ライフサイエンスコーパス: after admission

1 or more head CT scans performed in the year after admission).

2 evaluation of swallowing (days 3, 14, and 28 after admission).

3 42 (24.0%) greater than or equal to 24 hours after admission.

4 cells and 1 U of plasma in the first 6 hours after admission.

5 All of them underwent CMR 1 week after admission.

6 of blood products during the first 24 hours after admission.

7 ance imaging was performed within 48 to 72 h after admission.

8 5 to 100 mm Hg targets during the first 36 h after admission.

9 was increased 27-fold during the first month after admission.

10 ter circulatory death an average of 6.6 days after admission.

11 nd serum S100B was assayed daily for 15 days after admission.

12 aration for surgery, the patient died 6 days after admission.

13 12, 24, 36, 48, 60, 72, 84, 96, and 108 hrs after admission.

14 ients were followed for mortality for 1 year after admission.

15 th metronidazole or oral vancomycin > 3 days after admission.

16 ascularization)-actively surveyed for 1 year after admission.

17 cted death, and this relationship dissipated after admission.

18 nd 3.1% at 7 days and 28 days, respectively, after admission.

19 llow-up data was collected at 30 and 90 days after admission.

20 shock, especially during the first day or so after admission.

21 502 patients (26.7%) who died within 30 days after admission.

22 998 was also collected, as was death at 1 yr after admission.

23 dipyridamole stress at a mean of 9+/-2 days after admission.

24 nal support was initiated no later than 48 h after admission.

25 ed, suggesting that new symptoms may develop after admission.

26 interviewed at 3 months, 1 year, and 2 years after admission.

27 went tracheostomy a mean of 3.9 +/- 0.7 days after admission.

28 during treatment and at 17, 26, and 52 weeks after admission.

29 , and post-traumatic-stress symptoms shortly after admission.

30 ured at 0, 3, 6, 9 to 12, and 16 to 24 hours after admission.

31 oncentrations occurred between 12 and 36 hrs after admission.

32 ath or new organ failure in the first 7 days after admission.

33 962 (<0.01%) and implanted a median of 1 day after admission.

34 outpatient care during the six-month period after admission.

35 condition deteriorated to this level shortly after admission.

36 ent with chronic renal failure who died 2 mo after admission.

37 d nonfatal cardiovascular events in the year after admission.

38 ly and delayed image sets) performed shortly after admission.

39 diagnostic assessment was conducted 1 month after admission.

40 haviors, the latter at approximately 2 weeks after admission.

41 > 52% > 58% > 47%) when BDD occurred longer after admission.

42 2 consecutive days) were initiated on day 6 after admission.

43 th secondary septicemia who died a few hours after admission.

44 Eleven CMV reactivations were observed after admission.

45 those without a recorded outcome at 28 days after admission.

46 iratory specimen obtained 48 hours or longer after admission.

47 in addition to standard care within 14 days after admission.

48 onary artery catheters were inserted shortly after admission.

49 ore was obtained at 12 hours and 48-72 hours after admission.

50 nd pulse/high-dose steroids on the day of or after admission.

51 outcome was ventilator-free days by 28 days after admission.

52 These outcomes were measured 48 hours after admission.

53 28, 2021, with a PCT test done within 72 hr after admission.

54 epeat MRI of the brain was performed 2 weeks after admission.

55 Treatment commenced within 3 days after admission.

56 0.08-3.15 ng/mL]) and peaked 0.1 to 2.3 days after admission.

57 tion of deaths taking place 1, 2, or 3 weeks after admission.

58 and were discharged after 34.7 +/- 14.7 days after admission.

59 a (SAP), or of how quickly it should be done after admission.

60 and throat carriage of K. pneumoniae shortly after admission.

61 enesis were measured during the first 4 days after admission.

62 rred from another hospital either acutely or after admission.

63 mortality rates did not differ up to 1 year after admission.

64 n-specific enolase curve from 24 to 72 hours after admission.

65 ed in 7 patients, 8 days (range:: 6-10 days) after admission.

