ライフサイエンスコーパス: resuscitate

1 uscitate; and 2,051 patients were non-do-not-resuscitate.

2 t on goals of care and designation of do not resuscitate.

3 ultidrug tolerant, and that they are able to resuscitate.

4 All animals were fluid resuscitated.

5 sed long-term mortality in patients who were resuscitated.

6 rmothermic control animals, all animals were resuscitated.

7 tassium chloride-induced CA and subsequently resuscitated.

8 ut-of-hospital cardiac arrest patients being resuscitated.

9 Of the 155 patients successfully resuscitated, 24% subsequently received an implantable c

10 computer decision support system was used to resuscitate 32 subsequent patients with severe burns (co

11 as "allow natural death" rather than do not resuscitate (49% vs 61%, odds ratio, 0.58 [95% CI, 0.35-

12 o cohorts were defined: patients with do not resuscitate advance directives on day 1 of ICU admission

13 Pigs were resuscitated after 7 minutes of untreated cardiac arrest

14 tment of patients who have been successfully resuscitated after cardiac arrest in the absence of ST-s

15 s, 2 underwent heart transplants, and 2 were resuscitated after cardiac arrest.

16 Among patients resuscitated after experiencing out-of-hospital cardiac

17 port the case of a 52-yr-old Caucasian woman resuscitated after initial cardiac arrest, with normal p

18 eous coronary intervention (PCI) in patients resuscitated after out-of-hospital cardiac arrest (OHCA)

19 Among patients who had been successfully resuscitated after out-of-hospital cardiac arrest and ha

20 Comatose patients resuscitated after out-of-hospital cardiac arrest receiv

21 are unknown in elderly patients successfully resuscitated after out-of-hospital cardiac arrest.

22 ion (cardiopulmonary resuscitation vs do not resuscitate/allow natural death).

23 The target article resuscitates an old but outdated dichotomy: a theoretica

24 thermic machine perfusion (NMP) as a tool to resuscitate and assess viability of initially declined d

25 Machine perfusion is increasingly used to resuscitate and test the function of donor livers.

26 age who suffered nontraumatic OHCA and were resuscitated and discharged alive from the hospital betw

27 and December 31, 2009, and were successfully resuscitated and discharged alive from the hospital foll

28 er 8 minutes of cardiac arrest, animals were resuscitated and submitted to a normothermic follow-up (

29 e found that such hearts can be successfully resuscitated and transplanted without increasing recipie

30 espiratory arrest from which he could not be resuscitated and was pronounced dead.

31 hen placed on a mechanical ventilator, fluid resuscitated, and monitored for 48 hours in a conscious

32 ents was collected: 389 patients were do-not-resuscitate; and 2,051 patients were non-do-not-resuscit

33 Decisions not to resuscitate are often made in the absence of a formal do

34 rrences of either primary end point-death or resuscitated arrest or arrhythmia- or shock-related inju

35 arction, stroke, hospitalization for angina, resuscitated arrest, and coronary revascularization.

36 ndpoint of death or death-equivalent events (resuscitated arrest, successful defibrillation for ventr

37 d emulsion has been shown to be effective in resuscitating bupivacaine-induced cardiac arrest but its

38 Many severe trauma patients are successfully resuscitated but have complicated clinical trajectories

39 astatic cells, the defects in which could be resuscitated by alternative pathways of NF-kappaB activa

40 He was successfully resuscitated by first-responder chest compressions and r

41 Patients successfully resuscitated by paramedics from out-of-hospital cardiac

42 hington, with prehospital cardiac arrest and resuscitated by paramedics were eligible and 1359 patien

43 Growth-arrested Mtb is resuscitated by the addition of pyruvate suggesting that

44 tcome parameter was arrhythmic death (AD) or resuscitated cardiac arrest (RCA).

45 Resuscitated cardiac arrest and arrhythmic death caused

46 s having the illness in his late 40s after a resuscitated cardiac arrest and regularly followed up on

47 entioned societies who care for successfully resuscitated cardiac arrest individuals.

