Resuscitation
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Comparative Study
Measuring cardiopulmonary resuscitation performance: a comparison of the Heartsaver checklist to manikin strip.
Both checklists and recording manikin strips (strips) are used for evaluation of cardiopulmonary resuscitation (CPR) performance. To examine their relationship, we simultaneously evaluated single rescuer CPR of 255 subjects using both checklists and strips. For Group 1 (N = 192; general public tested in Heartsaver course) we compared the total number of initial ventilations and compressions judged to be correct by checklists with those judged to be correct by strips. ⋯ The most common disagreements were with performances evaluated as correct by checklist but not by strip. Therefore, the current checklist may be a poor instrument for measuring CPR. More accurate evaluation should improve learning and therefore improve outcome following cardiac arrest.
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Comparative Study
Clinical experience with three different defibrillators for resuscitation of out of hospital cardiac arrest.
Three defibrillators, one manual and two different semiautomatic, were prospectively compared during a one year period for out-of-hospital use by ordinary ambulance personnel with short additional training. Eighty-three cardiac arrest patients were treated with one of two different semiautomatic defibrillators and 26 by an ordinary manual defibrillator. Twenty-nine were found in ventricular fibrillation. ⋯ There were no differences in conversion rate or in the clinical outcome between the three defibrillators tested. Both semiautomatic defibrillators tested seemed to be safe, reliable and cost-effective. The low survival rate found is most certainly due to a long ambulance delay.
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Dye dilution curves have been used to calculate cardiac output under conditions of normal circulation. Unfortunately, these curves cannot be integrated easily to determine cardiac output under the low flow states of CPR. The time to initial dye appearance (circulation time), may be useful in judging relative changes in flow when studying experimental resuscitation techniques. ⋯ There was no correlation with the arterial-venous PO2 gradient. There were significant correlations between the circulation time and both the A-V PCO2 and the A-V pH gradients. We conclude that dye circulation times may be used to gauge relative changes in blood flow during CPR, particularly in laboratory investigations involving repeated measurements.
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The authors analysed a series of 557 consecutive patients who suffered cardiorespiratory arrest at the Dante Pazzanese Institute of Cardiology (DPIC) during a period of 5 years in order to examine factors predicting successful resuscitation and long-term survival. Cardiopulmonary resuscitation (CPR) maneuvers were tried in 536 patients, with the following results: 284 patients (53%) died immediately, another 102 (19%) died within the first 24 h after the cardiac arrest and 150 patients (28%) survived more than 24 h. Among these, 65 (12.1%) died in the first month after cardiac arrest and other 29 (5.4%) died after that period. ⋯ None of the 49 patients with cyanotic congenital heart disease survived. The heart arrest was mostly caused by heart failure (55.8%) and primary arrhythmia (17.2%) in the whole group, whereas the survivor group showed primary arrhythmia in 81.7% and heart failure in 7.3%. In those patients where the initial mechanism of cardiac arrest was ventricular fibrillation, 33.2% survived more than 1 month, while among those on ventricular asystole, only 3.4% survived more than 1 month.
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Modern external (closed-chest) cardiopulmonary resuscitation (CPR) basic life support (BLS) gives everyone anywhere a chance to initiate the reversal of death from airway obstruction, apnea, or pulselessness. The history of modern CPR has its roots around 1900, but lay dormant for half a century, until in the 1950s several fortunate circumstances merged to allow for documentation of Steps A (airway control by head-tilt and jaw-thrust), B (breathing control by mouth-to-mouth ventilation), and C (circulation control by closed-chest cardiac massage, i.e. chest compressions) and their combination into BLS Steps A-B-C. BLS is only for borderline emergency oxygenation, i.e. ⋯ A. and several role players with keen interest in resuscitation were needed to enable the systematic research (Steps A and B), a chance rediscovery (Step C), and the integration of BLS with advanced life support (ALS, drugs and defibrillation, transferred from open-chest CPR) and brain-oriented prolonged life support (PLS, intensive care) to result in the development of an effective cardiopulmonary-cerebral resuscitation system. A fertile environment led rapidly to the development of resuscitation delivery systems in hospitals and communities. This paper is a story told by one of the role players.