66 ; and corneal vascularisation, 8%, 10 months after admission.

67 scular coagulation during the first 24 hours after admission.

68 chieve a reasonable level of function 1 year after admission.

69 defined as hemoglobin </= 7 g/dl 7 d or more after admission.

70 es were created according to time to consult after admission.

71 UNGAL levels were measured within 24 h after admission.

72 mitted to hospital for pneumonia died 5 days after admission.

73 t and 10.5 days +/- 3.8 (95% CI: 10.2, 12.9) after admission.

74 antly on the time points 6, 12, and 18 hours after admission.

75 days 1-7 and late tracheostomy on days 8-20 after admission.

76 s (69%) were discharged home a median 8 days after admission.

77 chest x-ray, which resolved within 24 hours after admission.

78 ration and maintenance during the first year after admission.

79 e-adjusted Medicare expenditures in the year after admission.

80 2 (CP2)], and 14 +/- 2 d (clinical phase 3) after admission.

81 mary outcome was all-cause mortality 30 days after admission.

82 d relief of congestion during the first days after admission.

83 opathy (HE; ALF), were followed until day 21 after admission.

84 IMV and hypoxemia on the third calendar day after admission): 1) a clinical model with least absolut

85 inolysis and patients deceased within 2 days after admission, 1,077 patients were analyzed, of whom 7

86 %), and 97 of these occurred at least 7 days after admission (10.5%).

87 The difference became significant the day after admission (3.3% vs. 2.7%, P<0.001) and persisted a

88 h reversal of INR levels <1.3 within 4 hours after admission (43/217 [19.8%]) vs INR of >/=1.3 (264/6

89 Up to 21 days after admission, 483 patients (71.5%) survived without l

90 Only 0.7% of patients died within 30 days after admission (50 deaths), and most fatal AS cases occ

91 f data routinely collected in the first 24 h after admission accurately and reliably predict discharg

92 fidence interval 1.32 to 1.56, P<0.0001) and after admission (adjusted hazard ratio 1.47, 95% confide

93 In contrast, specimens collected early after admission allowed us to segregate microbiome featu

94 After admission, ammonia levels remained high in those d

95 were given semistructured interviews shortly after admission and again shortly before discharge to el

96 He was discharged 2 months after admission and appears to have fully recovered.

97 (71%) at admission to the ICU, within 4 days after admission and at ICU discharge.

98 or both, underwent 201Tl brain SPECT shortly after admission and before a CT-guided stereotactic brai

99 syndrome descriptors summarized the 24 hours after admission and before therapy initiation: 1) system

100 s (2005-2006), MTH was initiated immediately after admission and continued during primary PCI.

101 utritional support initiated within 36 hours after admission and continued for up to 5 days.

102 e 5 guideline-based therapies diverged early after admission and continued to diverge during 17-year

103 o completed research questionnaires at day 2 after admission and day 30 after initial evaluation usin

104 line wall motion assessment and MCE two days after admission and follow-up echocardiography a mean of

105 se food intake in this study was judged days after admission and HGS has a wide range of normal value

106 use of deep suctioning in the first 24 hours after admission and lapses greater than 4 hours between

107 rting inhibitors, both during the first 24 h after admission and on hospital discharge (all p = 0.000

108 roSP levels were highest on the first 2 days after admission and related to estimated glomerular filt

109 Level 3 intensive care in the first 24 hours after admission and subsequently Level 2 HDC.

110 estimated from samples taken between 2 days after admission and up to 2 days following discharge fro

111 Two of them died shortly after admission and were excluded from further considera

112 ight change per 40 mg of furosemide on day 4 after admission) and hemoconcentration (change in hemogl

113 when the HCT was performed (at admission or after admission), and ordering physician.

