ライフサイエンスコーパス: admission rate

1 mission rates, and intensive care unit [ICU] admission rates).

2 .7) days and had a 33.9% intensive care unit admission rate.

3 ons and Black-White inequality in the prison admission rate.

4 ED visits with an associated high inpatient admission rate.

5 Before enrollment the 2 groups had similar admission rates.

6 ional rates of rehospitalization and overall admission rates.

7 ut-of-pocket expenses and inpatient hospital admission rates.

8 ariables may play in service utilization and admission rates.

9 lence conferred a doubling of severe malaria admission rates.

10 affected with the highest mortality and ICU admission rates.

11 ospitalization and intensive care unit (ICU) admission rates.

12 sociated with reductions in food anaphylaxis admission rates.

13 orphine equivalent) usage and post-procedure admission rates.

14 FNC protocols is associated with reduced ICU admission rates.

15 <7) and neonatal intensive care unit (NICU) admission rates.

16 iabetes prevalence, there was a reduction of admission rates.

17 , stratified (by birth weight), and adjusted admission rates.

18 imaging rates, average charges, or hospital admission rates.

19 e but was predicted by non-ICU mortality-ICU admission rate = 0.83 x non-ICU mortality-and was linear

20 italizations per 100 000 population) and ICU admission rate (11.6 [95% CI, 11.2-11.9] admissions per

21 vs 3 of 218 cases [1.4%]) and intensive care admission rates (113 of 294 cases [38.4%] vs 34 of 218 c

22 RBs in the hospital had a markedly lower ICU admission rate (12% vs 26%; P = .001; odds ratio [OR] =

23 1) general and age-stratified first hospital admission rates, (2) length of stay for the first hospit

24 e used to estimate trends in annual hospital admission rates, 28-day case fatality rates, and mean le

25 erall patient morbidity, intensive care unit admission rate, 30-day readmission rate, length of hospi

26 tal operative time, length of stay (LOS), re-admission rates, 30-day morbidity.

27 07]), driven primarily by increased hospital admission rates (31.3% versus 29.7%; hazard ratio, 1.06

28 rates (4.4%; 95% CI 0.6, 8.1), and hospital admission rates (4.0%, 95% CI 0.4, 7.7).

29 used more hospital resources (mean hospital admission rate, 4.8 vs. 3.3/person/5 yr), and had 51% hi

30 h mortality (30.3%), and intensive care unit admission rates (44.2%), with no relevant changes over t

31 95% CI, 1.07-1.26) despite an increased ICU admission rate (61% vs 34%; RR, 1.80; 95% CI, 1.66-1.95)

32 ssessment scores (median 4 vs 3), higher ICU admission rates (61% vs 44%), longer hospital length of

33 In multivariate analyses, admission rates accounted for 16 to 24% of the variation

34 In univariate analyses, all-cause admission rates accounted for the highest proportion of

35 We compared food anaphylaxis admission rates across 3 periods: 1998-1999 to 2006-2007

36 Overall, there was substantial variation in admission rates across clinicians; physicians were just

37 ssion rates, examined the correlation in ICU admission rates across diagnosis and calculated intracla

38 Hospitals vary widely in ICU admission rates across numerous medical diagnoses.

39 Admission rates across the clinicians included ranged fr

40 There also was weak consistency in admission rates across the most common clinical conditio

41 ents with KD, apart from intensive care unit admission rate, adiposity category was not associated wi

42 =0.01) with non-significant different in ICU admission rate (adjusted incident rate ratio, 0.83; 95%C

43 ulated for each level of the weekly COVID-19 admission rate, adjusting for case-mix and hospital-mont

44 We compared ICU admission rates (admissions > 2 hr following index medic

45 ICU admission rates after CAR T-cell treatment are declining

46 We compare RSV-associated admission rates, age, seasonality, and time trends betwe

47 (p < 0.001; relative decrease, 22.0%); older admission rates also decreased, but less steeply (31.1 [

48 zation treatment would decrease the hospital admission rate among infants with a first episode of acu

49 e also calculated population-based all-cause admission rates among Medicare enrollees in each HRR.

50 Admission rates among patients presenting to emergency d

51 ts, oral zinc can decrease 30-day death, ICU admission rate and can shorten symptom duration.

