Anatomical sciences education
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This article presents results from a longitudinal study following a cohort of medical students. Semistructured interviews are conducted every year, in which the students tell about their experiences learning medicine, their daily life, and their social activities in relation to university. The aim of the study is to analyze how medical students develop their professional competencies, values, and attitudes. ⋯ Anatomy plays a significant role in the medical student's educational process, on both a cognitive and emotional level. It seems that students in learning the subject matter adapt to fundamental values in the medical profession and are thus transformed into real medical students, sharing a unique experience. The implications for curricular development and professionalism are discussed, and this article argues that the issue of professionalism must be addressed in the educational process in the preclinical years and in relation to the basic sciences.
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The teaching of human anatomy has had to respond to significant changes in medical curricula, and it behooves anatomists to devise alternative strategies to effectively facilitate learning of the discipline by medical students in an integrated, applied, relevant, and contextual framework. In many medical schools, the lack of cadaver dissection as the primary method of learning is driving changes to more varied and novel learning and teaching methodologies. The present article describes the introduction and evaluation of a range of body painting exercises in a medical curriculum. ⋯ In addition, it may have the added bonus of helping break down apprehension regarding peer-peer examination. Some practical advice on introducing this method of teaching in medical curricula based on the outcomes of the evaluation is given. On the basis of our experience and student feedback, we strongly advocate the use of body painting as an adjunct to surface anatomy and clinical skills teaching classes.
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The following study describes a creative application of anatomical principles in the instruction of self-defense. Undergraduates at the University of Kentucky were invited to a special lecture that featured a series of self-defense moves introduced by a local police officer. ⋯ This approach was unique in that students learned critical knowledge of self-defense while reinforcing anatomical principles previously introduced in class. Moreover, this integration of topics prompted students to think about their response to potentially dangerous situations on campus.
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Changes in anatomy education over the last two decades have, in large part, led to less emphasis on gross anatomy in the medical curriculum. This has led many to question whether streamlined anatomy courses truly provide adequate preparation for medical practice. Rather than wondering about the effects of these changes, we should be actively seeking answers and promoting understanding between professors, clinicians, and students about what anatomy education is and what it should be.
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Advances in anatomical informatics, three-dimensional (3D) modeling, and virtual reality (VR) methods have made computer-based structural visualization a practical tool for education. In this article, the authors describe streamlined methods for producing VR "learning objects," standardized interactive software modules for anatomical sciences education, from newer high-resolution clinical imaging systems data. ⋯ Multiple types or "dimensions" of anatomical information can be embedded in these objects to provide different kinds of functions, including interactive atlases, examination questions, and complex, multistructure presentations. The use of clinical imaging data and workstation software speeds up the production of VR simulations, compared with reconstruction-based modeling from segmented cadaver cross-sections, while providing useful examples of normal structural variation and pathological anatomy.