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1 perature management in comatose survivors of out-of-hospital cardiac arrest.
2 lidocaine in comparison with placebo during out-of-hospital cardiac arrest.
3 ong patients who survived to day 30 after an out-of-hospital cardiac arrest.
4 f successful cardioversion or survival after out-of-hospital cardiac arrest.
5 ciated with inhaled xenon among survivors of out-of-hospital cardiac arrest.
6 ls for neurologic outcome and survival after out-of-hospital cardiac arrest.
7 ctional survival for comatose patients after out-of-hospital cardiac arrest.
8 raumatic, emergency medical services-treated out-of-hospital cardiac arrest.
9 Herein are recommendations for reporting out-of-hospital cardiac arrest.
10 increased survival rates among persons with out-of-hospital cardiac arrest.
11 known on cerebrovascular events revealed by out-of-hospital cardiac arrest.
12 were trained in CPR to a patient nearby with out-of-hospital cardiac arrest.
13 f bystander-initiated CPR among persons with out-of-hospital cardiac arrest.
14 quality of systems of care for patients with out-of-hospital cardiac arrest.
15 ciated with B-CPR delivery and survival from out-of-hospital cardiac arrest.
16 esponse vehicles would improve survival from out-of-hospital cardiac arrest.
17 ving children who remained unconscious after out-of-hospital cardiac arrest.
18 bitis was identified as the primary cause of out-of-hospital cardiac arrest.
19 discriminative value obtained 24 hours after out-of-hospital cardiac arrest.
20 temperature management is recommended after out-of-hospital cardiac arrest.
21 itals and the association with outcome after out-of-hospital cardiac arrest.
22 ld suggest a cerebrovascular etiology of the out-of-hospital cardiac arrest.
23 min during cardiopulmonary resuscitation for out-of-hospital cardiac arrest.
24 ommended as a neuroprotective strategy after out-of-hospital cardiac arrest.
25 ricular fibrillation/ventricular tachycardia out-of-hospital cardiac arrest.
26 -month outcome in patients resuscitated from out-of-hospital cardiac arrest.
27 o ischemia duration may improve outcome from out-of-hospital cardiac arrest.
28 emperature management following nontraumatic out-of-hospital cardiac arrest.
29 ssigned to TTM33 or TTM36 for 24 hours after out-of-hospital cardiac arrest.
30 progress in improving rates of survival from out-of-hospital cardiac arrest.
31 rly patients successfully resuscitated after out-of-hospital cardiac arrest.
32 and neurological function in patients after out-of-hospital cardiac arrest.
33 good neurological outcome in patients after out-of-hospital cardiac arrest.
34 neurologic outcome in comatose survivors of out-of-hospital cardiac arrest.
35 r arrhythmias in a cohort with "unexplained" out-of-hospital cardiac arrest.
36 ng-term outcome following resuscitation from out-of-hospital cardiac arrest.
37 ionally favorable survival remains low after out-of-hospital cardiac arrest.
38 s favorable cardiac features in survivors of out-of-hospital cardiac arrest.
39 o hospital and at 24, 48, and 72 hours after out-of-hospital cardiac arrest.
40 defibrillation is to improve survival after out-of-hospital cardiac arrest.
41 e first 2 links in the chain of survival for out-of-hospital cardiac arrest.
42 ults with persistent coma after resuscitated out-of-hospital cardiac arrest.
43 citation and impedance threshold devices for out-of-hospital cardiac arrest.
44 PR) on survival of infants and children with out-of-hospital cardiac arrest.
45 as endotracheal intubation) in patients with out-of-hospital cardiac arrest.
46 ted but related procedure, for patients with out-of-hospital cardiac arrest.
47 , such as stroke, myocardial infarction, and out-of-hospital cardiac arrest.
48 ent recommendations for DA-CPR for pediatric out-of-hospital cardiac arrest.
49 Ischemic heart disease is a major cause of out-of-hospital cardiac arrest.
50 lines recommend regional systems of care for out-of-hospital cardiac arrest.