52 The hospital admission rate and hCFR were higher for those aged >=65

53 We estimated the hospital admission rate and in-hospital case-fatality ratio (CFR)

54 eractive decision-making software, decreases admission rate and unnecessary testing and improves diag

55 tients have higher Intensive Care Unit (ICU) admission rates and a worse disease course, a comprehens

56 To examine intensive care unit (ICU) admission rates and diagnoses of patients with HIV infec

57 s in China had greater increases in hospital admission rates and greater reductions in case fatality

58 Hospital admission rates and hospital admission incidence rate ra

59 ative laparotomy rate to 3.9% while reducing admission rates and hospital length of stay.

60 Changes in annual admission rates and lengths of stay were examined to det

61 gnificant variation between ED clinicians in admission rates and little consistency in admission tend

62 te-adjusted pre- and posttransplant hospital admission rates and mean length of stay per admission.

63 d to estimate the global incidence, hospital admission rate, and mortality from RSV-ALRI episodes in

64 851 hospital-weeks (36.7%) had low COVID-19 admission rates, and 8094 (8.3%) had high rates.

65 We analysed incidence, hospital admission rates, and hCFRs of hPIV-associated ALRI using

66 al deaths using adjusted incidence, hospital admission rates, and hCFRs.

67 r mechanical ventilation), hospital charges, admission rates, and hospital length of stay.

68 We estimated incidence, hospital admission rates, and in-hospital case-fatality ratios (h

69 the ED had lower in-hospital mortality, ICU admission rates, and in-hospital costs and longer length

70 reduction in length of stay, lower hospital admission rates, and lesser increased cumulative radiati

71 33 years (1979-2011), to describe trends in admission rates, and to observe how these rates have var

72 atio [aOR], 0.96; 95% CI, 0.78 to 1.17), ICU admission rate (aOR, 1.20; 95% CI, 0.80 to 1.79) and len

73 Although national prison admission rates are declining, imprisonment remains a pe

74 In Scotland, elderly and older ICU admission rates are decreasing, with regional geographic

75 the daily changes in hospitalization and ICU admission rates are expected to jitter around the zero l

76 on, daily changes in hospitalization and ICU admission rates are expected to reduce by 4.05 and 0.74

77 A sharp decline in hospitalization and ICU admission rates are observed when around 40% people are

78 ICU use for CAP is common and expensive but admission rates are variable.

79 used pneumonia (all-cause and pneumococcal) admission rates as the main outcomes.

80 There was a short-term increase in hospital admission rates associated with PM2.5 for all of the hea

81 er the extent of deviation from the expected admission rates at an individual level was associated wi

82 mes included lower intensive care unit (ICU) admission rates at days 14 (0.14% vs. 1%; RR, 0.14), 21

83 c ward in Bissau, Guinea-Bissau, we compared admission rates between enrollment and the 9-month vacci

84 We compared admission rates between the two International Classifica

85 ower adjusted pretransplant hospital day and admission rates, but significantly higher posttransplant

86 ICU admission rates can be predicted from a measure of popul

87 Secondary outcomes were intensive care unit admission rates, central venous catheter use, Clostridiu

88 Adjusted admission rates classified by body system were significa

89 nt tendency to admit less than the projected admission rate (coefficient, -0.09 [P = .04]).

90 rvaccinated children had increased inpatient admission rates compared with age-appropriately vaccinat

91 data daily for 1999 through 2002 on hospital admission rates (constructed from the Medicare National

92 Mean length of stay, patient-day rates, admission rates, consultation request rates, costs, and

93 Admission rates declined during the late 1980s, and the

94 ICU admission rates declined from 38.5% (95% CI, 31.6-45.8%)

95 Hospital admission rate decreased from 18.0% (95% CI, 13.8% to 22

96 Between 2005 and 2009, elderly admission rates decreased from 36.6/10,000 (95% CI, 34.0

97 Admission rates decreased from mid-2007 in females aged

98 The admission rate did not decline with IB use.

99 Overall, admission rates during the 6-year study period increased

100 Monthly admission rates estimated for years after the introducti

101 calculate risk- and reliability-adjusted ICU admission rates, examined the correlation in ICU admissi

102 In hemodialysis patients, adjusted first admission rates (expressed throughout as first episodes

103 The hospital admission rate for ADP vs control patients was 45.2% vs

104 te the relationship between a hospital's ICU admission rate for elderly patients with pneumonia and t

