BACKGROUND: Though progress tests have been used for several decades in various medical education settings, a few studies have offered analytic frameworks that could be used by practitioners to model growth of knowledge as a function of curricular and other variables of interest. AIM: To explore the use of one form of progress testing in clinical education by modeling growth of knowledge in various disciplines as well as by assessing the impact of recent training (core rotation order) on performance using hierarchical linear modeling (HLM) and analysis of variance (ANOVA) frameworks. METHODS: This study included performances across four test administrations occurring between July 2006 and July 2007 for 130 students from a US medical school who graduated in 2008. Measures-nested-in-examinees HLM growth curve analyses were run to estimate clinical science knowledge growth over time and repeated measures ANOVAs were run to assess the effect of recent training on performance. RESULTS: Core rotation order was related to growth rates for total and pediatrics scores only. Additionally, scores were higher in a given discipline if training had occurred immediately prior to the test administration. CONCLUSIONS: This study provides a useful progress testing framework for assessing medical students' growth of knowledge across their clinical science education and the related impact of training.
BACKGROUND: Though progress tests have been used for several decades in various medical education settings, a few studies have offered analytic frameworks that could be used by practitioners to model growth of knowledge as a function of curricular and other variables of interest. AIM: To explore the use of one form of progress testing in clinical education by modeling growth of knowledge in various disciplines as well as by assessing the impact of recent training (core rotation order) on performance using hierarchical linear modeling (HLM) and analysis of variance (ANOVA) frameworks. METHODS: This study included performances across four test administrations occurring between July 2006 and July 2007 for 130 students from a US medical school who graduated in 2008. Measures-nested-in-examinees HLM growth curve analyses were run to estimate clinical science knowledge growth over time and repeated measures ANOVAs were run to assess the effect of recent training on performance. RESULTS: Core rotation order was related to growth rates for total and pediatrics scores only. Additionally, scores were higher in a given discipline if training had occurred immediately prior to the test administration. CONCLUSIONS: This study provides a useful progress testing framework for assessing medical students' growth of knowledge across their clinical science education and the related impact of training.
Authors: Dario Cecilio-Fernandes; Harro Medema; Carlos Fernando Collares; Lambert Schuwirth; Janke Cohen-Schotanus; René A Tio Journal: BMC Med Educ Date: 2017-11-09 Impact factor: 2.463
Authors: Dario Cecilio-Fernandes; André Bremers; Carlos Fernando Collares; Wybe Nieuwland; Cees van der Vleuten; René A Tio Journal: Korean J Med Educ Date: 2019-08-26