JoAnn Sperl-Hillen1, Patrick J O'Connor, Heidi L Ekstrom, William A Rush, Stephen E Asche, Omar D Fernandes, Deepika Appana, Gerald H Amundson, Paul E Johnson, Debra M Curran. 1. Dr. Sperl-Hillen is senior research investigator, HealthPartners Institute for Education and Research, Minneapolis, Minnesota. Dr. O'Connor is assistant medical director, HealthPartners Institute for Education and Research, Minneapolis, Minnesota. Ms. Ekstrom is senior research project manager, HealthPartners Institute for Education and Research, Minneapolis, Minnesota. Dr. Rush is research investigator, HealthPartners Institute for Education and Research, Minneapolis, Minnesota. Mr. Asche is manager of statistical services, HealthPartners Institute for Education and Research, Minneapolis, Minnesota. Mr. Fernandes is research project manager, HealthPartners Institute for Education and Research, Minneapolis, Minnesota. Ms. Appana is manager of Web development research, HealthPartners Institute for Education and Research, Minneapolis, Minnesota. Mr. Amundson is research info program analyst IV, HealthPartners Institute for Education and Research, Minneapolis, Minnesota. Dr. Johnson is professor, Curtis L. Carlson Chair in Decision Sciences, Carlson School of Management, University of Minnesota, Minneapolis, Minnesota. Ms. Curran is director of educational quality, HealthPartners Institute for Education and Research, Minneapolis, Minnesota.
Abstract
PURPOSE: To test a virtual case-based Simulated Diabetes Education intervention (SimDE) developed to teach primary care residents how to manage diabetes. METHOD: Nineteen primary care residency programs, with 341 volunteer residents in all postgraduate years (PGY), were randomly assigned to a SimDE intervention group or control group (CG). The Web-based interactive educational intervention used computerized virtual patients who responded to provider actions through programmed simulation models. Eighteen distinct learning cases (L-cases) were assigned to SimDE residents over six months from 2010 to 2011. Impact was assessed using performance on four virtual assessment cases (A-cases), an objective knowledge test, and pre-post changes in self-assessed diabetes knowledge and confidence. Group comparisons were analyzed using generalized linear mixed models, controlling for clustering of residents within residency programs and differences in baseline knowledge. RESULTS: The percentages of residents appropriately achieving A-case composite clinical goals for glucose, blood pressure, and lipids were as follows: A-case 1: SimDE = 21.2%, CG = 1.8%, P = .002; A-case 2: SimDE = 15.7%, CG = 4.7%, P = .02; A-case 3: SimDE = 48.0%, CG = 10.4%, P < .001; and A-case 4: SimDE = 42.1%, CG = 18.7%, P = .004. The mean knowledge score and pre-post changes in self-assessed knowledge and confidence were significantly better for SimDE group than CG participants. CONCLUSIONS: A virtual case-based simulated diabetes education intervention improved diabetes management skills, knowledge, and confidence for primary care residents.
RCT Entities:
PURPOSE: To test a virtual case-based Simulated Diabetes Education intervention (SimDE) developed to teach primary care residents how to manage diabetes. METHOD: Nineteen primary care residency programs, with 341 volunteer residents in all postgraduate years (PGY), were randomly assigned to a SimDE intervention group or control group (CG). The Web-based interactive educational intervention used computerized virtual patients who responded to provider actions through programmed simulation models. Eighteen distinct learning cases (L-cases) were assigned to SimDE residents over six months from 2010 to 2011. Impact was assessed using performance on four virtual assessment cases (A-cases), an objective knowledge test, and pre-post changes in self-assessed diabetes knowledge and confidence. Group comparisons were analyzed using generalized linear mixed models, controlling for clustering of residents within residency programs and differences in baseline knowledge. RESULTS: The percentages of residents appropriately achieving A-case composite clinical goals for glucose, blood pressure, and lipids were as follows: A-case 1: SimDE = 21.2%, CG = 1.8%, P = .002; A-case 2: SimDE = 15.7%, CG = 4.7%, P = .02; A-case 3: SimDE = 48.0%, CG = 10.4%, P < .001; and A-case 4: SimDE = 42.1%, CG = 18.7%, P = .004. The mean knowledge score and pre-post changes in self-assessed knowledge and confidence were significantly better for SimDE group than CG participants. CONCLUSIONS: A virtual case-based simulated diabetes education intervention improved diabetes management skills, knowledge, and confidence for primary care residents.
Authors: L S Phillips; W T Branch; C B Cook; J P Doyle; I M El-Kebbi; D L Gallina; C D Miller; D C Ziemer; C S Barnes Journal: Ann Intern Med Date: 2001-11-06 Impact factor: 25.391
Authors: Jan E Berger; Andrew J Ahmann; Donald C Balfour; Glenda S Owens; Robert Beltran; Michael A Bush; Larry Culpepper; Glenda S Owens; Marc Ringel; Francine K Welty Journal: Am J Manag Care Date: 2010-03 Impact factor: 2.229
Authors: Jeffrey H Barsuk; William C McGaghie; Elaine R Cohen; Kevin J O'Leary; Diane B Wayne Journal: Crit Care Med Date: 2009-10 Impact factor: 7.598
Authors: JoAnn M Sperl-Hillen; Patrick J O'Connor; William A Rush; Paul E Johnson; Todd Gilmer; George Biltz; Stephen E Asche; Heidi L Ekstrom Journal: Diabetes Care Date: 2010-08 Impact factor: 19.112
Authors: Kevin N Alschuler; Gary A Stobbe; Deborah P Hertz; Kurt L Johnson; Gloria von Geldern; Annette Wundes; Piper Reynolds; Kent Unruh; John D Scott Journal: Int J MS Care Date: 2019 Jul-Aug
Authors: José Miguel Padilha; Paulo Puga Machado; Ana Ribeiro; José Ramos; Patrício Costa Journal: J Med Internet Res Date: 2019-03-18 Impact factor: 5.428
Authors: Kurt L Johnson; Deborah Hertz; Gary Stobbe; Kevin Alschuler; Rosalind Kalb; Katharine S Alexander; George H Kraft; John D Scott Journal: Int J MS Care Date: 2017 Nov-Dec