Components of Critical Decision Making and ABSITE Assessment: Toward a More Comprehensive Evaluation.

RATIONALE Accurate assessment of resident competency is a fundamental requisite to assure the training of physicians is adequate. In surgical disciplines, structured tests as well as ongoing evaluation by faculty are used for evaluating resident competency. Although structured tests evaluate content knowledge, faculty ratings are a better measure of how that knowledge is applied to real-world problems. In this study, we sought to explore the performance of surgical residents in a simulation exercise (strategic management simulations [SMS]) as an objective surrogate of real-world performance. METHODS Forty surgical residents participated in the SMS simulation that entailed decision making in a real-world-oriented task situation. The task requirements enable the assessment of decision making along several parameters of thinking under both crisis and noncrisis situations. Performance attributes include "simpler" measures of competency (activity level), intermediate categories (information management and emergency responses) to complex measures (breadth of approach and strategy). Scores obtained in the SMS were compared with the scores obtained on the American Board of Surgery In-Training Examination (ABSITE). RESULTS The data were intercorrelated and subjected to a multiple regression analysis with ABSITE as the dependent variable and simulation scores as independent variables. Using a 1-tail test analysis, only 3 simulation variables correlated with performance on ABSITE at the .01 level (ie, basic activity, focused activity, task orientation). Other simulation variables showed no meaningful relationships to ABSITE scores at all. CONCLUSIONS The more complex real-world-oriented decision-making parameters on SMS did not correlate with ABSITE scores. We believe that techniques such as the SMS, which focus on critical thinking, complement assessment of medical knowledge using ABSITE. The SMS technique provides an accurate measure of real-world performance and provides objective validation of faculty ratings.

[1]  Daniel B. Jones,et al.  Evaluating surgical competency with the American Board of Surgery In-Training Examination, skill testing, and intraoperative assessment. , 2000, Surgery.

[2]  R. Harden,et al.  Assessment of clinical competence using objective structured examination. , 1975, British medical journal.

[3]  R B Trelease The virtual anatomy practical: A stereoscopic 3D interactive multimedia computer examination program , 1998, Clinical anatomy.

[4]  T. Krummel,et al.  Virtual reality and simulation: training the future emergency physician. , 2002, Academic emergency medicine : official journal of the Society for Academic Emergency Medicine.

[5]  T. Brothers,et al.  Importance of the faculty interview during the resident application process. , 2007, Journal of surgical education.

[6]  K. Breuer,et al.  Computergestützte Eignungsdiagnostik mit komplexen dynamischen Szenarios : Ausräumung von Missverständnissen , 1995 .

[7]  S. Streufert,et al.  Value of a cognitive simulation in medicine: towards optimizing decision making performance of healthcare personnel , 2002, Quality & safety in health care.

[8]  Paul Barach,et al.  Improving Medical Care: The Use of Simulation Technology , 2001 .

[9]  K. Catchpole,et al.  Improving patient safety by identifying latent failures in successful operations. , 2007, Surgery.

[10]  M. Johns,et al.  COMMITTEE ON OPTIMIZING GRADUATE MEDICAL TRAINEE (RESIDENT) HOURS AND WORK SCHEDULES TO IMPROVE PATIENT SAFETY , 2009 .

[11]  J. Rosser CD-ROM multimedia. The step before virtual reality. , 1996, Surgical endoscopy.

[12]  Siegfried Streufert,et al.  Simulation-Based Assessment of Managerial Competence: Reliability and Validity. , 1988 .

[13]  Paul C. Gorman,et al.  Strategic management simulations is a novel way to measure resident competencies. , 2001, American journal of surgery.

[14]  S. Shortell Patterns of referral among internists in private practice: a social exchange model. , 1973, Journal of health and social behavior.

[15]  Eduardo Salas,et al.  What are the critical success factors for team training in health care? , 2009, Joint Commission journal on quality and patient safety.

[16]  E. Salas,et al.  Using Simulation-Based Training to Improve Patient Safety : What Does It Take ? Human Factors Engineering , 2005 .

[17]  V T Farewell,et al.  Dynamic modelling in a study of surgical error management , 2007, Statistics in medicine.

[18]  G Frizelle The measurement of complexity , 1999 .

[19]  P. McCulloch,et al.  The Oxford NOTECHS System: reliability and validity of a tool for measuring teamwork behaviour in the operating theatre , 2009, Quality & Safety in Health Care.

[20]  J. Beaubien,et al.  Are the communication and professionalism competencies the new critical values in a resident's global evaluation process? , 2007, Journal of surgical education.

[21]  S. Streufert,et al.  The Measurement of Behavioral Complexity , 1997 .

[22]  A. Mehrabi,et al.  A new way for surgical education - development and evaluation of a computer-based training module , 2000, Comput. Biol. Medicine.