Interns' Success With Clinical Procedures in Infants After Simulation Training

BACKGROUND AND OBJECTIVE: Simulation-based medical education (SBME) is used to teach residents. However, few studies have evaluated its clinical impact. The goal of this study was to evaluate the impact of an SBME session on pediatric interns’ clinical procedural success. METHODS: This randomized trial was conducted at 10 academic medical centers. Interns were surveyed on infant lumbar puncture (ILP) and child intravenous line placement (CIV) knowledge and watched audiovisual expert modeling of both procedures. Participants were randomized to SBME mastery learning for ILP or CIV and for 6 succeeding months reported clinical performance for both procedures. ILP success was defined as obtaining a sample on the first attempt with <1000 red blood cells per high-power field or fluid described as clear. CIV success was defined as placement of a functioning catheter on the first try. Each group served as the control group for the procedure for which they did not receive the intervention. RESULTS: Two-hundred interns participated (104 in the ILP group and 96 in the CIV group). Together, they reported 409 procedures. ILP success rates were 34% (31 of 91) for interns who received ILP mastery learning and 34% (25 of 73) for controls (difference: 0.2% [95% confidence interval: –0.1 to 0.1]). The CIV success rate was 54% (62 of 115) for interns who received CIV mastery learning compared with 50% (58 of 115) for controls (difference: 3% [95% confidence interval: –10 to 17]). CONCLUSIONS: Participation in a single SBME mastery learning session was insufficient to affect pediatric interns’ subsequent procedural success.

[1]  J. Suyama,et al.  Preparing Emergency Personnel in Dialysis: A Just-in-Time Training Program for Additional Staffing During Disasters , 2013, Disaster Medicine and Public Health Preparedness.

[2]  James M. Gerard,et al.  Are Pediatric Interns Prepared to Perform Infant Lumbar Punctures?: A Multi-Institutional Descriptive Study , 2013, Pediatric emergency care.

[3]  M. Auerbach,et al.  Qualitative Evaluation of Just-in-Time Simulation-Based Learning: The Learners’ Perspective , 2013, Simulation in healthcare : journal of the Society for Simulation in Healthcare.

[4]  N. Tofil,et al.  Transfer of Simulated Lumbar Puncture Training to the Clinical Setting , 2012, Pediatric emergency care.

[5]  M. Posencheg,et al.  Proficiency and Retention of Neonatal Resuscitation Skills by Pediatric Residents , 2012, Pediatrics.

[6]  E. Ewert Incidence of Traumatic Lumbar Puncture: Experience of a Large, Tertiary Care Pediatric Hospital , 2012 .

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

[8]  David O. Kessler,et al.  A Randomized Trial of Simulation-Based Deliberate Practice for Infant Lumbar Puncture Skills , 2011, Simulation in healthcare : journal of the Society for Simulation in Healthcare.

[9]  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.

[10]  R. Chapman,et al.  Who is performing medical procedures in the neonatal intensive care unit? , 2011, Journal of Perinatology.

[11]  M. Auerbach,et al.  Infant Lumbar Puncture: POISE Pediatric Procedure Video , 2011 .

[12]  W. McGaghie,et al.  Use of simulation-based medical education to improve patient care quality. , 2010, Resuscitation.

[13]  R. Bamford,et al.  A structured course teaching junior doctors invasive medical procedures results in sustained improvements in self-reported confidence. , 2010, Clinical medicine.

[14]  M. Adler,et al.  Pediatric Residents' Ability to Perform a Lumbar Puncture: Evaluation of an Educational Intervention , 2010, Pediatric emergency care.

[15]  William C McGaghie,et al.  Medical Education Research As Translational Science , 2010, Science Translational Medicine.

[16]  W. McGaghie,et al.  A critical review of simulation‐based medical education research: 2003–2009 , 2010, Medical education.

[17]  William C. McGaghie,et al.  Simulation‐based mastery learning reduces complications during central venous catheter insertion in a medical intensive care unit * , 2009, Critical care medicine.

[18]  J. Barsuk,et al.  Use of simulation-based education to reduce catheter-related bloodstream infections. , 2009, Archives of internal medicine.

[19]  Dionne A. Graham,et al.  Reforming Procedural Skills Training for Pediatric Residents: A Randomized, Interventional Trial , 2009, Pediatrics.

[20]  P. Pronovost,et al.  Beyond “see one, do one, teach one”: toward a different training paradigm , 2009, Quality & Safety in Health Care.

[21]  K. A. Ericsson,et al.  Deliberate practice and acquisition of expert performance: a general overview. , 2008, Academic emergency medicine : official journal of the Society for Academic Emergency Medicine.

