

111 d in terms of age, body mass index, sex, and Glasgow Coma Scale score distribution.

112 vices transport, with a mean decrease in the Glasgow Coma Scale score during transport of 6 points.

113 traumatic amnesia is superior to the initial Glasgow Coma Scale score for predicting traumatic brain

114 ctors predicting early hyperthermia included Glasgow Coma Scale score in the emergency department < o

115 as those with at least one of the following: Glasgow Coma Scale score less than 15, Glasgow Coma Scal

116 ex leg fractures (34.2% vs 18.5%; P = .001), Glasgow Coma Scale score less than 8 (31.5% vs 10.7%; P

117 (odds ratio [OR], 3.47; 95% CI, 2.04-5.91), Glasgow Coma Scale score less than 8 (OR, 2.75; 95% CI,

118 raised intracranial pressure and a modified Glasgow Coma Scale score less than or equal to 8 were en

119 Twenty patients admitted with a Glasgow Coma Scale score of < 10 who were enrolled as pa

120 orty-seven patients with a postresuscitation Glasgow Coma Scale score of < or = 12 were monitored for

121 Fifteen comatose (Glasgow Coma Scale score of < or = 7) adult patients wit

122 010, with severe TBI (ie, blunt head trauma, Glasgow Coma Scale score of <9, and abnormal intracrania

123 raumatic amnesia and an emergency department Glasgow Coma Scale score of 14 or 15.

124 e included with median (interquartile range) Glasgow Coma Scale score of 15 (12-15), and median (inte

125 y Severity Score of 15 (range, 9-18), median Glasgow Coma Scale score of 15 (range, 12-15), and mean

126 Children with a Glasgow Coma Scale score of 3-4 had a lower LF/HF ratio

127 severe, nonpenetrating brain injuries and a Glasgow Coma Scale score of 3-8 after resuscitation, who

128 ared with six non-brain-dead patients with a Glasgow Coma Scale score of 3.

129 , moderate-to-severe, or moderate acute TBI (Glasgow Coma Scale score of 4 to 12, on a scale from 3 t

130 Patients had a mean Glasgow Coma Scale score of 5 on admission and were take

131 er LF/HF ratio compared with those who had a Glasgow Coma Scale score of 5-8 (p < .005).

132 Seven young patients with a mean Glasgow Coma Scale score of 7 +/- 4 (SD) at admission we

133 tal Hypertonic Saline Trial in patients with Glasgow Coma Scale score of 8 or less (traumatic brain i

134 or older with blunt trauma and a prehospital Glasgow Coma Scale score of 8 or less who did not meet c

135 1; P = 0.002), a higher risk of an admission Glasgow Coma Scale score of 8 or lower (17.2% vs. 0%; P

136 sciousness, amnesia, or disorientation and a Glasgow Coma Scale score of 9-15).

137 apy for at least 7 days beforehand and had a Glasgow Coma Scale score of at least 8.

138 sttraumatic amnesia duration and the initial Glasgow Coma Scale score to predict performance on the G

139 points were PICU LOS, cost, and day at which Glasgow Coma Scale score was >or=14.

140 The median Glasgow Coma Scale score was 14, the average Acute Physi

141 , and 62.6% had subdural hematoma; admission Glasgow Coma Scale score was 3 +/- 1 (3-15) and head Abb

142 Conversely, the initial Glasgow Coma Scale score was not (area under the curve,

143 nts, 16 to 70 years of age, with severe TBI (Glasgow Coma Scale score, </=8 [on a scale of 3 to 15, w

144 y severity score, 26; mean age, 35 yrs; mean Glasgow Coma Scale score, 13; systemic inflammatory resp

145 s]; systolic blood pressure, 128 [28] mm Hg; Glasgow Coma Scale score, 14 [2]; Injury Severity Score,

146 The association between Glasgow Coma Scale score, age, gender, treatment, temper

147 ts are assigned to each variable considered (Glasgow Coma Scale score, age, sex, intensive care unit

148 Glasgow Coma Scale score, age, time from thrombolysis to

149 g-followed by acute ischemic injury, initial Glasgow Coma Scale score, and age-to be the most signifi

150 Mean age, admission Glasgow Coma Scale score, and Injury Severity Score were

151 f severity of injury measured were admission Glasgow Coma Scale score, and Pediatric Risk of Mortalit

152 Score, Revised Trauma Score, lower admission Glasgow Coma Scale score, and preexisting diseases as si

153 logy and Chronic Health Evaluation II score, Glasgow Coma Scale score, daily maximum temperature, com

154 nism of injury, year of injury, preadmission Glasgow Coma Scale score, hypotension, Head Abbreviated

