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1 usion pressure is essential for establishing return of spontaneous circulation.
2 c function when initiated within 4 hrs after return of spontaneous circulation.
3 sitive predictive value (95% CI, 66-100) for return of spontaneous circulation.
4 mal saline followed by surface cooling after return of spontaneous circulation.
5 ured before inducing VF and hourly following return of spontaneous circulation.
6 before inducing cardiac arrest and following return of spontaneous circulation.
7 Blood sampling at 48 hours after the return of spontaneous circulation.
8 essions, after which none of the animals had return of spontaneous circulation.
9 roved if initiated as soon as possible after return of spontaneous circulation.
10 sion rates in our study correlated with poor return of spontaneous circulation.
11 5, or 50 mug of E2 or vehicle 1.5 mins after return of spontaneous circulation.
12 to an organized viable rhythm, including the return of spontaneous circulation.
13 nrollment, 6, 12, 24, 48, and 72 hours after return of spontaneous circulation.
14 ry of ischemic tissue when reperfused at the return of spontaneous circulation.
15 rvival is organ injury that occurs after the return of spontaneous circulation.
16 onents of future treatment for patients with return of spontaneous circulation.
17 t subjects who sustained cardiac arrest with return of spontaneous circulation.
18 rapurified polymerized bovine hemoglobin and return of spontaneous circulation.
19 esuscitated animals were alive at 1 hr after return of spontaneous circulation.
20 als, and 4 of the 6 control animals attained return of spontaneous circulation.
21 d ventricular fibrillation within 10 mins of return of spontaneous circulation.
22 The primary outcome was return of spontaneous circulation.
23 ion and enhanced myocardial performance post-return of spontaneous circulation.
24 lood samples obtained 24, 48, and 72 h after return of spontaneous circulation.
25 diac arrest patients who were comatose after return of spontaneous circulation.
26 oth strategies 18 hours (14-23 hr) after the return of spontaneous circulation.
27 normal saline as soon as possible following return of spontaneous circulation.
28 CCs and SI were continued until the return of spontaneous circulation.
29 >/=18, nontrauma arrest, and comatose after return of spontaneous circulation.
30 sessment score over the first 72 hours after return of spontaneous circulation.
31 e past decade, with concomitant increases in return of spontaneous circulation.
32 assess the relative effect of treatments on return of spontaneous circulation.
33 nontrauma cardiac arrest, and comatose after return of spontaneous circulation.
34 and calculated adjusted odds ratios for any return of spontaneous circulation, 1-day survival, and h
35 .50 (95% confidence interval, 1.29-1.74) for return of spontaneous circulation, 1.53 (95% confidence
38 ups also had a significantly greater rate of return of spontaneous circulation (17%) when compared wi
39 econdary end points were hospital admission, return of spontaneous circulation, 24-hour survival, sur
40 stole 48%, other nonshockable 12%; outcomes: Return of spontaneous circulation 26%, 1-day survival 18
41 um and placebo groups in the proportion with return of spontaneous circulation (41 [54%] vs 48 [60%],
42 ntinuing resuscitation on CCL arrival; 5 had return of spontaneous circulation, 50 received ECLS, and
43 return of spontaneous circulation versus no return of spontaneous circulation (51.8% +/- 11.2% vs 40
44 ospital admission (53.5% vs. 55.0%, P=0.67), return of spontaneous circulation (55.0% vs. 54.6%, P=0.
46 2186 patients (34%), respectively, achieved return of spontaneous circulation; 82 (4.6%) versus 149
48 e, 1.47; 95% CI, 0.007 to 2.93), and time to return of spontaneous circulation (adjusted estimate -0.
