Medical education online
-
Medical education online · Dec 2021
Essential yet Ill-defined: leadership roles to support fourth-year medical students in pediatrics.
Few studies have been published about specialty-specific fourth-year medical student leadership in any discipline. This paper provides insight from pediatric educators about the current status and recommendations for pediatric-specific fourth-year leaders. ⋯ As specialty-specific experiences have grown in the fourth year of medical school, there is an increasing demand for faculty leadership separate from direction of the pediatric clerkship. In this national survey, pediatric educators expressed a need for additional protected time to lead fourth-year specific activities. Similar findings in other disciplines would support advocating for more protected time and expanded roles for specialty-specific fourth-year directors nationally.
-
Medical education online · Dec 2021
Preparing historically underrepresented trainees for biomedical cancer research careers at Huntsman Cancer Institute/University of Utah Health.
Given the well-documented inequities in health care outcomes by race, ethnicity, and gender, many health career pipeline programs have focused on supporting the development of a diverse and inclusive workforce. The State of Utah, is vast, but sparsely populated outside the Salt Lake City metropolitan area. More than 96% of our nearly 85,000 square miles is designated rural (<100 people/square mile) or frontier (<7 people/square mile). ⋯ Eleven trainees graduated college: five employed in STEM, one pursuing a PhD in STEM; two in medical school, and three are lost to follow-up. Alumni report high levels of satisfaction with PathMaker and will be followed and supported for academic success. PathMaker is a replicable model to increase diversity and inclusion in the biomedical cancer research workforce.
-
Medical education online · Dec 2021
ReviewAugmented reality in medical education: students' experiences and learning outcomes.
Augmented reality (AR) is a relatively new technology that allows for digitally generated three-dimensional representations to be integrated with real environmental stimuli. AR can make use of smart phones, tablets, or other devices to achieve a highly stimulating learning environment and hands-on immersive experience. The use of AR in industry is becoming widespread with applications being developed for use not just for entertainment and gaming but also healthcare, retail and marketing, education, military, travel and tourism, automotive industry, manufacturing, architecture, and engineering. ⋯ We also describe how AR can enhance the experiences of medical students, by improving knowledge and understanding, practical skills and social skills. These concepts are discussed within the context of specific AR medical training programs, such as HoloHuman, OculAR SIM, and HoloPatient. Finally, we discuss the challenges of AR in learning and teaching and propose future directions for the use of this technology in medical education.
-
Medical education online · Dec 2021
The perceptions of anatomy teachers for different majors during the COVID-19 pandemic: a national Chinese survey.
During the spring semester of 2020, medical school anatomists in China were forced by the COVID-19 pandemic to transition from face-to-face educators or part-time online educators to full-time online educators. This nationwide survey was conducted to assess online anatomy education during the pandemic for medical students from nonclinical medicine and clinical medicine majors at medical schools in China via WeChat. ⋯ However, there were statistically significant differences in class size, implementation of active learning activities prior to the pandemic, and the evaluation of the effectiveness of online learning during the pandemic, between clinical and nonclinical medicine majors. These results indicated that, compared with teachers of anatomy courses in clinical medicine, teachers of nonclinical medicine majors using online learning in medical schools in China had relatively poor preparation for online learning in response to the unforeseen pandemic.
-
Medical education online · Dec 2021
Observational StudyLongitudinal trends using a point-of-care gelatin-based model for ultrasound-guided central venous catheter insertion.
Ultrasound (US)-guided central venous catheter (CVC) insertion is a procedure that carries the risk of significant complications. Simulation provides a safe learning atmosphere, but most CVC simulators are not available outside of simulation centers. To explore longitudinal trends in US-guided CVC insertion competency in internal medicine (IM) interns, we studied the use of a low-fidelity, gelatin-based, US-guided CVC insertion simulation model combined with a simulation curriculum. ⋯ Attitudes toward the model were generally positive and self-reported confidence improved throughout the course of the year and correlated with objective measures of competency. Over the course of their intern year, which included simulation training using a gelatin-based model, interns demonstrated consistent competency trends. The use of a gelatin-based CVC insertion simulation model warrants further study as an adjunctive aid to existing simulation training.