Examining the impact of high and medium fidelity simulation experiences on nursing students' knowledge acquisition.

AIM This paper describes a study that measured and compared knowledge acquisition in nursing students exposed to medium or high fidelity human patient simulation manikins. BACKGROUND In Australia and internationally the use of simulated learning environments has escalated. Simulation requires a significant investment of time and money and in a period of economic rationalisation this investment must be justified. Assessment of knowledge acquisition with multiple choice questions is the most common approach used to determine the effectiveness of simulation experiences. METHOD This study was conducted in an Australian school of nursing; 84 third year nursing students participated. A quasi-experimental design was used to evaluate the effect of the level of manikin fidelity on knowledge acquisition. Data were collected at three points in time: prior to the simulation, immediately following and two weeks later. RESULTS Differences in mean scores between the control (medium fidelity) and experimental (high fidelity) groups for Tests 1, 2 and 3 were calculated using independent t tests and were not statistically significant. Analysis of covariance (ANCOVA) was conducted to determine whether changes in knowledge scores occurred over time and, while an improvement in scores was observed, it was not statistically significant. CONCLUSION The results of this study raise questions about the value of investing in expensive simulation modalities when the increased costs associated with high fidelity manikins may not be justified by a concomitant increase learning outcomes. This study also suggests that multiple choice questions may not be the most appropriate measure of simulation effectiveness.

[1]  R. Cant,et al.  Simulation-based learning in nurse education: systematic review. , 2010, Journal of advanced nursing.

[2]  Cheryl Pulling,et al.  Effectiveness of simulation on health profession students' knowledge, skills, confidence and satisfaction. , 2008, International journal of evidence-based healthcare.

[3]  R. Day,et al.  Evidence-based nursing education: myth or reality? , 2005, The Journal of nursing education.

[4]  Theresa A. Hoadley Learning Advanced Cardiac Life Support: A Comparison Study of the Effects of Low‐ and High‐Fidelity Simulation , 2009, Nursing education perspectives.

[5]  The effectiveness of using human patient simulation manikins in the teaching of clinical reasoning skills to undergraduate nursing students: a systematic review. , 2010 .

[6]  Guillaume Alinier,et al.  Effectiveness of intermediate-fidelity simulation training technology in undergraduate nursing education. , 2006, Journal of advanced nursing.

[7]  Hentinen Ml Nursing education research , 1989 .

[8]  S. Comer PATIENT CARE SIMULATIONS: Role Playing to Enhance Clinical Understanding , 2005, Nursing education perspectives.

[9]  Y. Scherer,et al.  A Comparison of Clinical Simulation and Case Study Presentation on Nurse Practitioner Students' Knowledge and Confidence in Managing a Cardiac Event , 2007, International journal of nursing education scholarship.

[10]  David M Gaba,et al.  The future vision of simulation in health care , 2004, Quality and Safety in Health Care.

[11]  Michael A Kallen,et al.  Computerized patient model and simulated clinical experiences: evaluation with baccalaureate nursing students. , 2004, The Journal of nursing education.

[12]  J. Biggs Assessing for Learning: Some Dimensions Underlying New Approaches to Educational Assessment. , 1995 .

[13]  S. Erdley,et al.  A COLLABORATIVE EXERCISE: Between Graduate and Undergraduate Nursing Students Using a COMPUTER‐ASSISTED SIMULATOR in a Mock Cardiac Arrest , 2009, Nursing education perspectives.

[14]  V. Howard A comparison of educational strategies for the acquisition of medical -surgical nursing knowledge and critical thinking skills: Human patient simulator vs. the interactive case study approach , 2007 .

[15]  M. Tarrant,et al.  The frequency of item writing flaws in multiple-choice questions used in high stakes nursing assessments. , 2006, Nurse education in practice.

[16]  Yookyung Kim,et al.  The Effects of Human Patient Simulators on Basic Knowledge in Critical Care Nursing with Undergraduate Senior Baccalaureate Nursing Students , 2007, Simulation in healthcare : journal of the Society for Simulation in Healthcare.

[17]  J C Masters,et al.  Assessment of multiple-choice questions in selected test banks accompanying text books used in nursing education. , 2001, The Journal of nursing education.

[18]  Guillaume Alinier,et al.  Determining the value of simulation in nurse education: study design and initial results. , 2004, Nurse education in practice.

[19]  W. Bartfay,et al.  Evaluation. The OSCE approach in nursing education. , 2004, The Canadian nurse.

[20]  A. McLaughlin,et al.  Obstetric skills drills: evaluation of teaching methods. , 2007, Nurse education today.

[21]  James Ware,et al.  Impact of item‐writing flaws in multiple‐choice questions on student achievement in high‐stakes nursing assessments , 2008, Medical education.

[22]  Barbara G. Covington,et al.  Innovations in clinical simulation: Application of Benner's theory in an interactive patient care simulation. , 2006, Nursing education perspectives.

[23]  Jane D. Brannan,et al.  Simulator effects on cognitive skills and confidence levels. , 2008, The Journal of nursing education.

[24]  D. Gaba The future vision of simulation in health care , 2004, Quality and Safety in Health Care.

[25]  Suzie Kardong-Edgren,et al.  VitalSim® Versus SimMan®: A Comparison of BSN Student Test Scores, Knowledge Retention, and Satisfaction , 2009 .

[26]  Eileen Cormier,et al.  Cognitions associated with nurse performance: a comparison of concurrent and retrospective verbal reports of nurse performance in a simulated task environment. , 2010, International journal of nursing studies.