Results 171 to 180 of about 160,419 (261)
Anatomical Sciences Education, EarlyView.Thanabots—AI‐generated digital representations of deceased donors—could enhance anatomy education by linking medical history with anatomy and fostering humanistic engagement. However, their use poses ethical questions and carries psychological risks, including issues around consent, authenticity, and emotional harm.
Jon Cornwall, Sabine Hildebrandt
wiley +1 more source
Anatomical Sciences Education, EarlyView.Abstract Anatomy educators are increasingly seeking approaches that honor the humanity of body donors while supporting learners through their first encounters in the gross anatomy lab. We describe a comprehensive donor meeting session, implemented in both dissection and prosection curricula at two North American medical schools, that prepares students ...
Bryn Bhalerao +4 more
wiley +1 more source
Anatomical Sciences Education, EarlyView.Abstract The study of neuroanatomy is fundamental in many scientific fields. Despite this, it is a challenging subject for students. As technology evolves, it is being increasingly incorporated into educational methods, including the teaching of neuroanatomy. Three‐dimensional (3D) visualizations are well suited for displaying neuroanatomy.
Merlin J. Fair +5 more
wiley +1 more source
Moving beyond neurophobia to cultivate the neuroquisitive learner
Anatomical Sciences Education, EarlyView.Abstract “Neurophobia,” a pervasive fear of the neurological sciences, poses a significant barrier in medical education, affecting learners and physicians worldwide. Its consequences are far‐reaching, contributing to a limited neurology workforce and diminished confidence among non‐specialists in managing neurological conditions.
Joanna R. Appel +1 more
wiley +1 more source
Promoting engagement in embryology through gamified student‐developed small group sessions
Anatomical Sciences Education, EarlyView.Abstract Learning embryology is often challenging for students as it requires conceptualizing morphological changes to embryologic structures across time. To further complicate the process, while some structures transition to permanent structures, others disappear or degenerate.
Jessica N. Byram +2 more
wiley +1 more source
NeuroTwister: Gamified learning to teach cross‐sectional neuroanatomy to medical students
Anatomical Sciences Education, EarlyView.Abstract Neuroscience is a required course in many health professions curricula, but with it often comes neurophobia, the fear or difficulty that students experience when attempting to learn neuroscience. Traditional teaching methods in neuroanatomy may contribute to cognitive overload and stress, reinforcing the notion that neuroanatomy is ...
Cameron B. Jeter +3 more
wiley +1 more source
Modern competency‐based teaching of human sexual development
Anatomical Sciences Education, EarlyView.Abstract Embryology is an integral part of anatomy and a key subject in basic medical education. The development of the sexual tract, which is closely associated with the formation of the urinary tract and the organs of continence, is particularly complex and relevant for many medical disciplines.
Elisabeth Eppler +2 more
wiley +1 more source
Mothers' psychological adaptation to Duchenne/Becker muscular dystrophy. [PDF]
Eur J Hum Genet, 2016 Peay HL +5 more
europepmc +1 more source
Show Me the Brain!!: A modern approach to neuroanatomy education
Anatomical Sciences Education, EarlyView.Abstract Show Me the Brain!! (SMtB) is a digital system for interactive graphics that is designed to support instruction in neuroanatomy and neuroscience. It will soon be made open‐source and freely available. SMtB bridges medical and traditional neuroanatomy instruction with the computational systems and representational conventions common in ...
Nicholas C. Hindy +3 more
wiley +1 more source