51 hone positioning system was activated in 667 out-of-hospital cardiac arrests: 46% (306 patients) in t
52 52-59 yr), 3,933 were male (63%), 3,019 had out-of-hospital cardiac arrest (48%), and 2,289 had init
55 peptin and 1-year mortality in patients with out-of-hospital cardiac arrest admitted in a tertiary ca
57 changed significantly within 72 hours after out-of-hospital cardiac arrest (all p values<0.001), but
58 sess the relationship between gasping during out-of-hospital cardiac arrest and 1-year survival with
59 proportion of atrial fibrillation following out-of-hospital cardiac arrest and 180-day all-cause mor
60 udies have found higher survival rates after out-of-hospital cardiac arrest and admission to tertiary
61 target range (32-34 degrees C) 8 hours after out-of-hospital cardiac arrest and dichotomized into bra
62 who had been successfully resuscitated after out-of-hospital cardiac arrest and had no signs of STEMI
64 nontraumatic in-hospital cardiac arrest and out-of-hospital cardiac arrest and outcome of patients f
65 ders in cardiopulmonary resuscitation during out-of-hospital cardiac arrest and that a regionalized a
66 the appropriate duration of resuscitation in out-of-hospital cardiac arrest, and case features justif
67 ts into important predictors of outcome from out-of-hospital cardiac arrest, and lessons learned from
68 ned event including ventricular tachycardia, out-of-hospital cardiac arrest, appropriate implantable
69 Cardiovascular dysfunction is common after out-of-hospital cardiac arrest as part of the postcardia
70 erapeutic hypothermia-treated patients after out-of-hospital cardiac arrest at physiological PaCO2, a
72 ospitals after successful resuscitation from out-of-hospital cardiac arrest because of ventricular fi
73 y angiography among patients presenting with out-of-hospital cardiac arrest between 2005 and 2011 in
74 18 years) patients experiencing nontraumatic out-of-hospital cardiac arrest between 2005 and 2011, de
76 bjects who experienced either in-hospital or out-of-hospital cardiac arrest between January 2005 and
77 fied 70 027 U.S. patients who experienced an out-of-hospital cardiac arrest between October 2005 and
78 At baseline and 24, 48, and 72 hours after out-of-hospital cardiac arrest, blood samples were obtai
79 n (CPR) significantly improves survival from out-of-hospital cardiac arrest but is provided in less t
80 illation programs can improve survival after out-of-hospital cardiac arrest, but automated external d
81 ommended for comatose adults after witnessed out-of-hospital cardiac arrest, but data about this inte
82 ation (CPR) increases patient survival after out-of-hospital cardiac arrest, but it is unknown to wha
83 mpressions might improve the poor outcome in out-of-hospital cardiac arrest, but such a strategy has
86 y 1, 2002, and June 30, 2012, data for adult out-of-hospital cardiac arrest cases of presumed cardiac
89 rolled, National Institutes of Health-funded out-of-hospital cardiac arrest clinical trial from Augus
90 domized clinical trial of 2589 patients with out-of-hospital cardiac arrest conducted between January
93 ong patients resuscitated after experiencing out-of-hospital cardiac arrest, discharge survival was s
94 a suggest that many patients with DCM and an out-of-hospital cardiac arrest do not have a markedly re
95 , in the majority of cases, individuals with out-of-hospital cardiac arrest do not receive lay rescue
96 an the rate with placebo among patients with out-of-hospital cardiac arrest due to initial shock-refr
97 855 patients who were 30-day survivors of an out-of-hospital cardiac arrest during the period from 20
101 to 36 degrees C in unconscious patients with out-of-hospital cardiac arrest for at least 24 hours, bu
103 Antiarrhythmic drugs are used commonly in out-of-hospital cardiac arrest for shock-refractory vent
104 =18 years old with a presumed cardiac-caused out-of-hospital cardiac arrest for which resuscitation w
105 GN, SETTING, AND PARTICIPANTS: Patients with out-of-hospital cardiac arrest for which resuscitation w
107 -based cohort study, including patients with out-of-hospital cardiac arrest from cardiac causes betwe
108 l trial including adults with non-traumatic, out-of-hospital cardiac arrest from four UK Ambulance Se
109 significantly improve overall survival after out-of-hospital cardiac arrest from shock-refractory ven
112 -term functional outcomes among survivors of out-of-hospital cardiac arrest has not been extensively
114 ival with favorable neurologic outcome after out-of-hospital cardiac arrest has significantly increas
115 or the survival rate among persons who have out-of-hospital cardiac arrests has been questioned.