114 ity measures, (3) risk-adjusted 30-day death after admission, and (4) risk-adjusted 30-day readmissio

115 order at admission, presence of coma 24 hrs after admission, and active involvement of full-time ICU

116 Subjects were studied 5 to 7 days after admission, and again after 1 week of oxandrolone t

117 iture was determined daily for < or = 5 days after admission, and energy intake was set at 1.04 times

118 The median time to therapy of PLEX was 1 day after admission, and PLEX use was highest in patients wi

119 ty, recovery, and sustained recovery 90 days after admission, and readmission and all-cause mortality

120 Plasma samples were collected immediately after admission, and the levels of carnitine and acylcar

121 ticipants were monitored closely for 4 years after admission, and their symptom course was charted fo

122 pital admission and deaths occurring 2 weeks after admission, and this finding was robust to examinat

123 resistive index was measured within 12 hours after admission, and urinary tissue inhibitor of metallo

124 , undergoing CAG within the initial 12 hours after admission (as opposed to later, either 12-24 or >/

125 ulated host response during the first 4 days after admission, as reflected by enhanced inflammation,

126 se levels on admission and at 6 and 24 hours after admission, as well as 30-day mortality, were docum

127 ll motion assessment, MCE, and LDDE two days after admission, as well as follow-up echocardiography a

128 ized bronchodilator therapy on the first 3 d after admission, at discharge, and 6 wk postadmission (D

129 ples, 40 (40%) developed E. faecium carriage after admission based on culture, compared with 64 patie

130 and diagnosis of infection more than 7 days after admission, but not gender (female odds ratio [OR]

131 o transfusion revealed that CP within 3 days after admission, but not within 4 to 7 days, was associa

132 ficantly greater decrease in BMD in the year after admission compared with population-based control s

133 tients operated on during the first 24 hours after admission compared with those operated on later in

134 tial SARS-CoV-2 in serum was 1 (IQR 1-2) day after admission corresponding to day 10 (IQR 8-12) after

135 1 day (interquartile range [IQR], 1-2 days) after admission, corresponding to day 10 (IQR, 8-12) aft

136 s, defined as a positive blood culture on or after admission day 3.

137 ients) revealed that delay of 12 to 24 hours after admission did not increase the risk of complex app

138 he risk of decompensation peaked immediately after admission; discharges peaked around days 3-5, and

139 uing corticosteroid therapy, he died 21 days after admission due to respiratory failure.

140 The primary outcome was survival to day 14 after admission, excluding patients who died within 48 h

141 epeat MRI of the brain was performed 2 weeks after admission (Fig 4).

142 Mean opioid consumption peaked after admission followed by a continuous decline without

143 ECG monitoring of patients in the first week after admission for acute coronary syndrome.

144 In our single-center experience, SCUF after admission for acute decompensated HF refractory to

145 ally been found to predict rehospitalization after admission for acute heart failure (HF).

146 t patients at low risk for rehospitalization after admission for acute HF.

147 rates of appropriate cardiac catheterization after admission for acute myocardial infarction varied b

148 and weakly indicated cardiac catheterization after admission for acute myocardial infarction, but no

149 total of 31,570 adult patients who survived after admission for AD or AA between 2001 and 2013 were

150 scharged to nonhospital inpatient facilities after admission for AMI (OR, 3.14 [95% CI, 1.72-5.74]) o

151 ected patients to die during hospitalization after admission for AMI or stroke (odds ratio, 3.03 [95%

152 ected patients to die during hospitalization after admission for AMI or stroke.

153 ause mortality during 6 months postdischarge after admission for an ACS.

154 to hospital discharge between 1990 and 1999 after admission for cardiac arrest.

155 Adjusted hazard ratio for death 6-18 months after admission for chronic opioid users was 1.7 (95% CI

156 untries, healthcare systems, time before and after admission for COVID-19 and COVID-19 severity.

157 After admission for inpatient or outpatient psychiatric

158 obtained in 250 unselected patients 1.6 days after admission for MI.

159 Early cholecystectomy shortly after admission for mild gallstone pancreatitis has been

160 Nonsustained VT is common after admission for non-ST-elevation acute coronary synd

161 l repair of tetralogy of Fallot within 2 wks after admission for RSV infection.