48 rovolt T wave alternans added information on resuscitated cardiac arrest or arrhythmic death at multi

49 death or first arrhythmic event (defined as resuscitated cardiac arrest or spontaneous ventricular t

50 nt was survival free of death or arrhythmia (resuscitated cardiac arrest or sustained ventricular tac

51 Only patients with a resuscitated cardiac arrest or type 1 Brugada ECG patter

52 nfarctions, revascularization procedures, or resuscitated cardiac arrest) assessed using measures of

53 ular causes, 0.83 (95% CI, 0.25 to 2.73) for resuscitated cardiac arrest, 0.91 (95% CI, 0.68 to 1.21)

54 clinically relevant ventricular arrhythmias, resuscitated cardiac arrest, acute kidney failure, and c

55 End points were cardiac death, resuscitated cardiac arrest, and arrhythmic death.

56 plasty, or other revascularization), stroke, resuscitated cardiac arrest, and CVD death.

57 plantable cardioverter-defibrillator firing, resuscitated cardiac arrest, and hospitalization for hea

58 lantable cardioverter-defibrillator therapy, resuscitated cardiac arrest, and sustained ventricular t

59 lar events, including myocardial infarction, resuscitated cardiac arrest, angina, stroke, and death,

60 by revascularization, myocardial infarction, resuscitated cardiac arrest, coronary heart disease deat

61 cond coprimary outcome additionally included resuscitated cardiac arrest, heart failure, and revascul

62 cular causes, myocardial infarction, stroke, resuscitated cardiac arrest, heart failure, or revascula

63 mposite of death from cardiovascular causes, resuscitated cardiac arrest, myocardial infarction, stro

64 ease (CHD, defined as myocardial infarction, resuscitated cardiac arrest, or CHD death), cardiovascul

65 ction, angina followed by revascularization, resuscitated cardiac arrest, or CHD death.

66 nts including myocardial infarction, angina, resuscitated cardiac arrest, or CHD death.

67 CHD events, including myocardial infarction, resuscitated cardiac arrest, or CHD death.

68 art disease, nonfatal myocardial infarction, resuscitated cardiac arrest, revascularization, or angin

69 ome of the study was the composite of death, resuscitated cardiac arrest, significant ventricular arr

70 171 hard CVD events (myocardial infarction, resuscitated cardiac arrest, stroke and CV death), and 8

71 tion, angina resulting in revascularization, resuscitated cardiac arrest, stroke, cardiovascular deat

72 omponents of the composite outcome of death, resuscitated cardiac arrest, sustained ventricular tachy

73 cluded revascularization, heart failure, and resuscitated cardiac arrest.

74 e following an unexpected and unsuccessfully resuscitated cardiac arrest.

75 ation for unstable angina, heart failure, or resuscitated cardiac arrest.

76 se death, myocardial infarction, stroke, and resuscitated cardiac arrest.

77 ation for unstable angina, heart failure, or resuscitated cardiac arrest.

78 re myocardial infarction, death from CHD, or resuscitated cardiac arrest.

79 1 underwent cardiac transplantation; 2 had a resuscitated cardiac arrest; and 1 died after a cerebrov

80 A total of 135 sudden deaths, resuscitated cardiac arrests, and trauma-related deaths

81 lated MACE (HF hospitalization, successfully resuscitated cardiac death, or cardiac death) and events

82 For cells to leave the dormant state and resuscitate, clearance of protein aggresome and recovery

83 ay were significantly associated with do-not-resuscitate comfort care decisions.

84 linical/demographic factors predicted do-not-resuscitate comfort care orders.

85 ate comfort care-arrest patients with do-not-resuscitate comfort care patients, those with more sever

86 patients were compared with those of do-not-resuscitate comfort care patients.

87 fort care-arrest patients and 91 were do-not-resuscitate comfort care patients.

88 do-not-resuscitate patients, 194 were do-not-resuscitate comfort care-arrest patients and 91 were do-

89 d the clinical/demographic factors of do-not-resuscitate comfort care-arrest patients were compared w

90 Comparing do-not-resuscitate comfort care-arrest patients with do-not-res

91 ate orders (DNR group) with 6,002 non-do-not-resuscitate control subjects (nonDNR group).

92 ness, longer ICU stay before making a do-not-resuscitate decision, and being cared for by only one in

93 resuscitate orders, facilitated early do-not-resuscitate decision.

94 Do not resuscitate directives were given for 71 patients (35.0%

95 Do not resuscitate (DNR) and withdrawal of life-sustaining ther

96 y to explore the associations between do not resuscitate (DNR) designations, quality of care, and out

97 chemotherapy with parents who chose a do not resuscitate (DNR) or terminal care (TC) option.

98 r of attorney (n = 98), and 19% had a do-not-resuscitate (DNR) order (n = 40).