105 The overall hospital admission rate for ischemic stroke during the year post-

106 The 6-month stroke admission rate for patients with a score of 4 or higher

107 The inpatient hospital admission rate for patients with bipolar disorder was al

108 The admission rate for patients with heart failure was 9.5%

109 Hospitals in the highest quintile of ICU admission rate for pneumonia also had higher 30-day mort

110 l status and an 85% decrease in the hospital admission rate for transplant candidates discharged afte

111 irth-weight infants (2500-3999 g), while the admission rate for very low-birth-weight infants (<1500

112 Adjusted admission rates for all types of ACSCs, including bacter

113 nd other potential confounders, the ratio of admission rates for all-cause admissions was 1.41 (95% c

114 a serious neurological disorder, yet data on admission rates for all-cause childhood encephalitis in

115 INTERPRETATION: Hospital admission rates for all-cause childhood encephalitis in

116 changes in National Health Service hospital admission rates for asthma in children, 22 months post-i

117 The results point to higher admission rates for ATAAD during months with above avera

118 We aimed to estimate admission rates for childhood encephalitis in England ov

119 We saw a reduction in hospital admission rates for childhood invasive bacterial disease

120 Over the 15-year study period, admission rates for children under 2 years old increased

121 Admission rates for dehydration for children younger tha

122 Trends of postoperative hospital admission rates for each surgery were investigated using

123 High pneumonia-specific ICU admission rates for elderly patients identify a group of

124 Wide variation persists in physician-level admission rates for emergency department chest pain eval

125 Hospital admission rates for encephalitis of unknown aetiology ha

126 icant long-term benefit in lowering hospital admission rates for heart failure.

127 ICU admission rates for HF varied markedly across hospitals

128 Admission rates for infants aged less than 1 year increa

129 Hospital days and admission rates for LDLT and DDLT patients were calculat

130 y to assess the long-term trends in hospital admission rates for meningitis and septicaemia caused by

131 ts with coded housing instability had higher admission rates for mental, behavioral, and neurodevelop

132 effective Anti-Retroviral Therapy (ART), ICU admission rates for people with Advanced HIV Disease (AH

133 rouped hospitals into quintiles based on ICU admission rates for pneumonia.

134 homeless population to enable calculation of admission rates for psychosocial and physical health dia

135 Wide variation exists for hospital admission rates for the evaluation of possible acute cor

136 with changes in GP consultation and hospital admission rates for the selected conditions combined.

137 The authors analyzed AMI admission rates for the years 1999-2008 in 387 US counti

138 Concurrently, admission rates for these visits declined from 12.6% to

139 Hospital admission rates for viral meningitis from Jan 1, 1968, t

140 rom 1968-2011 to analyse annual age-specific admission rates for viral meningitis, including specific

141 A single linear equation predicted ICU admission rate from death rate of non-ICU-treated patien

142 admission diagnoses and accurately predicted admission rates from July 2019 until December 2019 but n

143 sitive RT-PCR was found for a daily hospital admission rate >1.5 per 100,000 inhabitants, and around

144 an origin A/H7N9 influenza virus causes high admission rates (>99%) and mortality (>30%), with ultima

145 At the end of 2004, all-cause pneumonia admission rates had declined by 39% (95% CI 22-52) for c

146 Food anaphylaxis admission rates have increased steadily in recent decade

147 While CLI admission rates have remained constant from 2003 to 2011

148 zation to hs-report format did not alter the admission rate (hs-report: 57.7% versus std-report: 58.0

149 ifference between the two groups in terms of admission rate (IB group 12.7% vs Non-IB group 9.5%; p=0

150 re severe clinical presentation and a higher admission rate in intensive care units (20 of 20 patient

151 Hospital admission rate in the 24 hours after enrollment.

152 Admission rate in the 3% HS group was 28.9% compared wit

153 in length of hospital stay but increased ICU admission rate in the CLD group (41.2% vs 23.8%).

154 The unadjusted all-cause admission rate in the dementia group was 419 admissions

155 mococcal conjugate vaccine in 2006: hospital admission rates in 2011 were 2.03 per 100,000 children f

156 f intervention designed to reduce compulsory admission rates in adult psychiatric patients (age range

157 s were used to compare first-year septicemia admission rates in annual incident cohorts from 1991 to

158 the impact of a smoke-free ordinance on AMI admission rates in another geographically isolated commu

159 sed annual age-specific and age-standardised admission rates in children younger than 15 years with H

160 er maintenance of remission and decreased re-admission rates in patients with cirrhosis and hepatic e

161 rences regression design was used to compare admission rates in populations with and without TFA rest

162 sed annual age-specific and age-standardised admission rates in single calendar years and admission r

163 al study examines trends in heroin treatment admission rates in the United States by race, sex, and a

164 ith no significant change in ED visits or ED admission rates in this group.