117 erences in outcomes of patients experiencing out-of-hospital cardiac arrest have demonstrated that, d
118 munities suggest that rates of survival from out-of-hospital cardiac arrest have improved among sites
122 ended for comatose adults and children after out-of-hospital cardiac arrest; however, data on tempera
123 omen, median age 33.5 years) with idiopathic out-of-hospital cardiac arrest (i.e., negative for ische
125 ul targeted temperature management following out-of-hospital cardiac arrest in a large network of hos
126 e threshold device would improve outcomes of out-of-hospital cardiac arrest in comparison with standa
127 ted with significantly higher survival after out-of-hospital cardiac arrest in patients without ST-se
128 c neighborhoods in a multivariable analysis, out-of-hospital cardiac arrest in predominantly Hispanic
130 associated with favorable outcome following out-of-hospital cardiac arrest in smaller observational
131 ary angiography for patients presenting with out-of-hospital cardiac arrest in states with public rep
132 pital mortality for patients presenting with out-of-hospital cardiac arrest in states with public rep
133 cohort investigation of adults who suffered out-of-hospital cardiac arrest in the study community be
134 ssociated with good functional outcome after out-of-hospital cardiac arrest in this cohort, this asso
136 mplications of atrial fibrillation following out-of-hospital cardiac arrest, including relation to th
137 ival with favorable neurologic outcome after out-of-hospital cardiac arrest increased significantly (
145 oronary angiography after resuscitation from out-of-hospital cardiac arrest is uncertain for patients
146 , Latino, or poor are more likely to have an out-of-hospital cardiac arrest, less likely to receive c
147 on of cerebrovascular event complicated with out-of-hospital cardiac arrest may mimic coronary etiolo
148 erapeutic hypothermia-treated patients after out-of-hospital cardiac arrest more than 18 years old wi
149 icular tachyarrhythmias (n=31), resuscitated out-of-hospital cardiac arrest (n=20), or heart transpla
150 , observational study of adult patients with out-of-hospital cardiac arrest not receiving bystander C
152 We reviewed dispatch recordings for 476 out-of-hospital cardiac arrests occurring between Januar
153 ssociation with 1-year mortality existed for out-of-hospital cardiac arrest of cardiac origin only (p
156 ndomly assigned 950 unconscious adults after out-of-hospital cardiac arrest of presumed cardiac cause
159 n July 2005 and June 2015, we included adult out-of-hospital cardiac arrest of presumed cardiac patho
160 successfully resuscitated by paramedics from out-of-hospital cardiac arrest often have severe neurolo
163 een acute air pollution exposure and risk of out-of-hospital cardiac arrest (OHCA) are inconsistent f
164 t are based on early clinical findings after out-of-hospital cardiac arrest (OHCA) are often inaccura
167 hospital setting improves outcomes following out-of-hospital cardiac arrest (OHCA) compared with conv
168 differences in the incidence and outcomes of out-of-hospital cardiac arrest (OHCA) has important impl
170 NSE as a prognostic marker of outcome after out-of-hospital cardiac arrest (OHCA) in a contemporary
171 The annual number of DALY because of adult out-of-hospital cardiac arrest (OHCA) in the United Stat
175 ality in comatose patients resuscitated from out-of-hospital cardiac arrest (OHCA) is approximately 5
177 RATIONALE: Neurocognitive outcome after out-of-hospital cardiac arrest (OHCA) is often poor, eve
178 nsive public health initiatives according to out-of-hospital cardiac arrest (OHCA) location, particul
180 ata suggested a clinical benefit in treating out-of-hospital cardiac arrest (OHCA) patients with a hi
183 with respect to transport to hospital during out-of-hospital cardiac arrest (OHCA) resuscitative effo
184 tomated external defibrillator placement for out-of-hospital cardiac arrest (OHCA) treatment have foc
185 and functional survival among patients with out-of-hospital cardiac arrest (OHCA) who achieved succe
186 vention (PCI) in patients resuscitated after out-of-hospital cardiac arrest (OHCA) with initial rhyth
187 o organize systems of care for patients with out-of-hospital cardiac arrest (OHCA), as little evidenc
189 disease is prevalent in different causes of out-of-hospital cardiac arrest (OHCA), especially in ind
197 s bystander defibrillation) of patients with out-of-hospital cardiac arrests (OHCAs) remains limited
200 who remain comatose after resuscitation from out-of-hospital cardiac arrest or in-hospital cardiac ar
201 posite incidence of acute coronary syndrome, out-of-hospital cardiac arrest, or noncardioembolic isch
202 ase that this bundled technique will improve out-of-hospital cardiac arrest outcomes significantly in
207 t of PCI on short- and long-term survival in out-of-hospital cardiac arrest patients admitted after s
209 wed by a sustained doubling of the number of out-of-hospital cardiac arrest patients being resuscitat
211 rall survival but not neurologic outcomes in out-of-hospital cardiac arrest patients compared with pl
213 ervention (non-PCI) facilities and transport out-of-hospital cardiac arrest patients directly to PCI
214 e studied emergency medical services-treated out-of-hospital cardiac arrest patients from the Resusci
215 onary resuscitation and survival outcome for out-of-hospital cardiac arrest patients in Victoria, Aus
216 coronary angiographic findings in unselected out-of-hospital cardiac arrest patients referred to imme
218 ologic outcome in a large cohort of comatose out-of-hospital cardiac arrest patients treated by targe
220 th standard cardiopulmonary resuscitation in out-of-hospital cardiac arrest patients were selected.