99 rding the frequency and timing of the do-not-resuscitate (DNR) order in children, little is known abo

100 Do-not-resuscitate (DNR) order on admission (within the first 2

101 To determine whether do-not-resuscitate (DNR) orders differ among patients with ESKD

102 were the proportion of patients with do-not-resuscitate (DNR) orders, timing of DNR orders, and plac

103 suscitation preferences (Full Code or do-not-resuscitate [DNR]) was obtained from medical records thr

104 associated with greater transition to do-not-resuscitate/do-not-intubate and to hospice care, as well

105 Transition to do-not-resuscitate/do-not-intubate occurred earlier and signifi

106 Neurologic outcome in successfully resuscitated elderly patients depends on cardiac arrest

107 higher temperatures are appropriate for the resuscitated failing heart.

108 ting of TH and/or PCI in particular patients resuscitated following out-of-hospital cardiac arrest (O

109 The odds of becoming do not resuscitate for a patient going to the ICU after the med

110 ringent response also had reduced ability to resuscitate from dormancy.

111 els that cause them to lose their ability to resuscitate from starvation, leaving intact nondividing

112 maintaining the ability of P. aeruginosa to resuscitate from starvation-induced dormancy and that HP

113 e presence of an acute lesion among patients resuscitated from a cardiac arrest (integrated discrimin

114 A mechanism to stratify patients resuscitated from a cardiac arrest according to the like

115 2 family members who were both successfully resuscitated from a cardiac arrest.

116 Of these patients, 91% were resuscitated from a ventricular arrhythmia.

117 e of an acute coronary lesion among patients resuscitated from an arrest.

118 tation registry, 26183 patients successfully resuscitated from an in-hospital cardiac arrest between

119 In patients resuscitated from an OHCA of presumed cardiac cause, ear

120 ring normothermia and hypothermia in piglets resuscitated from arrest.

121 In patients successfully resuscitated from cardiac arrest with a postcardiac arre

122 Among patients with coma who had been resuscitated from cardiac arrest with nonshockable rhyth

123 rospectively identified consecutive patients resuscitated from cardiac arrest, regardless of time to

124 l trials to improve the survival of patients resuscitated from near-fatal ventricular fibrillation an

125 y assigned 120 consecutive comatose patients resuscitated from OHCA in a double-blind, 2-center trial

126 In-hospital mortality in comatose patients resuscitated from out-of-hospital cardiac arrest (OHCA)

127 Patients successfully resuscitated from out-of-hospital cardiac arrest enrolle

128 In adults who have been resuscitated from out-of-hospital cardiac arrest with an

129 e ages of 9 and 10 years, and another 2 were resuscitated from out-of-hospital cardiac arrest with do

130 iated with good 12-month outcome in patients resuscitated from out-of-hospital cardiac arrest.

131 rvival or neurological status among patients resuscitated from prehospital VF or those without VF.

132 nt rate (death, defibrillator discharge, and resuscitated from sudden death) at 30 days, 1 year, and

133 ernal cardioverter defibrillator discharges, resuscitated from sudden death, documented stroke, and a

134 d and 3 adults died of SCD and 2 adults were resuscitated from ventricular fibrillation.

135 Nearly all of the patients resuscitated from VF and admitted to the hospital receiv

136 Among patients resuscitated from VF/pVT OHCA with ST-segment elevation

137 Conversely, among patients resuscitated from VF/pVT OHCA without ST-segment elevati

138 were both significantly higher in the do-not-resuscitate group (33.9% vs 18.4% and 60.7% vs 40.2%; p

139 Infants who were resuscitated had increased risk of a low IQ score, even

140 xperiments were designed in a mouse model of resuscitated hemorrhagic shock and tissue trauma (HS/T).

141 Moreover, using a resuscitated HERV-K virus construct, we show that both v

142 circulatory death (DCD) canine hearts can be resuscitated if perfused with warm blood.

143 ith nasopharyngeal cooling were successfully resuscitated in contrast to only two animals resuscitate

144 Ten animals were resuscitated in each group.

145 at phosphatidylinositol-exchange activity is resuscitated in heme binding-deficient Sfh5 mutants.

146 resuscitated in contrast to only two animals resuscitated in the cold saline infusion group (p = .02)

147 However, how these dormant cells resuscitate is not understood well but involves reactiva

148 This study also suggested that Ohio's Do-Not-Resuscitate Law, clearly indicating two different protoc

149 ermic oxygenated machine perfusion ([D]HOPE) resuscitates livers after cold storage, NMP enables asse

150 A fluid-resuscitated, long-term (3 d) rat model of sepsis (fecal

151 Mice were resuscitated (mean arterial blood pressure>50 mm Hg for

152 and Nanog chromatin, Nanog re-expression and resuscitates moribund pluripotency.

