Introducing second-year medical students to diagnostic reasoning concepts and skills via a virtual curriculum.

OBJECTIVES: Curriculum for clinical reasoning in the preclinical years is sparse and the COVID-19 pandemic heightened the need for virtual curriculums. METHODS: We developed, implemented and evaluated a virtual curriculum for preclinical students scaffolding key diagnostic reasoning concepts: dual process theory, diagnostic error, problem representation and illness scripts. Fifty-five second-year medical students participated in four 45-min virtual sessions led by one facilitator. RESULTS: The curriculum led to increased perceived understanding and increased confidence in diagnostic reasoning concepts and skills. CONCLUSIONS: The virtual curriculum was effective in introducing diagnostic reasoning and was well-received by second-year medical students.

Livestream surgeries enhance preclinical medical students' exposure to surgical specialties.

Mentorship, experience, and early exposure are key contributors to how medical students decide whether to pursue surgical training. We designed a series of livestream surgeries to provide preclinical (first and second year) medical students with early exposure to six surgical specialties and facilitate mentorship with faculty. Students were surveyed before and after the livestream sessions. Seventeen students completed the post-session survey. On a 5-point scale (1 = 'Not Educational at All'; 5 = 'Very Educational'), average rating of interactions with the facilitating surgeon was significantly higher than with the operating surgeon (4.9 ± 0.3 vs. 4.2 ± 1.1, respectively, p = 0.013). Majority (94%) indicated that the livestream series increased their interest in surgery. This novel course engaged preclinical medical students in surgical education and provided exposure to a breadth of specialties. Dedicated facilitators enhanced students' learning experience, and the series positively impacted students' interest in surgical fields. Future efforts will expand the series to other hospitals and surgical specialties.

A Virtual Clinical Reasoning Case for Medical Students Using an Ophthalmology Model: A Case of Red Eye.

Introduction: Triggered by the COVID-19 pandemic, medical education has moved online, tasking medical educators with developing virtual learning experiences. This is particularly challenging for less-represented disciplines, such as ophthalmology. We designed a red eye clinical reasoning case for preclinical medical students, which can be delivered virtually, using video conference software. Methods: We developed a 90-minute red eye/clinical reasoning workshop for which prereading was assigned to students. We then delivered a virtual development session to nonophthalmologist copreceptors and provided a session faculty guide. The entire first-year medical student class (No. = 140) participated in one of four identical workshops, which included virtual small- and large-group discussions. Students completed a knowledge pre- and posttest, and an optional session postsurvey. Results: Knowledge gains from pretest (No. = 94) to posttest (No. = 73) were statistically significant (p < .05), with average scores improving from 57% to 70%. Overall, students were satisfied, rating the following items 4 or 5 out of 5: session (86%, No. = 31), virtual format (83%, No. = 30), and if they recommended future use (69%, No. = 35). Discussion: This novel, virtual clinical reasoning case simulated small- and large-group learning, achieved knowledge gains, and was well received by students. Minor technical challenges were encountered but successfully remedied, without apparent disruption to learning. This virtual medical education model can be used to enhance ophthalmology education in preclinical medical students and can be adapted for virtual design of other curricular content.

Challenges and Opportunities of Preclinical Medical Education: COVID-19 Crisis and Beyond.

COVID-19 pandemic has disrupted face-to-face teaching in medical schools globally. The use of remote learning as an emergency measure has affected students, faculty, support staff, and administrators. The aim of this narrative review paper is to examine the challenges and opportunities faced by medical schools in implementing remote learning for basic science teaching in response to the COVID-19 crisis. We searched relevant literature in PubMed, Scopus, and Google Scholar using specific keywords, e.g., "COVID-19 pandemic," "preclinical medical education," "online learning," "remote learning," "challenges," and "opportunities." The pandemic has posed several challenges to premedical education (e.g., suspension of face-to-face teaching, lack of cadaveric dissections, and practical/laboratory sessions) but has provided many opportunities as well, such as the incorporation of online learning in the curriculum and upskilling and reskilling in new technologies. To date, many medical schools have successfully transitioned their educational environment to emergency remote teaching and assessments. During COVID-19 crisis, the preclinical phase of medical curricula has successfully introduced the novel culture of "online home learning" using technology-oriented innovations, which may extend to post-COVID era to maintain teaching and learning in medical education. However, the lack of hands-on training in the preclinical years may have serious implications on the training of the current cohort of students, and they may struggle later in the clinical years. The use of emergent technology (e.g., artificial intelligence for adaptive learning, virtual simulation, and telehealth) for education is most likely to be indispensable components of the transformative change and post-COVID medical education.

Telehealth Training Is Essential to Care for Underserved Populations: a Medical Student Perspective.

Telehealth is an area of medicine which has magnified the ability to treat patients remotely. Presently the education of medical professionals pertaining to the value, use, and implementation of telehealth is not adequate to harness the potential of available technologies. Patients engaging in telehealth experience time and cost savings, improved disease management through remote monitoring programs, and high-quality care regardless of geographic location. Despite this, medical education has been slow to evolve. It is therefore imperative that medical curricula incorporate training for this rapidly advancing mode of healthcare delivery to enable students to best care for their future patient population.