155 d with death were increasing age, decreasing Glasgow Coma Scale score, increasing ICH volume, presenc

156 se three groups with respect to age, initial Glasgow Coma Scale score, intracranial pressure, cerebra

157 ls, platelets, albumin, use of vasopressors, Glasgow Coma Scale score, Karnofsky Scale, operative sta

158 , bicarbonate, albumin, use of vasopressors, Glasgow Coma Scale score, Karnofsky Scale, operative sta

159 d pressure, abnormal respiratory rate, lower Glasgow Coma Scale score, lower pulse oximetry, and nurs

160 bstracted, including Pediatric Trauma Score, Glasgow Coma Scale score, Pediatric Risk of Mortality, p

161 has been reported in adult studies, initial Glasgow Coma Scale score, primary location of the hemorr

162 ease severity assessed by best preintubation Glasgow Coma Scale score, pupillary responses, Injury Se

163 The impact of clinical (age, race, gender, Glasgow Coma Scale score, reason for admission, insuranc

164 e analysis identified APACHE II total score, Glasgow Coma Scale score, temperature, pH, and white blo

165 was determined by the motor component of the Glasgow Coma Scale score, the Injury Severity Score, pup

166 arge, 67% of patients had an age-appropriate Glasgow Coma Scale score.

167 tly to outcome prediction in the presence of Glasgow Coma Scale score.

168 severity, outcome, and ICP were as follows: Glasgow Coma Scales score, -0.73 (p < .001); overall Inj

169 patients with severe traumatic brain injury (Glasgow coma scale scores </=8, without gunshot or abusi

170 outcomes at 6 months: six patients had poor Glasgow Coma Scale scores (< 8) that remained low and al

171 Children with lower Glasgow Coma Scale scores (< or =8, n = 30) or prolonged

172 existed after stratifying for differences in Glasgow Coma Scale scores (10 versus 7, p < 0.001) at ti

173 es (36.6 cm3 vs. 15.0 cm3) and lower initial Glasgow Coma Scale scores (mean, 9.6 vs. 13.7).

174 that outcome improved across the spectrum of Glasgow coma scale scores after resuscitation (p=0.02);

175 ressure monitoring (p=0.001), and increasing Glasgow coma scale scores after resuscitation (p=0.04) w

176 with significantly lower (P<0.05) admission Glasgow Coma Scale scores and worse outcome at the time

177 2 mL [7.8-11.9 mL]; p = 0.002) increased and Glasgow Coma Scale scores improved (median, 4 [3-6] to 7

178 tients were severely injured, with admitting Glasgow Coma Scale scores of < or =10.

179 ged 0 to 18 years with blunt head trauma and Glasgow Coma Scale scores of 14 and 15 evaluated in 25 e

180 s presenting within 24 h of head trauma with Glasgow Coma Scale scores of 14-15 in 25 North American

181 t or abusive head trauma, cardiac arrest, or Glasgow coma scale scores of 3 with fixed and dilated pu

182 were more often hyperglycemic, and had lower Glasgow Coma Scale scores on admission.

183 The hypothermic patients had lower admission Glasgow Coma Scale scores than normothermic patients (p

184 ome (PCPC > or = 4, n = 7), median admission Glasgow Coma Scale scores were 8 (range, 3-15) and 3 (ra

185 olume, ventricular volume, serum sodium, and Glasgow Coma Scale scores were assessed using Spearman r

186 Glasgow Coma Scale scores were assessed within 24 hours

187 Patients with higher 6-hr Glasgow Coma Scale scores were more likely to survive.

188 Patient age, chronic disease, and Glasgow Coma Scale scores were not associated with the 1

189 atched with regard to age, postresuscitation Glasgow Coma Scale scores, rates of acute surgical intra

190 Documentation of medical history, serial Glasgow Coma Scale scores, time of extubation, and time

191 egion); initial systolic blood pressure; and Glasgow Coma Scale scores.

192 associated with five clinical variables: pH, Glasgow Coma Scale, spontaneous respiratory rate, positi

193 ican-Americans were younger and had a higher Glasgow Coma Scale than non-Hispanic whites.

194 d using the APACHE III Neurologic Score, the Glasgow Coma Scale, the Reaction Level Scale, and the Mo

195 curve of predicting ICU mortality using the Glasgow Coma Scale was 0.715 (95% CI, 0.663-0.768) and u

196 The median admission Glasgow Coma Scale was 6, the median Glasgow Outcome Sca

197 Median Glasgow Coma Scale was 7 (5-8).

198 s nor neurologic severity, assessed with the Glasgow Coma Scale, was significantly associated with th

199 95% CI, 0.20-0.58; for one unit increase in Glasgow Coma Scale) were independently associated with t