In response to the Liaison Committee on Medical Education mandate that medical education must address both the needs of an increasingly diverse society and disparities in health care, medical schools have implemented a wide variety of programs in cultural competency. The authors critically analyze the concept of cultural competency and propose that multicultural education must go beyond the traditional notions of "competency" (i.e., knowledge, skills, and attitudes). It must involve the fostering of a critical awareness--a critical consciousness--of the self, others, and the world and a commitment to addressing issues of societal relevance in health care. They describe critical consciousness and posit that it is different from, albeit complementary to, critical thinking, and suggest that both are essential in the training of physicians. The authors also propose that the object of knowledge involved in critical consciousness and in learning about areas of medicine with social relevance--multicultural education, professionalism, medical ethics, etc.--is fundamentally different from that acquired in the biomedical sciences. They discuss how aspects of multicultural education are addressed at the University of Michigan Medical School. Central to the fostering of critical consciousness are engaging dialogue in a safe environment, a change in the traditional relationship between teachers and students, faculty development, and critical assessment of individual development and programmatic goals. Such an orientation will lead to the training of physicians equally skilled in the biomedical aspects of medicine and in the role medicine plays in ensuring social justice and meeting human needs.
Objectives To assess advanced communication skills among second-year medical students exposed either to a computer simulation (MPathic-VR) featuring virtual humans, or to a multimedia computer-based learning module, and to understand each group’s experiences and learning preferences. Methods A single-blinded, mixed methods, randomized, multisite trial compared MPathic-VR (N=210) to computer-based learning (N=211). Primary outcomes: communication scores during repeat interactions with MPathic-VR’s intercultural and interprofessional communication scenarios and scores on a subsequent advanced communication skills objective structured clinical examination (OSCE). Multivariate analysis of variance was used to compare outcomes. Secondary outcomes: student attitude surveys and qualitative assessments of their experiences with MPathic-VR or computer-based learning. Results MPathic-VR-trained students improved their intercultural and interprofessional communication performance between their first and second interactions with each scenario. They also achieved significantly higher composite scores on the OSCE than computer-based learning-trained students. Attitudes and experiences were more positive among students trained with MPathic-VR, who valued its providing immediate feedback, teaching nonverbal communication skills, and preparing them for emotion-charged patient encounters. Conclusions MPathic-VR was effective in training advanced communication skills and in enabling knowledge transfer into a more realistic clinical situation. Practice Implications MPathic-VR’s virtual human simulation offers an effective and engaging means of advanced communication training.
Currently, no standard defines the clinical skills that medical students must demonstrate upon graduation. The Liaison Committee on Medical Education bases its standards on required subject matter and student experiences rather than on observable educational outcomes. The absence of such established outcomes for MD graduates contributes to the gap between program directors' expectations and new residents' performance.In response, in 2013, the Association of American Medical Colleges convened a panel of experts from undergraduate and graduate medical education to define the professional activities that every resident should be able to do without direct supervision on day one of residency, regardless of specialty. Using a conceptual framework of entrustable professional activities (EPAs), this Drafting Panel reviewed the literature and sought input from the health professions education community. The result of this process was the publication of 13 core EPAs for entering residency in 2014. Each EPA includes a description, a list of key functions, links to critical competencies and milestones, and narrative descriptions of expected behaviors and clinical vignettes for both novice learners and learners ready for entrustment.The medical education community has already begun to develop the curricula, assessment tools, faculty development resources, and pathways to entrustment for each of the 13 EPAs. Adoption of these core EPAs could significantly narrow the gap between program directors' expectations and new residents' performance, enhancing patient safety and increasing residents', educators', and patients' confidence in the care these learners provide in the first months of their residency training.
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