221 geocoding of arrest location, we identified out-of-hospital cardiac arrest patients with prehospital
223 enter is associated with better outcomes for out-of-hospital cardiac arrest patients, even when bypas
229 n this large urban population-based study of out-of-hospital cardiac arrests patients, we observed th
230 tement describes the public health impact of out-of-hospital cardiac arrest, provides guidance and re
233 capnograms after intubation in patients with out-of-hospital cardiac arrest receiving continuous ches
234 a were the following: age of 18 to 79 years, out-of-hospital cardiac arrest related to a presumed car
235 who were being mechanically ventilated after out-of-hospital cardiac arrest related to initial shocka
237 , 2010, to March 13, 2013 (Cyclosporine A in Out-of-Hospital Cardiac Arrest Resuscitation [CYRUS]).
238 score less than 5 in the initial hours after out-of-hospital cardiac arrest resuscitation, function s
239 tandard care, in adults who had nontraumatic out-of-hospital cardiac arrest, shock-refractory ventric
241 vious studies have shown marked variation in out-of-hospital cardiac arrest survival across US region
242 rest characteristics, risk-adjusted rates of out-of-hospital cardiac arrest survival increased from 5
245 opeptin: this could permit identification of out-of-hospital cardiac arrest survivors at increased ri
246 s survival and neurologic outcomes for adult out-of-hospital cardiac arrest survivors but may alter t
248 ting biomarkers that helps to identify early out-of-hospital cardiac arrest survivors who are at incr
250 diction accuracy differed and was better for out-of-hospital cardiac arrest than for in-hospital card
251 age, sex, and initial rhythm but higher for out-of-hospital cardiac arrest than for in-hospital card
252 ociated with a 30-day survival rate after an out-of-hospital cardiac arrest that was more than twice
253 edics in the network region) to identify all out-of-hospital cardiac arrests that occurred from 2009
256 lmonary resuscitation (CPR) in patients with out-of-hospital cardiac arrest, the interruption of manu
258 SAED) are commonly used in the management of out-of-hospital cardiac arrest, the optimal strategy is
262 tion of targeted temperature management post out-of-hospital cardiac arrest through passive (educatio
264 nflammation and mortality in survivors after out-of-hospital cardiac arrest treated with targeted tem
265 ricular fibrillation/ventricular tachycardia out-of-hospital cardiac arrest treated with the Universi
267 s treated with therapeutic hypothermia after out-of-hospital cardiac arrest, two blood gas management
268 ed, controlled trial we assigned adults with out-of-hospital cardiac arrest undergoing CPR to either
269 obability of favorable functional outcome in out-of-hospital cardiac arrest using a large, multicente
270 citation (B-CPR) delivery and survival after out-of-hospital cardiac arrest vary at the neighborhood
271 teers who were within 500 m of patients with out-of-hospital cardiac arrest; volunteers were then dis
272 ated external defibrillators (AEDs) to treat out-of-hospital cardiac arrest was advocated in The Neth
274 and 2010, an increase in survival following out-of-hospital cardiac arrest was significantly associa
276 ts with ventricular tachycardia/fibrillation out-of-hospital cardiac arrest, we analyzed recordings f
278 tio=1.20 [1.03-1.39]; p=0.02) 24 hours after out-of-hospital cardiac arrest were associated with 30-d
279 fifty-five adult, unconscious patients with out-of-hospital cardiac arrest were enrolled from Februa
282 T-segment elevation after resuscitation from out-of-hospital cardiac arrest were prospectively random
285 calcitonin and interleukin-6, 24 hours after out-of-hospital cardiac arrest, were 0.74 and 0.63, resp
286 tive function was comparable in survivors of out-of-hospital cardiac arrest when a temperature of 33
288 15 update of the Utstein template focused on out-of-hospital cardiac arrest, which makes this update
289 e index case was diagnosed with HCM after an out-of-hospital cardiac arrest, which was followed by co
290 brillation/pulseless ventricular tachycardia out-of-hospital cardiac arrest who were randomly assigne
292 remaining comatose after resuscitation from out-of-hospital cardiac arrest with an initial shockable
293 geted temperature management for adults with out-of-hospital cardiac arrest with an initial shockable
294 years, and another 2 were resuscitated from out-of-hospital cardiac arrest with documented VF at age
295 rgeted temperature management strategy after out-of-hospital cardiac arrest with initial shockable rh
296 We identified 519 patients after in- and out-of-hospital cardiac arrest with nonshockable initial
297 d with targeted temperature management after out-of-hospital cardiac arrest with shockable rhythm are
298 All resuscitated patients admitted after out-of-hospital cardiac arrest without a clear noncardia
299 nary occlusion in resuscitated patients with out-of-hospital cardiac arrest without ST-segment elevat