153 arrest, 24.1% (582/2,417) were successfully resuscitated, of whom 24.1% (140/582) received postarres

154 glucagon-like peptide-1 analog exenatide in resuscitated OHCA patients.

155 06), and took longer to transition to do not resuscitate or comfort care (median, 4 vs 3 d; p = 0.048

156 age follow-up of 5.3 years, 142 patients had resuscitated or fatal SCD (annual rate 0.27%).

157 llow-up up to 15 years, we assessed incident resuscitated or fatal SCD in relation to the presence of

158 s 10 to 75 years old who presented with SCD (resuscitated or not) during competitive or recreational

159 e associated with lower likelihood of do-not-resuscitate order (adjusted OR, 0.439; 95% CI, 0.296 to

160 tanding of the meaning and scope of a do-not-resuscitate order and 2) a need for discussions around g

161 literature, we propose that a partial do-not-resuscitate order contradicts this "best" management int

162 ndergoing surgery with a pre-existing do-not-resuscitate order did not increase the risk of having a

163 We propose that a partial do-not-resuscitate order highlights larger problems: 1) a misun

164 p = .003), and less likely to want a do-not-resuscitate order if hospitalized (51% vs. 60%; z = 3.03

165 hdrawing of life support had a formal do-not-resuscitate order in place at the time of their death.

166 A partial do-not-resuscitate order may serve as an example.

167 ay 18, including 4 patients who had a do-not-resuscitate order on admission.

168 patients, 1,239 patients (6.5%) had a do-not-resuscitate order on the first day of ICU admission and

169 ts who received a tracheostomy, had a do-not-resuscitate order placed, or died prior to first extubat

170 em was associated with an increase in do-not-resuscitate order placement.

171 ischarge data, death occurrences, and do-not-resuscitate order placements were collected over an 8-ye

172 cations were analyzed, a pre-existing do-not-resuscitate order remained independently associated only

173 h outcome only when the presence of a do-not-resuscitate order was excluded from the model.

174 es, or chemotherapeutic agents), or a do-not-resuscitate order were excluded.

175 o-not-resuscitate order, those with a do-not-resuscitate order were significantly more likely to be o

176 Partial do-not-resuscitate order(s) are designed based on the patient's

177 iterature available regarding partial do-not-resuscitate order(s) suggests the practice is clinically

178 nd recommendations on the use of full do-not-resuscitate order(s) with little mention of partial do-n

179 der(s) with little mention of partial do-not-resuscitate order(s).

180 ment limitation discussion, 67% had a do-not-resuscitate order, 40% were admitted to a medical intens

181 than half of the patients (52%) had a do-not-resuscitate order, and 65% of them still had the ICD sho

182 Older age, a preexisting do-not-resuscitate order, renal impairment, disseminated cancer

183 Compared with patients without a do-not-resuscitate order, those with a do-not-resuscitate order

184 tients with septic shock; 19.6% had a do-not-resuscitate order.

185 often made in the absence of a formal do-not-resuscitate order.

186 ission and were less likely to have a do-not-resuscitate order.

187 more than half of the patients with a do-not-resuscitate order; almost one fourth of these patients r

188 y team calls were associated with 109 do-not-resuscitate orders (28%).

189 , p = 0.03), were more likely to have do-not-resuscitate orders (65.9% vs 48.2%, p < 0.001), and unde

190 [81.8%]) patients having pre-existing do-not-resuscitate orders (DNR group) with 6,002 non-do-not-res

191 on significantly changed the trend of do-not-resuscitate orders (p < 0.001) but had no impact on hosp

192 ility of reintubation, with death and do-not-resuscitate orders after extubation modeled as competing

193 When associations between do-not-resuscitate orders and individual minor complications we

194 s no association between pre-existing do-not-resuscitate orders and occurrence of any major complicat

195 lementation on the change in trend of do-not-resuscitate orders and the hospital mortality.

196 rly patients were more likely to have do-not-resuscitate orders and to undergo withdrawal of life sup

197 Do-not-resuscitate orders for ward referrals increased from 0.7

198 8-day mortality effect of preexisting do-not-resuscitate orders in ICUs.

