Simulation-Based Training for Cardiac Auscultation Skills: Systematic Review and Meta-Analysis

The current review examines the effectiveness of simulation-based medical education (SBME) for training health professionals in cardiac physical examination and examines the relative effectiveness of key instructional design features. Data sources included a comprehensive, systematic search of MEDLINE, EMBASE, CINAHL, PsychINFO, ERIC, Web of Science, and Scopus through May 2011. Included studies investigated SBME to teach health profession learners cardiac physical examination skills using outcomes of knowledge or skill. We carried out duplicate assessment of study quality and data abstraction and pooled effect sizes using random effects. We identified 18 articles for inclusion. Thirteen compared SBME to no-intervention (either single group pre-post comparisons or SBME added to other instruction common to all learners, such as traditional bedside teaching), three compared SBME to other educational interventions, and two compared two SBME interventions. Meta-analysis of the 13 no-intervention comparison studies demonstrated that simulation-based instruction in cardiac auscultation was effective, with pooled effect sizes of 1.10 (95 % CI 0.49–1.72; p < 0.001; I2 = 92.4 %) for knowledge outcomes and 0.87 (95 % CI 0.52–1.22; p < 0.001; I2 = 91.5 %) for skills. In sub-group analysis, hands-on practice with the simulator appeared to be an important teaching technique. Narrative review of the comparative effectiveness studies suggests that SBME may be of similar effectiveness to other active educational interventions, but more studies are required. The quantity of published evidence and the relative lack of comparative effectiveness studies limit this review. SBME is an effective educational strategy for teaching cardiac auscultation. Future studies should focus on comparing key instructional design features and establishing SBME’s relative effectiveness compared to other educational interventions.

[1]  Jon Veloski,et al.  Systematic review of the literature on assessment, feedback and physicians’ clinical performance: BEME Guide No. 7 , 2006, Medical teacher.

[2]  The effectiveness of simulation devices in teaching selected skills of physical diagnosis. , 1973, Journal of medical education.

[3]  A. Ziv,et al.  Features and uses of high-fidelity medical simulations that lead to effective learning: a BEME systematic review , 2005, Medical teacher.

[4]  D. Moher,et al.  Preferred reporting items for systematic reviews and meta-analyses: the PRISMA statement , 2009, BMJ.

[5]  J. O’Keefe,et al.  Cardiac physical diagnosis in the digital age: an important but increasingly neglected skill (from stethoscopes to microchips). , 2009, The American journal of cardiology.

[6]  R. Waugh,et al.  Teaching cardiovascular examination skills: results from a randomized controlled trial. , 1993, The American journal of medicine.

[7]  William C. McGaghie,et al.  Effectiveness of a Cardiology Review Course for Internal Medicine Residents Using Simulation Technology and Deliberate Practice , 2002, Teaching and learning in medicine.

[8]  J G Calhoun,et al.  Harvey: the impact of a cardiovascular teaching simulator on student skill acquisition. , 1986, Research in medical education : proceedings of the ... annual Conference. Conference on Research in Medical Education.

[9]  J. W. Mayer,et al.  Teaching bedside cardiologic examination skills using "Harvey", the cardiology patient simulator. , 1980, The Medical clinics of North America.

[10]  William C McGaghie,et al.  Effect of practice on standardised learning outcomes in simulation‐based medical education , 2006, Medical education.

[11]  David A Cook,et al.  Association between funding and quality of published medical education research. , 2007, JAMA.

[12]  L. Nieman,et al.  The Teaching and Practice of Cardiac Auscultation during Internal Medicine and Cardiology Training: A Nationwide Survey , 1993, Annals of Internal Medicine.

[13]  Edward J Gracely,et al.  The power of repetition in mastering cardiac auscultation. , 2006, The American journal of medicine.

[14]  J S Harrell,et al.  Heart sound simulation: how useful for critical care nurses? , 1990, Heart & lung : the journal of critical care.

[15]  Ingram Olkin,et al.  Adjusting for publication bias in the presence of heterogeneity , 2003, Statistics in medicine.

[16]  Bruce Wright,et al.  The effect of simulator training on clinical skills acquisition, retention and transfer , 2009, Medical education.

[17]  K. McLaughlin,et al.  Simulation training improves diagnostic performance on a real patient with similar clinical findings. , 2011, Chest.

[18]  H. Katayama,et al.  A new cardiology patient simulator. , 1997, Cardiology.

[19]  J. Barsuk,et al.  Does Simulation-Based Medical Education With Deliberate Practice Yield Better Results Than Traditional Clinical Education? A Meta-Analytic Comparative Review of the Evidence , 2011, Academic medicine : journal of the Association of American Medical Colleges.

[20]  M. Gordon,et al.  Bedside cardiology skills training for the osteopathic internist using simulation technology , 2003, The Journal of the American Osteopathic Association.

[21]  A W Sajid,et al.  Test of a cardiology patient simulator with students in fourth-year electives. , 1987, Journal of medical education.

[22]  M. Roizen,et al.  Technology-enhanced simulation for health professions education: a systematic review and meta-analysis , 2012 .

[23]  A W Sajid,et al.  Multimedia computer-assisted instruction in cardiology. , 1995, Archives of internal medicine.

[24]  Elaine R. Cohen,et al.  Simulation-based Mastery Learning Improves Cardiac Auscultation Skills in Medical Students , 2010, Journal of General Internal Medicine.

[25]  Jasminka M Vukanovic-Criley,et al.  Competency in cardiac examination skills in medical students, trainees, physicians, and faculty: a multicenter study. , 2006, Archives of internal medicine.

[26]  Geoff Norman,et al.  Relative effectiveness of high‐ versus low‐fidelity simulation in learning heart sounds , 2009, Medical education.

[27]  S. Corbridge,et al.  Patient Simulator for Teaching Heart and Lung Assessment Skills to Advanced Practice Nursing Students , 2011 .

[28]  Richard P. DeShon,et al.  Combining effect size estimates in meta-analysis with repeated measures and independent-groups designs. , 2002, Psychological methods.

[29]  J S Harrell,et al.  Use of a heart sound simulator in teaching cardiac auscultation. , 1989, Focus on critical care.

[30]  D. Altman,et al.  Measuring inconsistency in meta-analyses , 2003, BMJ : British Medical Journal.

[31]  A. Mainous,et al.  Simulation-Based Teaching to Improve Cardiovascular Exam Skills Performance Among Third-Year Medical Students , 2011, Teaching and learning in medicine.

[32]  M. Borenstein Effect sizes for continuous data. , 2009 .