165 changes in COVID-19 hospitalization and ICU admission rates in United Kingdom (UK) and United States

166 Diminished racial/ethnic differences in NICU admission rates in very low birth weight infants may ref

167 Secondary outcomes included ICU admission rate, in-hospital death, functional status, an

168 The hospital admission rate increased with advancing age and was high

169 Annual food anaphylaxis admission rates increased 9-fold between 1998-1999 and 2

170 Overall NICU admission rates increased by 37% from 2008 to 2018, and

171 Admission rates increased for all birth weight categorie

172 Crude NICU admission rates increased from 6.62% (95% CI 6.59-6.65)

173 ICU admission rates increased with an increasing number of c

174 isease than without periodontal disease, and admission rates increased with BMI category (normal weig

175 ting to the ED was associated with a reduced admission rate independent of patient and hospital facto

176 Hospital admission rates, intensive care unit (ICU) admissions, a

177 ence concerning quality of life and hospital admission rates is limited, despite their clinical and e

178 Hospital admission rate, length of stay for admitted patients, an

179 bilirubin, postoperative intensive care unit admission rate, length of stay, and 90-day mortality.

180 ith bronchodilators, associated with reduced admission rates, length of stay, or improvements in clin

181 impact of CCTA versus standard evaluation on admissions rate, length of stay, major adverse cardiovas

182 ultiplying annual projections of population, admission rates, LOS, and cost per bed day.

183 were no significant changes in adjusted ICU admission rates, mortality, or discharge destination.

184 ty and mortality as evidenced by a very high admission rate, need for surgical intervention and a hig

185 rably across hospitals, with a median direct admission rate of 33.3% (interquartile range, 11.1%-50.0

186 total of 279 women were admitted to ICU, an admission rate of 34.6/1,000 live births, and the mortal

187 n the period 1979-2011, with a mean hospital admission rate of 5.97 per 100 000 per year (95% CI 5.52

188 epresented a 40% decrease in the baseline ED admission rate of 92%, (1 year pre-DH).

189 The prison admission rate of Black Americans has fallen, but the pr

190 nducted a retrospective study to compare the admission rate of patients who received IB with those wh

191 We estimated the incidence and hospital admission rate of RSV-associated ALRI (RSV-ALRI) in chil

192 f Black Americans has fallen, but the prison admission rate of White Americans with no college educat

193 s experienced relative declines in inpatient admission rates of 2.0 per 1000 for primary diagnoses of

194 LRI with laboratory-confirmed hPIV; hospital admission rates of ALRI or ALRI with hypoxaemia in child

195 twentieth century, inequality in the prison admission rates of Black and White Americans was compara

196 contrast with previously published research, admission rates of elderly people in Scotland fell betwe

197 We applied incidence and hospital admission rates of human metapneumovirus-associated ALRI

198 s was comparable to inequality in the prison admission rates of people with and without a college edu

199 We compared mortality and hospital admission rates of scar-positive and scar-negative BCG-v

200 d in-hospital mortality, intensive care unit admission, rate of invasive mechanical ventilation, and

201 , incidence of unplanned intensive care unit admission, rate of need for rapid response team call, in

202 As incidence (and admission rates) of acute pancreatitis increase, so does

203 her rates of home health care also had lower admission rates or shorter lengths of stay.

204 ion.Objectives: To describe variation in ICU admission rates over time and by geography during the fi

205 Crude and risk-adjusted NICU admission rates, overall and stratified by birth weight

206 day (p<0.01) and also had a lower 28 day re-admission rate (p<0.01).

207 ns per day (p<0.03) and had a lower 7 day re-admission rate (p<0.02).

208 were associated with a 39.1% decrease in ICU admission rates (p < 0.0001).