49 ement in phase 2, leading to improvements in return of spontaneous circulation (adjusted odds ratio,
50 (25 min [25-28]) had a higher likelihood of return of spontaneous circulation (adjusted risk ratio 1
51 y, nor were there significant differences in return of spontaneous circulation (adjusted risk ratio,
52 ry perfusion pressure were not predictive of return of spontaneous circulation after a shock, althoug
54 s limit the use of high oxygen tension after return of spontaneous circulation after cardiac arrest,
56 lective aortic perfusion and oxygenation and return of spontaneous circulation after prolonged cardia
57 area>35 mV-Hz, the odds ratio for achieving return of spontaneous circulation after that shock was 7
58 was much higher in the animals that attained return of spontaneous circulation after the first set of
60 Ninety percent survived the event, 68% with return of spontaneous circulation and 22% by extracorpor
61 tcomes in the two groups were not different: Return of spontaneous circulation and 24-hr survival occ
62 ociation between time of day and prehospital return of spontaneous circulation and 30-day survival, w
64 ed immediately after defibrillation improves return of spontaneous circulation and 4-hour survival af
65 : 31,198 of 64,339 (48.5%) patients achieved return of spontaneous circulation and 9912 (15.4%) survi
66 <240 minutes, and unconscious patient after return of spontaneous circulation and before the start o
67 rvival to discharge; secondary outcomes were return of spontaneous circulation and cerebral performan
68 lood gas data during 0 to 24 hours after the return of spontaneous circulation and determined whether
69 tal cardiac arrest patients with prehospital return of spontaneous circulation and evaluated the asso
70 re successful, with 20 episodes resulting in return of spontaneous circulation and four patients bein
71 neous circulation <60 minutes, delay between return of spontaneous circulation and inclusion <240 min
72 f dynamin-related protein 1 improves time to return of spontaneous circulation and myocardial hemodyn
74 iopulmonary resuscitation is associated with return of spontaneous circulation and neurologically fav
75 as an unexplained system-wide improvement in return of spontaneous circulation and process-focused ou
77 ssions and reduced disruptions increased the return of spontaneous circulation and survival to discha
79 arrest, preliminary data have shown improved return of spontaneous circulation and survival to hospit
80 ts who survived the first 24 hours after the return of spontaneous circulation and who had blood samp
81 enation, coronary perfusion pressures, early return of spontaneous circulation, and 24-hr survival co
82 drug in >90% patients within 240 minutes of return of spontaneous circulation, and efficacy, defined
83 nders including age, initial rhythm, time to return of spontaneous circulation, and lactate at admiss
84 turn of spontaneous circulation, CPR time to return of spontaneous circulation, and left ventricular
85 ts with good functional outcome had achieved return of spontaneous circulation, and the probability o
86 95% CI, 0.62-0.88; P=0.001), and prehospital return of spontaneous circulation (AOR, 0.81; 95% CI, 0.
87 iopulmonary resuscitation best predicted the return of spontaneous circulation (area under the curve,
88 ed with room air results in the same rate of return of spontaneous circulation as resuscitation initi
89 oup, no swine (from a total of six) achieved return of spontaneous circulation before intra-aortic ep
90 nonshockable initial cardiac rhythm, and no return of spontaneous circulation before receipt of a th
91 tic route every 30 secs as needed to promote return of spontaneous circulation beginning at 18 mins a
93 Chest compression rate was associated with return of spontaneous circulation but not with survival
94 Myocardial dysfunction occurred early after return of spontaneous circulation but only in the epinep
95 result showed no significant improvement in return of spontaneous circulation by active compression-
96 the cardiac arrest (cardiac rhythm, time to return of spontaneous circulation), clinical examination
97 hermia was initiated 0, 1, 4, or 8 hrs after return of spontaneous circulation compared to 9% in norm
98 ignificantly increase carotid blood flow and return of spontaneous circulation compared to standard c
99 ave significantly lower rates of prehospital return of spontaneous circulation compared with patients
103 imary endpoints were immediate survival with return of spontaneous circulation during cardiac arrest
104 exchanger isoform-1 (NHE-1) could facilitate return of spontaneous circulation during repetitive defi
105 upillary reflexes more than 24 hours after a return of spontaneous circulation (false-positive rate,
106 nd families of patients who have experienced return of spontaneous circulation following in-hospital
108 condary outcomes included survival of event (return of spontaneous circulation for >/= 20 min) and fa
109 14.3%-15.1%] vs 19.8% [95% CI, 19.5%-20.1%], return of spontaneous circulation for longer than 20 min
110 o differences in the number of shocks before return of spontaneous circulation, frequency of recurren
111 ta-analysis of literature examining rates of return of spontaneous circulation from load-distributing
113 dict poor outcome, to determine whether post-return of spontaneous circulation hypocapnia and hyperca
114 that in prolonged resuscitation efforts that return of spontaneous circulation immediately after a se
115 rly institution of hypothermia after CPR and return of spontaneous circulation improves survival and
116 with air during 6 mins of CPR resulted in a return of spontaneous circulation in 10 of 12 animals co
118 th vasopressin on vital organ blood flow and return of spontaneous circulation in a pediatric porcine
120 dance threshold device seemed not to improve return of spontaneous circulation in out-of-hospital car
122 variability and other potential confounders, return of spontaneous circulation increased in 2004-2010
