Medical Student Skill Retention After Cardiopulmonary Resuscitation Training: A Cross-Sectional Simulation Study.

INTRODUCTION: The retention of cardiopulmonary resuscitation skills and the ideal frequency of retraining remain unanswered. This study investigated the retention of cardiopulmonary resuscitation skills by medical students for up to 42 months after training. METHODS: In a cross-sectional study, 205 medical students received 10 hours of training in basic life support in 3 practical classes, during their first semester at school. Then, they were divided into 4 groups, according to the time elapsed since the training: 73 after 1 month, 55 after 18 months, 41 after 30 months, and 36 after 42 months. Nineteen cardiopulmonary resuscitation skills and 8 potential technical errors were evaluated by mannequin-based simulation and reviewed using filming. RESULTS: The mean retention of the skills was 90% after 1 month, 74% after 18 months, 62% after 30 months, and 61% after 42 months (P < 0.001). The depth of chest compressions had the greatest retention over time (87.8%), with no significant differences among groups. Compressions performed greater than 120 per minute were less likely to be done with adequate depth. Ventilation showed a progressive decrease in retention from 93% (n = 68) after 1 month to 19% (n = 7) after 42 months (P < 0.001). All 205 students were able to turn the automated external defibrillator on and deliver the shock. CONCLUSIONS: The depth of chest compressions and the use of an automated external defibrillator were the skills with the highest retention over time. Based on a skills retention prediction curve, we suggest that 18 to 24 months as the minimum retraining interval to maintain at least 70% of skills.

Magnesium in cardiopulmonary resuscitation: critical review.

Although many different drugs and interventions have been studied in cardiac arrest to improve survival rates and neurological outcome, the results are still very poor. Magnesium (Mg) has important electrophysiological effects and normal concentrations are required to maintain regular cardiac conduction, rhythm and vascular tone, but its role in improving survival rates and neurological outcome in victims of cardiac arrest is not completely understood. We conducted a systematic review to identify evidence regarding the role of Mg in cardiac arrest. Specifically, we looked for data to answer if survival rates and neurological outcome are related to the administration of Mg either during CPR or following return of spontaneous circulation. We found that there are very few data available about the role of Mg in the treatment of cardiac arrest. Although two non-randomised and one animal study reported promising results, the lack of high quality studies makes it impossible to recommend for or against the administration of Mg during or early after resuscitation to improve outcome.