162 nalysis demonstrates that status epilepticus after admission for sepsis in the United States was rare

163 n overall significant reduction in mortality after admission for sepsis, status epilepticus carried a

164 f 4.1, 5.5, 4.1, and 3.8 in the initial 6 mo after admission for septicemia and 1.7, 2.0, 2.0, and 1.

165 umber of head CT scans conducted in the year after admission for stroke was 3.4; 8737 patients (16.4%

166 were randomly assigned (1:1) within 10 days after admission for the index acute coronary syndromes e

167 cava filter placed within the first 72 hours after admission for the injury or to have no filter plac

168 The patient had a poor outcome after admission for this infection, likely due to his un

169 In-hospital mortality after admissions for sepsis was associated with status e

170 nial monitor/drain insertion within 24 hours after admission) for TBI at level 1 and 2 trauma centers

171 average number of head CT scans in the year after admission, for the 327 521 study patients, was 1.9

172 Receipt of a surgical consultation after admission from the emergency department with an em

173 The LDL-C levels decreased in the 24 h after admission (from 136.2 to 133.5 mg/dl), followed by

174 ample, a threshold value of 3.5 mmol/L early after admission had sensitivity 67%, specificity 95%, po

175 e a higher mortality rate during the 3 years after admission (hazard ratio, 1.34 [CI, 1.03 to 1.73]).

176 as lower for blacks during the first 30 days after admission (HR, 0.91; 95% CI, 0.88-0.93; P<.001; an

177 Patients were automatically enrolled 48 h after admission if they met pre-specified criteria for a

178 ion (ie, day 0) and at days 3, 7, 14, and 28 after admission (if the patient remained hospitalized).

179 P and NfL in serum samples collected one day after admission in 30 adult patients with moderate-to-se

180 values were obtained within the first 24 hrs after admission in 463 pediatric patients admitted to fo

181 unt-Hess grading scale within the first 24 h after admission in 609 consecutively admitted aneurysmal

182 were determined at admission and 12-24 hours after admission in 759 emergency department patients wit

183 Delirium appeared within the first five days after admission in 81.6% of cases.

184 as present on admission in 11% and developed after admission in 89% of shock patients.

185 edian time to proof of infection was 21 days after admission in both groups.

186 The median blood glucose 8 hours after admission in patients receiving exenatide was lowe

187 roup (mean [SD], 163.7 [160.0] U/L) 48 hours after admission in relation to the comparator (412.4 [44

188 hose patients dying up to the first 72 hours after admission in the Drugs+Endoscopy arms of the 4 obs

189 nd blood samples at 3 successive time points after admission in the intensive care unit (ICU) (T1, 0-

190 Mortality in the 30 days after admission increased from 9.43% in 2019 to 11.48% f

191 oronary syndrome, NSVT occurring beyond 48 h after admission indicates an increased risk of cardiac a

192 he 123 patients still in the ICU at days 5-7 after admission, IPP similarly enriched the number of pa

193 edian 1600 (IQR, 550-3400), peaking 3.4 days after admission (IQR, 2.3-5.5) and decreasing thereafter

194 f infection or mechanical ventilation 24 hrs after admission, male sex, emergency surgery, trauma, pr

195 nting effective infection control during and after admission may limit further spread, but evidence-b

196 ically ill children, the lung US score early after admission may predict prolonged IMV.

197 ventilator-free days, determined at 28 days after admission.Measurements and Main Results: Lungs of

198 atients (n = 1,484) were followed up to 41 d after admission (median, 8 d), and clinical information,

199 occurred (no significant change for 48 hours after admission) monitoring for AGE was performed utiliz

200 reanalyzed patients still in the ICU 4 days after admission (n = 82).Measurements and Main Results:

201 Death within 30 days after admission occurred in 278 patients (42.2%) in the

202 external Ca(2+), but developed with a delay after admission of Ca(2+), suggesting that vesicular tur

203 After admission of the first patient with EVD, a multidi

204 dical advice, and those leaving the hospital after admissions of 7 days or more.