123 timing of shocks and chest compressions when return of spontaneous circulation is not promptly obtain
124 related to a presumed cardiac cause, time to return of spontaneous circulation <60 minutes, delay bet
125 -field cooling started immediately after the return of spontaneous circulation may be more beneficial
126 t, but prehospital cooling immediately after return of spontaneous circulation may result in better o
127 s were significantly correlated with initial return of spontaneous circulation (mean chest compressio
130 nterquartile range) in patients who achieved return of spontaneous circulation (n = 15) compared with
131 ulation (n = 15) compared with those without return of spontaneous circulation (n = 19) (47.4% +/- 21
134 uscitation had significantly greater odds of return of spontaneous circulation (odds ratio, 1.62 [95%
135 n the secondary outcomes, including rates of return of spontaneous circulation on arrival at the emer
137 val if they met 2 criteria: had not achieved return of spontaneous circulation on hospital arrival an
139 h a statistically significant improvement in return of spontaneous circulation or any process-focused
141 After controlling for patients achieving return of spontaneous circulation or not, significantly
142 hich survival was a reported outcome, either return of spontaneous circulation or survival to admissi
143 e corresponding difference in percentages of return of spontaneous circulation rates from cardiopulmo
145 nced cardiopulmonary resuscitation increased return of spontaneous circulation rates when compared to
146 monary resuscitation significantly increased return of spontaneous circulation rates, as well as caro
147 pothermia initiated 0, 1, 4, and 8 hrs after return of spontaneous circulation resulted in 7-day surv
148 citation, we identified 26,327 patients with return of spontaneous circulation (ROSC) after in-hospit
151 d from cardiac arrest, regardless of time to return of spontaneous circulation (ROSC) and neurologic
152 A) can predict successful defibrillation and return of spontaneous circulation (ROSC) but has not bee
154 ines advocate hemodynamic optimization after return of spontaneous circulation (ROSC) from cardiac ar
155 easing entropy index of injury at 0-5 h from return of spontaneous circulation (ROSC) is associated w
156 sed a predefined threshold value below which return of spontaneous circulation (ROSC) was unlikely wi
157 intra-aortic oxygenated perfusion to achieve return of spontaneous circulation (ROSC) when cardiac ar
159 ough epinephrine is essential for successful return of spontaneous circulation (ROSC), the influence
161 utes (onset of professional resuscitation to return of spontaneous circulation [ROSC] or termination
162 pigs (8 of 8) survived (defined as 15 min of return of spontaneous circulation [ROSC]) versus 3 of 8
164 ng resuscitation is associated with improved return of spontaneous circulation, survival, and neurolo
167 ultivariable analysis including age, time to return of spontaneous circulation, the presence of shock
168 enation with 100% O2 or room air on rates of return of spontaneous circulation--the main goal of card
169 en initial interventions fail to achieve the return of spontaneous circulation, they are repeated wit
170 optimization of vital organ perfusion after return of spontaneous circulation to reduce the risk of
171 ment was performed in the 12 hours following return of spontaneous circulation using the endotoxin ac
172 nal cerebral oxygenation was associated with return of spontaneous circulation versus no return of sp
173 shocks, nine of 15 CPR 1st animals attained return of spontaneous circulation vs. 0 of 15 defibrilla
174 10 group 1 (CC+V) piglets attained sustained return of spontaneous circulation vs. only two of 14 gro
175 bral perfusion pressures and higher rates of return of spontaneous circulation vs. standard cardiopul
176 rapurified polymerized bovine hemoglobin had return of spontaneous circulation, vs. four of five anim
177 n time from advanced cardiac life support to return of spontaneous circulation was 11 minutes (range
179 slope>3.6 mV/s, the odds ratio for achieving return of spontaneous circulation was 36 (95% confidence
183 , hypotension in the first 6 hours following return of spontaneous circulation was associated with a
186 sociation between chest compression rate and return of spontaneous circulation was found in cubic spl
193 e and sex within the first 6 hours following return of spontaneous circulation were considered to hav
194 HCA patients who remained unresponsive after return of spontaneous circulation were cooled and rewarm
196 cardiopulmonary resuscitation as the odds of return of spontaneous circulation were over 1.6 times gr
197 ed in a Parisian cardiac arrest center after return of spontaneous circulation were prospectively inc
198 resuscitation demonstrated superior rates of return of spontaneous circulation when compared to stand
200 typically results in a pulsatile rhythm with return of spontaneous circulation, whereas defibrillatio
201 pedance threshold device appeared to improve return of spontaneous circulation, which could be furthe
202 of initial electrocardiographic rhythm with return of spontaneous circulation who were admitted to a
204 at a rate of 10 mL x kg(-1) x min(-1) until return of spontaneous circulation with a mean aortic pre
205 ral area and slope predict the attainment of return of spontaneous circulation with a second or later
207 p E received intra-CPR and hypothermia after return of spontaneous circulation with an endovascular t
208 tration, and only two of six swine had brief return of spontaneous circulation with an mean aortic pr
209 ining CCs and SIs significantly improved the return of spontaneous circulation with better hemodynami
210 treatment effect in favor of higher odds of return of spontaneous circulation with mechanical cardio
212 A recent clinical study reported optimal return of spontaneous circulation with rates between 100
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