199 Do-not-resuscitate orders within 12 hours of ROSC.

200 bundle was mediated by a reduction in do-not-resuscitate orders within 24 hours (52.8%) and increased

201 al care unit, 66 were associated with do-not-resuscitate orders, 73% of which were obtained after tra

202 indicating two different protocols of do-not-resuscitate orders, facilitated early do-not-resuscitate

203 y, refusing to participate, or having do-not-resuscitate orders.

204 lation for two different protocols of do-not-resuscitate orders.

205 elated to the placement and timing of do-not-resuscitate orders.

206 mes associated with the two different do-not-resuscitate orders.

207 ians and patients who are considering do-not-resuscitate orders.

208 ls do not differ based on presence of do-not-resuscitate orders.

209 ty, medical cost, and the presence of do-not-resuscitate orders.

210 ts (91% vs 77%; p = 0.02), and fewer "do-not-resuscitate" orders (7% vs 78%; p < 0.001).

211 ons for ventricular tachyarrhythmias (n=31), resuscitated out-of-hospital cardiac arrest (n=20), or h

212 utcomes in adults with persistent coma after resuscitated out-of-hospital cardiac arrest.

213 Kv11.1 channel protein, was identified in a resuscitated patient.

214 dictors were confirmed when excluding do-not-resuscitate patients from the analyses.

215 The clinical/demographic factors of do-not-resuscitate patients were compared with those of non-do-

216 survived to hospital discharge and 86 do-not-resuscitate patients who eventually did not, only eight

217 For 149 do-not-resuscitate patients who eventually survived to hospital

218 We matched those do-not-resuscitate patients with 2,402 patients with full-code

219 d by emergency medical services providers to resuscitate patients with OOH cardiac arrest and to dete

220 Among the 389 do-not-resuscitate patients, 194 were do-not-resuscitate comfor

221 ients were compared with those of non-do-not-resuscitate patients, and the clinical/demographic facto

222 r lung water increased in 17 of 22 liberally resuscitated patients (77%); eight of these patients dev

223 All resuscitated patients admitted after out-of-hospital car

224 recommend performing coronary angiography in resuscitated patients after cardiac arrest with or witho

225 c ventricular tachycardia (CPVT; n=8) and in resuscitated patients after ventricular arrhythmia-induc

226 he prevalence of acute coronary occlusion in resuscitated patients with out-of-hospital cardiac arres

227 Among 4875 successfully resuscitated patients, 1825 (37.4%) were women and 3050

228 tion for emergent coronary angiography among resuscitated patients.

229 Follow-up was completed in all resuscitated patients.

230 fever mediates better neurologic outcome in resuscitated patients.

231 whole blood (WB) was the primary product for resuscitating patients in hemorrhagic shock.

232 Hydrolyzing corrupted tRNA resuscitates persisters.

233 Successful resuscitated pigs (n = 12) were randomized either to 3 m

234 as normal after next-day recovery in PEG-20k resuscitated pigs.

235 RF1 proteins: a modern human one (111p), its resuscitated primate ancestor (555p) and a mosaic modern

236 These cells resuscitate rapidly to reconstitute infections once the

237 26+/-0.6% at 5 mins, n=3), but was unable to resuscitate rats pretreated with higher doses of CVT (0.

238 rest results in about a 50% survival rate in resuscitated rats over a 4-day recovery period.

239 peritonitis was induced in conscious, fluid-resuscitated rats.

240 Discouraging partial do-not-resuscitate(s) order may help promote more accurate and

241 diagnostic yield in patients presenting with resuscitated SCD or SMVT and incrementally identifies cl

242 Eighty-two patients with resuscitated SCD or SMVT underwent routine non-CMR imagi

243 ersus non-CMR-based imaging in patients with resuscitated SCD or SMVT.

244 sium channel pore inhibition in awake, fluid-resuscitated septic rats, and the extent to which these

245 zation of a goal-directed, TEG-guided MTP to resuscitate severely injured patients improves survival

246 d (1.42 [1.39-1.46]) and to recommend Do Not Resuscitate status (1.34 [1.31-1.37]).