[22]  Andrew Whitelaw,et al.  Improving Neonatal Outcome Through Practical Shoulder Dystocia Training , 2008, Obstetrics and gynecology.

[23]  G. Young Assessing Procedural Skills Training in Pediatric Residency Programs , 2008, Pediatrics.

[24]  J. Barsuk,et al.  Mastery learning of thoracentesis skills by internal medicine residents using simulation technology and deliberate practice. , 2008, Journal of hospital medicine.

[25]  J. Barsuk,et al.  Simulation-based education improves quality of care during cardiac arrest team responses at an academic teaching hospital: a case-control study. , 2008, Chest.

[26]  Ross J. Scalese,et al.  Simulation Technology for Skills Training and Competency Assessment in Medical Education , 2007, Journal of General Internal Medicine.

[27]  C. Landrigan,et al.  Assessing Procedural Skills Training in Pediatric Residency Programs , 2007, Pediatrics.

[28]  M. Neuman,et al.  Risk factors for traumatic or unsuccessful lumbar punctures in children. , 2007, Annals of emergency medicine.

[29]  Edgar Erdfelder,et al.  G*Power 3: A flexible statistical power analysis program for the social, behavioral, and biomedical sciences , 2007, Behavior research methods.

[30]  L. Goldenhar,et al.  Ready or Not, Here They Come: Acting Interns’ Experience and Perceived Competency Performing Basic Medical Procedures , 2007, Journal of General Internal Medicine.

[31]  Ralph Gonzales,et al.  Procedural experience and comfort level in internal medicine trainees , 2000, Journal of General Internal Medicine.

[32]  Paul G Gauger,et al.  Laparoscopic Skills Are Improved With LapMentor™ Training: Results of a Randomized, Double-Blinded Study , 2006, Annals of surgery.

[33]  A. Walter,et al.  Surgical education for the twenty-first century: beyond the apprentice model. , 2006, Obstetrics and gynecology clinics of North America.

[34]  Andrew Whitelaw,et al.  Does training in obstetric emergencies improve neonatal outcome? , 2006, BJOG : an international journal of obstetrics and gynaecology.

[35]  Saul N Weingart,et al.  Beyond the comfort zone: residents assess their comfort performing inpatient medical procedures. , 2006, The American journal of medicine.

[36]  M. Ellenby,et al.  Videos in clinical medicine. Lumbar puncture. , 2006, The New England journal of medicine.

[37]  Charles E. Kahn,et al.  Radiologists' Preferences for Just-in-Time Learning , 2006, Journal of Digital Imaging.

[38]  James R Korndorffer,et al.  Skill retention following proficiency-based laparoscopic simulator training. , 2005, Surgery.

[39]  R. Lammers,et al.  Competence of new emergency medicine residents in the performance of lumbar punctures. , 2005, Academic emergency medicine : official journal of the Society for Academic Emergency Medicine.

[40]  M. Graber,et al.  Does simulator training for medical students change patient opinions and attitudes toward medical student procedures in the emergency department? , 2005, Academic emergency medicine : official journal of the Society for Academic Emergency Medicine.

[41]  William C. McGaghie,et al.  Simulation-Based Training of Internal Medicine Residents in Advanced Cardiac Life Support Protocols: A Randomized Trial , 2005, Teaching and learning in medicine.

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

[43]  Roslyn F Schneider,et al.  Achieving house staff competence in emergency airway management: Results of a teaching program using a computerized patient simulator* , 2004, Critical care medicine.

[44]  K. A. Ericsson,et al.  Deliberate practice and the acquisition and maintenance of expert performance in medicine and related domains. , 2004, Academic medicine : journal of the Association of American Medical Colleges.

[45]  M. Blum,et al.  Bronchoscopy simulator effectively prepares junior residents to competently perform basic clinical bronchoscopy. , 2004, The Annals of thoracic surgery.

[46]  D. Durbin,et al.  Assessing pediatric senior residents’ training in resuscitation: Fund of knowledge, technical skills, and perception of confidence , 2000, Pediatric emergency care.

[47]  R. Grad,et al.  Retention of neonatal resuscitation skills and knowledge: a randomized controlled trial. , 1998, Family medicine.

[48]  N. Fost,et al.  Ethical Considerations Surrounding First Time Procedures: A Study and Analysis of Patient Attitudes Toward Spinal Taps by Students , 1992, Kennedy Institute of Ethics journal.

[49]  Robert Swift Wigton,et al.  See one, do one, teach one , 1992 .

[50]  W. Kaye,et al.  The effect of time since training on house officers' retention of cardiopulmonary resuscitation skills. , 1985, The American journal of emergency medicine.

[51]  Peter W. Airasian,et al.  Mastery Learning: Theory and Practice , 1971 .