Resuscitation
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In a previous study of volume-controlled hemorrhagic shock (HS) in awake rats, without fluid resuscitation, either breathing of 100% oxygen or moderate hypothermia while breathing air, increased survival time. We hypothesized that combining oxygen and hypothermia can maximally extend the "golden hour" of HS from which resuscitation can be successful in terms of survival rate. Rats were prepared under light general anesthesia, breathing spontaneously via face mask, and then awakened for 2 h. ⋯ With HS of 180 min, in the normothermia-air group B-1 (n=10), three of 10 rats survived to 3 h and 24 h (hypotension during HS in these three survivors was less severe than in the non-survivors); and in the hypothermia-O(2) group B-2 (n=10) all 10 rats survived to 24 h (P<0.003). We conclude that moderate hypothermia (32 degrees C) plus 100% oxygen inhalation during volume-controlled HS in awake rats mitigates hypotension and increases the chance of survival. It enables survival even after 3 h of moderate HS.
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Hypothermia during brain ischemia can improve neurological outcome. This study tested whether local cranial cooling during the low-flow state of cardiopulmonary resuscitation (CPR) could produce clinically significant cerebral cooling. Ice was applied to the heads and necks of subjects (hypothermia group) with out-of-hospital cardiac arrest (OOHCA) during CPR. ⋯ Of note, many subjects with OOHCA are already mildly hypothermic (mean cranial temperature= 35.0 +/- 1.2 degrees C) when they are first encountered in the field. This study suggests that brief cranial cooling is ineffective for rapidly lowering brain temperature. However, most cardiac arrest victims are spontaneously mildly hypothermic and preventing rewarming may provide some of the desired benefits of cerebral hypothermia.
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Every physician involved in emergency medicine should be familiar with alternative techniques for managing the difficult airway. We report a case of a patient who was successfully ventilated and oxygenated with a laryngeal tube, when tracheal intubation failed. Ventilation was possible even during continuous chest compressions. Airway equipment, including one supraglottic alternative for patients of all ages and a set for cricothyroidotomy, for those experienced in its use, should be available on every ambulance equipped for advanced life support.
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Case Reports
Beneficial effects of vasopressin in prolonged pediatric cardiac arrest: a case series.
Children who suffer cardiac arrest have a poor prognosis. Based on laboratory animal studies and clinical data in adults, vasopressin is an exciting new vasopressor treatment modality during cardiopulmonary resuscitation (CPR). In particular, vasopressin has resulted in short term resuscitation benefits as a "rescue" pressor agent in the setting of prolonged out-of-hospital CPR for ventricular fibrillation in adults. ⋯ Two of four vasopressin recipients survived >24 h; one survived to hospital discharge and one had withdrawal of supportive therapies following family discussion. Our observations are AHA level 5 (retrospective case series) evidence that vasopressin administration may be beneficial during prolonged pediatric cardiac arrest. Such reports should pave the way for prospective clinical trials comparing vasopressor medications in the setting of pediatric cardiac arrest.
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The laryngeal mask airway (LMA) and Combitube have been recommended for use during cardiopulmonary resuscitation (CPR). An overview of current practice was sought by conducting a postal survey of 265 Resuscitation Training Departments, at different hospitals, throughout the UK. ⋯ Only 38 (25%) hospitals which replied were currently using the LMA in resuscitation while seven (5%) were using the Combitube. The reasons for not using these airway adjuvants included concerns about airway protection, difficulties in training, cost, and the concept that when anaesthetists were available on cardiac arrest teams these devices were unnecessary.