205 stimated that early administration (<=5 days after admission) of IFN-alpha2b was associated with redu

206 flow cytometry measurements within 24 hours after admission, of whom 103 had sepsis.

207 tus, diagnosis of infection more than 7 days after admission, older age, transplantation, and female

208 ff value for proadrenomedullin taken 6 hours after admission on ICU (time point 2) of 3.2 nmol/L sens

209 o cardiac intervention, EVT more than 3 days after admission or cardiac intervention, or endocarditis

210 d concurrently with patient care for 30 days after admission or surgical intervention before implemen

211 evaluated every alternate day until 13 days after admission or until discharge, whichever occurred f

212 ream infection (BSI), and mortality (>3 days after admission) outcome data were collected for 6 month

213 unit admission (P = .09), and fever >4 days after admission (P = .008).

214 d pre-existing disorders than those who died after admission (p=0.0109).

215 After admission, patients were randomized to receive 30,

216 diac troponin T (cTnT) on admission and 12 h after admission (peak cTnT).

217 malnourished and infected; approximately 8 d after admission (period 2), when they were malnourished

218 ut free of infection; and approximately 54 d after admission (period 3), when they had recovered.

219 ery 6 h) and static (e.g., triggered at 24 h after admission) predictions.

220 hospital-onset (sepsis developed >=48 hours after admission) sepsis.

221 tive strategies for reducing subsequent harm after admission should be considered for all types of ad

222 d nonedematous (n = 10) SAM at 4.4 +/- 1.1 d after admission (stage 1) and at 20.5 +/- 1.6 d after ad

223 er admission (stage 1) and at 20.5 +/- 1.6 d after admission (stage 2) when they had replenished 50%

224 dematous PEM and infection approximately 3 d after admission (study 1), when they were both infected

225 nfected and malnourished; approximately 11 d after admission (study 2), when infection had resolved b

226 17 percent more likely to die within 30 days after admission than patients in the quartile admitted t

227 riceal hemostasis delayed more than 24 hours after admission than were whites (OR 1.6; 95% CI: 1.2-2.

228 48 h after admission the values for the clinicobiochemical sc

229 Nine days after admission, the patient became unwell and reported

230 Shortly after admission, the patient's blood sugar was controlle

231 do-not-resuscitate order was entered >24 hrs after admission; the remainder recovered.

232 lf-report of KMC, which had high sensitivity after admission to a KMC ward or corner and could be con

233 ieve significant improvements in functioning after admission to a neuropsychiatry unit.

234 t included 82,012 persons initiating APM use after admission to a nursing home in 45 states with 2001

235 tween the ages of 6 mo and 3 y were enrolled after admission to a nutritional rehabilitation unit in

236 reduced total intelligence quotient, 2 years after admission to a PICU.

237 and late (29 days to a median of 2.5 years) after admission to a single unit of patients with unstab

238 >=16, or >=18 years of age) within 48 hours after admission to an intensive care unit (ICU) to recei

239 community discharge for short-stay patients after admission to an SNF.

240 s, were collected approximately 3 and 9 days after admission to be matched with preadministration and

241 Readmission within 30 days was less common after admission to community compared with VHA hospitals

242 assessment every 4 h during the first 7 days after admission to compute NPi, with values ranging from

243 rates in women were 14% higher (P = .07) and after admission to coronary care, 22% higher (P = .04).

244 ned infants born before week 33 of gestation after admission to Dhaka Shishu Hospital, Bangladesh, to

245 tion of guideline-directed medical therapies after admission to hospital for acute heart failure.

246 ed to the general population, the death rate after admission to hospital with head injury remains hig

247 Even 10 years or more after admission to hospital with VTE, cancer incidence h

248 After admission to hospital, fatality rates in women wer

249 ive interventions for PEH before, during and after admission to hospital, highlighting psychosocial n

250 roke recovery than any factor alone, shortly after admission to hospital.

251 ompleted a series of psychometric tests soon after admission to hospital.