209 gnificant differences in intensive care unit admission rates (P = .09) (10th quarter adjusted differe

210 High hospitalization and SNF admission rates, particularly among the oldest patients,

211 Inpatient admission rates per 1000 population for primary diagnosi

212 74] vs 1748 [n = 477], P = .03) but hospital admission rates per 1000 were not significantly differen

213 tly associated with fewer all-cause hospital admissions (rate ratio, 0.50 [95% CI, 0.35-0.71]; P < .0

214 ce in the total number of all-cause hospital admissions (rate ratio, 0.91 [95% CI, 0.71-1.17]; P = .4

215 outcome of nonaccidental deaths and hospital admissions) rate ratios (SMRRs) were calculated by Cox r

216 Heart failure admission rates remained constant at about 5 per 1,000 v

217 ption, total postoperative complications, re-admission rate, reoperation rate and follow-up times.

218 fined; and reported incidence rate, hospital admission rate, RSV positive proportion in acute lower r

219 Compulsory admission rates seem to reflect local factors, especiall

220 daily cardiovascular and respiratory disease admission rates, temperature and dew-point temperature,

221 ic patients had consistently higher hospital admission rates than European patients.

222 aribbean participants had higher stroke unit admission rates than White participants in 1995 to 2003

223 ds ratios to quantify the variability in ICU admission rate that was attributable to hospitals.

224 used to isolate physician-level variation in admission rates that reflects variation in physician dec

225 The overall psychiatric admission rate, therapeutic alliance, quality of life, m

226 We reviewed changes in TS utilization, admission rate, thrombolytic therapy, patient transfer r

227 Admission rate to ICU and mortality of cirrhotic patient

228 ital, and then plotted against the projected admission rates to find the extent of variation.

229 n the two groups with a secondary measure of admission rates to residential (nursing home) care.

230 admission rates in single calendar years and admission rate trends for specified aetiologies in relat

231 ICU admission rate varied between hospitals and over time bu

232 Severity-adjusted ICU admission rates varied across institutions, but mechanic

233 POD admission rates varied from 0.5 to 18.3 per 1000 admissi

234 ren with fully formula feeding, the hospital admission rate was 12% lower in those with partially bre

235 The admission rate was 39.7% for children assigned to dexame

236 The hospital admission rate was 57% higher (hazard ratio, 1.57; 95% C

237 The admission rate was 7.0% due to operative difficulties (4

238 I, 0.6%-2.5%) and the 30-day return hospital admission rate was 8.5% (95% CI, 6.2%-10.7%) with a medi

239 The ICU admission rate was higher among patients on chronic dial

240 The admission rate was higher among seropositive infants com

241 The overall admission rate was lower with CCTA (14% vs. 40%; p < 0.0

242 The NICU admission rate was not significantly higher for those wi

243 Absolute admission rate was reduced from 60.5% to 48.3% following

244 001), while for ACSCs, the adjusted ratio of admission rates was 1.78 (95% CI, 1.38-2.31; P < .001).

245 The ratio between observed and projected admission rates was computed, controlling for hospital,

246 parately, a significant increase in hospital admission rates was noted for quinsy, and significant de

247 Overall intensive care unit admission rates were 17% with the sham device vs. 25% in

248 case fatality and intensive care unit (ICU) admission rates were 5.5% and 9.8%, respectively.

249 NICU admission rates were 9.2% (7014 admissions) in T1, 8.3%

250 Increasing nonelective admission rates were associated with increasing facility

251 Admission rates were calculated by year, age, sex, and c

252 season peaked slightly earlier, but overall admission rates were comparable.

253 Admission rates were constructed from the Medicare Natio

254 re followed up and annual hospital costs and admission rates were estimated for April 1, 2006, to Mar

255 ed weekly postpandemic age- and sex-specific admission rates were estimated using Poisson regression;

256 n White patients while stimulant-related ICU admission rates were higher in Black patients.

257 groups within our cohort, opioid-related ICU admission rates were higher in White patients while stim

258 usual-care patients), ED visit and hospital admission rates were lower for intervention patients in

259 Provincial admission rates were matched to study data by age and ge

260 Mortality rates at 30 days and ICU admission rates were not statistically different between

261 Wide variation in individual physician admission rates were observed (unadjusted, 1.5%-68.9%) a

262 Significantly higher LDLT admission rates were observed for biliary tract morbidit

263 ICU admission rates were positively correlated within hospit

264 Specifically, increases in hospital admission rates were recorded in LABA-treated non-Hispan

265 While heart failure admission rates were similar among aligned and unaligned

266 n variant vs those with influenza, while ICU admission rates were similar.

267 lacebo group (OR: .68; 95% CI .34-1.35); ICU admission rates were, respectively, 5.2% and 11.3% (OR:

268 ICU admission rates within seven days were 30.8% (derivation