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1 an presented with cardiac arrest preceded by respiratory arrest.
2 thal events in pediatrics such as trauma and respiratory arrest.
3 bolus dantrolene before HAL prolongs time to respiratory arrest.
4 training process consisted of a scenario of respiratory arrest.
5 radycardia, hypoventilation, and potentially respiratory arrest.
6 o the distal GI tract, which decreases after respiratory arrest.
7 of death, hypoxic ischemic encephalopathy or respiratory arrest.
8 gm pressure generation and a shorter time to respiratory arrest (42 +/- 3 min) than for saline-treate
9 sthma; cluster 2, with an high proportion of respiratory arrest (68%), impaired consciousness level (
10 atory obstruction soon after extubation, and respiratory arrest after narcotic and sedative medicatio
11 sites, exhibited early postnatal death from respiratory arrest and a marked absence of cervical spin
12 er, DHA administration resulted in transient respiratory arrest and cardiac depression, which may pre
13 hly prevalent disease resulting in transient respiratory arrest and chronic intermittent hypoxia (cIH
14 t of persons with cardiac arrest, as well as respiratory arrest and foreign-body airway obstruction.
15 ement of adults experiencing cardiac arrest, respiratory arrest, and life-threatening cardiovascular
16 s such as perinatal asphyxia, near drowning, respiratory arrest, and near sudden infant death syndrom
17 suscitation of patients with cardiac arrest, respiratory arrest, and refractory shock due to poisonin
19 thing disturbances that worsened until fatal respiratory arrest at approximately 2 months of age.
20 .S.) had an abrupt onset of amnesia due to a respiratory arrest at the age of 8 years and has been fo
21 oimmune myocarditis, cardiac failure, cardio-respiratory arrest, cardiopulmonary failure, septic shoc
22 3 ng/ml) have significantly shorter times to respiratory arrest compared with wild type, without alte
25 Drowning generally progresses from initial respiratory arrest due to submersion-related hypoxia to
26 ; thus, it can be challenging to distinguish respiratory arrest from cardiac arrest because pulses ar
27 6 (6.71-6.82); all sepsis, 2.63 (2.62-2.65); respiratory arrest (Hierarchical Condition Category 83),
28 made little impact on unexpected cardiac or respiratory arrest, hospital mortality, unplanned admiss
29 ed), pulseless electrical activity in 2, and respiratory arrest in 1 (3 died), representing 24.5% of
32 rventilation (to simulate changes leading to respiratory arrest) in 22 subjects with FD and 23 matche
33 significant complications (e.g., cardiac or respiratory arrest, intra-aortic balloon pump, pulmonary
34 However, mouth-to-mouth ventilation during respiratory arrest is lifesaving and should continue to
36 ffered prolonged agonal states, such as with respiratory arrest, multi-organ failure or coma, tended
37 ailure, acute respiratory distress syndrome, respiratory arrest, or sepsis with a secondary diagnosis
38 ipal diagnoses of respiratory failure, ARDS, respiratory arrest, or sepsis with a secondary diagnosis
40 ventricular fibrillation or asystole or from respiratory arrest secondary to paralysis of the central
43 re observed between the animals with primary respiratory arrest whether or not the airway was obstruc
44 dose-limiting toxicity was seen at 30 mg/kg: respiratory arrest, which likely was caused by tumor bur
45 zed by sudden infant death (from cardiac and respiratory arrest) with dysgenesis of the testes in mal
46 s and death, fatal pulmonary embolism, fatal respiratory arrest, wound infections or seromas, staple