252 risk ratio of depression and anxiety 3 years after admission to ICU was 1.04 (95% CI, 0.96-1.13) for

253 tients or family members to promote recovery after admission to ICU were included.

254 y and consumption in critically ill patients after admission to intensive care.

255 results with the notable exception of death after admission to NICU (0.95 [0.89, 1.01]).

256 tion and continued taking NHPs until shortly after admission to our institution.

257 ing room, and ICU) during the first 72 hours after admission to study center were determined.

258 rgency trauma patients beginning within 1 hr after admission to the emergency department; b) to prosp

259 The greatest emotional distress occurred after admission to the hospital and before the bone marr

260 gency department, and at 6, 12, and 24 hours after admission to the hospital.

261 ess progressed relentlessly to death 9 weeks after admission to the hospital.

262 nosis of sepsis, millions of people die even after admission to the hospitals.

263 Supplements were started within 24 hours after admission to the ICU and were provided both intrav

264 renomedullin measured between 6 and 18 hours after admission to the ICU is a better predictor of hosp

265 of mortality (c-statistic at time point 6 hr after admission to the ICU, 0.940; 95% CI, 0.918-0.956)

266 ta were collected for 14 and then for 24 hrs after admission to the ICU.

267 ementia compared with those without dementia after admission to the ICU.

268 ity persisted until the patient died 38 days after admission to the ICU.

269 h a hematologic malignancy and organ failure after admission to the ICU.

270 yndrome while in the emergency department or after admission to the ICU.

271 rospectively in 29 patients daily for 5 days after admission to the intensive care unit.

272 rehabilitation therapy and mobilization soon after admission to the intensive care unit.

273 , or trauma patients between 48 and 96 hours after admission to the intensive care unit.

274 (N = 15/group) were taken at day 1 and day 3 after admission to the medical intensive care unit and,

275 severe sepsis receiving standard management after admission to the medical wards of two Ugandan hosp

276 Sixteen patients (17%) acquired C. glabrata after admission to the study units.

277 mized to resuscitation, starting immediately after admission, to either normal values of systolic blo

278 ltation earlier (mean [SD] of 3.4 [2.6] days after admission vs 4.6 [4.8] days; P < .001).

279 t 30 days was 24.5% and mortality at 30 days after admission was 11.1%.

280 ll mean days in the hospital for the 3 years after admission was 25.9 for patients admitted to hospit

281 before admission, at discharge, and 6 months after admission was assessed.

282 une alterations at the end of the first week after admission was associated with increased risk of se

283 Mortality over the 3 years after admission was determined from the National Death I

284 the index hospitalization or within 30 days after admission was lower in specialty hospitals than in

285 VT occurring within the first 48 hours after admission was not associated with SCD.

286 All-cause mortality 90 days after admission was reduced by 3% annually.

287 tality was 18.0% and early mortality (2 days after admission) was 6.9%.

288 d late-risk period from day 29 to six months after admission were compared.

289 and glucose levels within the first 24 hours after admission were determined.

290 changes in parasitemia level (ie, 0-6 hours after admission) were determined mainly by modal stage o

291 teristics, available within the first 24 hrs after admission, were associated with LSPs and to create

292 al myocardial infarction, or nonfatal stroke after admission, were the primary endpoint.

293 edian interval of 36 wk (range: 16 to 49 wk) after admission, when 16 (55%) had experienced subsequen

294 care unit optimal mobility score the morning after admission, whereas a third nurse recorded the achi

295 cardiogenic shock was mainly during days 0-1 after admission, whereas the reductions in reinfarction

296 charge from the acute care unit, or 3 months after admission, whichever came first.

297 Outcome was mortality in the 30 days after admission with adjusted odds generated from a 3-le

298 th possible AMI can be triaged within 1 hour after admission with no loss of safety compared with a 3

299 respiratory co-infections (diagnosed 2 days after admission), with Enterobacteriaceae and S aureus m

300 ents with NH-IMR(angio)<40 units at 48 hours after admission would reduce the total in-hospital stay