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Resuscitation Skills (resuscitation + skill)
Selected AbstractsPractical aims to maintain neonatal resuscitation skillsJOURNAL OF PAEDIATRICS AND CHILD HEALTH, Issue 2 2001DI Tudehope [source] A mixed-methods study of interprofessional learning of resuscitation skillsMEDICAL EDUCATION, Issue 9 2009Paul Bradley Objectives, This study aimed to identify the effects of interprofessional resuscitation skills teaching on medical and nursing students' attitudes, leadership, team-working and performance skills. Methods, Year 2 medical and nursing students learned resuscitation skills in uniprofessional or interprofessional settings, prior to undergoing observational ratings of video-recorded leadership, teamwork and skills performance and subsequent focus group interviews. The Readiness for Interprofessional Learning Scale (RIPLS) was administered pre- and post-intervention and again 3,4 months later. Results, There was no significant difference between interprofessional and uniprofessional teams for leadership, team dynamics or resuscitation tasks performance. Gender, previous interprofessional learning experience, professional background and previous leadership experience had no significant effect. Interview analysis showed broad support for interprofessional education (IPE) matched to clinical reality with perceived benefits for teamwork, communication and improved understanding of roles and perspectives. Concerns included inappropriate role adoption, hierarchy issues, professional identity and the timing of IPE episodes. The RIPLS subscales for professional identity and team-working increased significantly post-intervention for interprofessional groups but returned to pre-test levels by 3,4 months. However, interviews showed interprofessional groups retained a ,residual positivity' towards IPE, more so than uniprofessional groups. Conclusions, An intervention based on common, relevant, shared learning outcomes set in a realistic educational context can work with students who have differing levels of previous IPE and skills training experience. Qualitatively, positive attitudes outlast quantitative changes measured using the RIPLS. Further quantitative and qualitative work is required to examine other domains of learning, the timing of interventions and impact on attitudes towards IPE. [source] Using Screen-Based Simulation to Improve Performance During Pediatric ResuscitationACADEMIC EMERGENCY MEDICINE, Issue 2009Kevin J. Biese MD Abstract Objectives:, To assess the ability of a screen-based simulation-training program to improve emergency medicine and pediatric resident performance in critical pediatric resuscitation knowledge, confidence, and skills. Methods:, A pre,post, interventional design was used. Three measures of performance were created and assessed before and after intervention: a written pre-course knowledge examination, a self,efficacy confidence score, and a skills-based high-fidelity simulation code scenario. For the high-fidelity skills assessment, independent physician raters recorded and reviewed subject performance. The intervention consisted of eight screen-based pediatric resuscitation scenarios that subjects had 4 weeks to complete. Upon completion of the scenarios, all three measures were repeated. For the confidence assessment, summary pre- and post-test summary confidence scores were compared using a t-test, and for the skills assessment, pre-scores were compared with post-test measures for each individual using McNemar's chi-square test for paired samples. Results:, Twenty-six of 35 (71.3%) enrolled subjects completed the institutional review board,approved study. Increases were observed in written test scores, confidence, and some critical interventions in high-fidelity simulation. The mean improvement in cumulative confidence scores for all residents was 10.1 (SD ±4.9; range 0,19; p < 0.001), with no resident feeling less confident after the intervention. Although overall performance in simulated codes did not change significantly, with average scores of 6.65 (±1.76) to 7.04 (±1.37) out of 9 possible points (p = 0.58), improvement was seen in the administering of appropriate amounts of IV fluids (59,89%, p = 0.03). Conclusions:, In this study, improvements in resident knowledge, confidence, and performance of certain skills in simulated pediatric cardiac arrest scenarios suggest that screen-based simulations may be an effective way to enhance resuscitation skills of pediatric providers. These results should be confirmed using a randomized design with an appropriate control group. [source] Pediatric Resuscitation Mock Code Practice Impacts Selected SkillsACADEMIC EMERGENCY MEDICINE, Issue 2008Jennifer Mackey Objectives:, Determine the utility of a computer-controlled mannequin in training and assessment of resident pediatric resuscitation skills. Determine if mock code practice is beneficial in maintaining mastery of critical pediatric resuscitation skills. Methods:, A prospective randomized study of 22 interns (12 pediatric, 10 emergency medicine) randomized to: Group 1 (cases who participated in 3 mock codes over a 6 month period) and Group 2 (controls who did not receive mock code practice). Each intern was randomly paired in teams of two who participated at baseline in two code scenarios using the Laerdal Simbaby. The interns alternated airway and circulatory management responsibility. At 6 months all interns returned to the simulator in pairs to participate in another two pediatric code scenarios. All sessions were videotaped and time of computer initiation of scenario events recorded. Videos were examined by a pediatric emergency physician (blinded to Group participation) using a structured recording form. A general linear model was used to assess differences in response times and Fisher's exact tests for categorical data. Results:, Whether in charge of airway or circulatory management, at post test interns who had completed mock codes required less time to: recognize the need for bag mask ventilation (Diff 5.6 seconds, p < 0.005), initiate BVM (Diff 2.7 seconds, p < 0.006), intubate (Diff 22 seconds, p < 0.03), and recognizing the need for chest compressions (Diff 24 seconds, p < 0.03). There were no differences in times for recognizing the need for fluid resuscitation or for factors such as appropriate mask size, rate of ventilation, intubation success (including number of attempts), compression techniques, or IO placement. Conclusions:, Computer controlled mannequins provide reproducible measurable experiences. This study demonstrates that mock code practice may impact some, but not all, aspects of pediatric resuscitation skill retention. [source] | ||||||||||