247 Among patients with septic shock, do-not-resuscitate status acts as a strong confounder that may

248 Association between do-not-resuscitate status and minor and major morbidities was a

249 neumonia in hematologic patients, and do-not-resuscitate status as independent predictors of mortalit

250 transfer from the same hospital ward, do-not-resuscitate status at the recognition of severe sepsis/s

251 tions of the treating team related to do-not-resuscitate status could also be causally responsible fo

252 Inclusion of early do-not-resuscitate status into more administrative databases ma

253 Do-not-resuscitate status is an independent risk factor for ICU

254 amined the strength of confounding of do-not-resuscitate status on the association between activated

255 onia in hematologic malignancies, and do-not-resuscitate status predicted mortality, whereas patients

256 Adding do-not-resuscitate status to a model with 47 covariates improve

257 Addition of do-not-resuscitate status to a multivariable model assessing th

258 with outcome only when correction for do-not-resuscitate status was excluded, and functional outcomes

259 investigated the association of early do-not-resuscitate status with in-hospital mortality among pati

260 sing age, impaired functional status, Do-Not-Resuscitate status, impaired respiratory function, ascit

261 sions (enrollment on a phase I study, do not resuscitate status, or terminal care) for 58 patients re

262 inical, and socioeconomic factors and do-not-resuscitate status.

263 increased mortality in patients with do-not-resuscitate status.

264 When excluding patients with "do-not-resuscitate" status, mortality rates were 13%, 19%, and

265 each cardiac inherited disease (CID) causing resuscitated sudden cardiac arrest (RSCA) on a populatio

266 site of SCD events at 5-year follow-up: SCD, resuscitated sudden cardiac arrest, and aborted SCD, tha

267 roportion of SCD events was 9.1% (14 SCD, 25 resuscitated sudden cardiac arrests, and 14 aborted SCD)

268 rhythmia (sustained ventricular tachycardia, resuscitated sudden cardiac death, or appropriate implan

269 tricular tachycardia, with 5 presenting with resuscitated sudden cardiac death.

270 urrence of sustained ventricular tachycardia/resuscitated sudden cardiac death/sudden cardiac death/a

271 ptomatic (15 syncope, 7 near-drowning, and 3 resuscitated sudden death).

272 ction, stroke, cardiovascular disease death, resuscitated sudden death, coronary artery or renal arte

273 argues that there is sufficient evidence to resuscitate the allosteric hypothesis, at least for some

274 The distal mutations resuscitate the allosterically driven conformational reg

275 DCD: (1) facilitates aerobic metabolism and resuscitates the DCD heart, (2) provides functional and

276 r albumin were administered and animals were resuscitated to a mean arterial blood pressure of 70 mm

277 The ScvO2 group was resuscitated to normalize central venous pressure, mean

278 ast 70%; and the lactate clearance group was resuscitated to normalize central venous pressure, mean

279 mentally changed the way trauma patients are resuscitated today with substantially improved outcomes.

280 sheep were mechanically ventilated and fluid resuscitated using an established protocol.

281 scitation were observed in patients who were resuscitated using automated mechanical chest compressio

282 He was immediately resuscitated using crystalloids, supported with inotrope

283 Hence, persister cells resuscitate via activation of RluD.

284 emerging as potential tools to preserve and resuscitate vulnerable grafts.

285 The factors associated with do-not-resuscitate were older age, race and ethnicity with whit

286 s that disrupting ceramide glycosylation can resuscitate wild-type p53 expression and p53-dependent a

287 that restoring active ceramide to cells can resuscitate wild-type p53 function in p53-mutant cells,

288 Rats resuscitated with 100% oxygen had decreased hippocampal

289 r in cardiac mitochondria isolated from rats resuscitated with 20% lipid emulsion compared to the gro

290 At 90 minutes, subgroups of mice were resuscitated with 4% human albumin in the absence or pre

291 ference in 90-day mortality between patients resuscitated with 6% HES (130/0.4) or saline.

292 Lambs were resuscitated with autologous RBCs stored for 2 hours or

293 In mice resuscitated with fresh packed red blood cells, treatmen

294 laced on assisted ventilation, awakened, and resuscitated with lactated Ringer's solution titrated to

295 sent a case report of a patient successfully resuscitated with lipid emulsion therapy after prolonged

296 Mice resuscitated with PNPH had fewer Fluoro-Jade C positive

297 ansient, and such hearts can be successfully resuscitated with resolution of LVSD, then transplanted.

298 After 90 mins, pigs were fluid resuscitated with Ringers acetate and 20 mL 7.5% NaCl wi

299 After 60 minutes, pigs were resuscitated with shed blood and crystalloid.

300 myeloperoxidase activity was higher in lambs resuscitated with stored than with fresh RBCs (11 +/- 2