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JMIR Medical Education

Technology, innovation, and openness in medical education in the information age.

Editor-in-Chief:

Blake J. Lesselroth, MD MBI FACP FAMIA, University of Oklahoma | OU-Tulsa Schusterman Center; University of Victoria, British Columbia


Impact Factor 13.9 More information about Impact Factor CiteScore 16.0 More information about CiteScore

JMIR Medical Education is an open access, peer-reviewed journal focusing on technology, innovation, and openness in medical education.This includes e-learning and virtual training, which has gained critical relevance in the (post-)COVID world. Another focus is on how to train health professionals to use digital tools. We publish original research, reviews, viewpoint, and policy papers on innovation and technology in medical education. As an open access journal, we have a special interest in open and free tools and digital learning objects for medical education and urge authors to make their tools and learning objects freely available (we may also publish them as a Multimedia Appendix). We also invite submissions of non-conventional articles (e.g., open medical education material and software resources that are not yet evaluated but free for others to use/implement). 

In our "Students' Corner," we invite students and trainees from various health professions to submit short essays and viewpoints on all aspects of medical education, particularly suggestions on improving medical education and suggestions for new technologies, applications, and approaches. 

The journal is indexed in MEDLINEPubMed, PubMed Central, Scopus, DOAJ, and the Science Citation Index Expanded (Clarivate).

JMIR Medical Education received a 2025 Impact Factor of 13.9, ranking Q1 in Education, Scientific Disciplines (1/89).

JMIR Medical Education received a Scopus CiteScore of 16.0 (2025), placing it in the 98th percentile (20/1698) as a first quartile (Q1) journal in the field of Education, and in the 97th percentile (19/669) as a first quartile (Q1) journal in the field of General Medicine.


Recent Articles

Medical students in a dissection lab studying a skeleton
Models and Frameworks in Medical Education

Medical education has shifted from an individual, teacher-led process to an interactive, group-oriented approach, fostering clinical reasoning and teamwork. Sense of Community (SoC) appears to be a key factor in this process; however, its link to collaborative learning and academic success is underexplored.

Young male doctor in white coat with stethoscope using tablet
Testing and Assessment in Medical Education

Artificial intelligence (AI), particularly generative AI and large language models, is increasingly used for assessment-related tasks in medical education. Existing overviews often address AI in medical education broadly, limiting assessment-specific interpretation of functions, settings, learner stages, and responsible-AI reporting domains.

Two nurses in blue scrubs reviewing a chart at a counter.
Student/Learners Perceptions and Experiences with Educational Technology

Operating room (OR)-to-intensive care unit (ICU) handoffs are among the most complex and high-risk communication events in perioperative care. Despite the implementation of structured checklists, trainees often receive limited feedback on their communication skills, and simulation-based education rarely provides objective data on communication performance and checklist adherence. This study explores how an ambient artificial intelligence (AI) handoff assistant used during simulation-based training of OR-to-ICU handoff discussions can enhance clinical communication training and AI literacy by mapping spoken handoff discussions to handoff checklist items, providing immediate feedback on checklist item omissions, and generating a structured handoff note that functions as a feedback-rich learning artifact.

Woman's face and robotic face split with a microphone
Artificial Intelligence (AI) in Medical Education

Prerecorded courses are increasingly used in medical education, and audio quality is known to influence learners’ comprehension and engagement. Traditional audio recording, however, is time-consuming and may be uncomfortable for some educators. Advances in generative artificial intelligence (AI) now allow for realistic voice cloning, but its pedagogical value compared with conventional recording has not been assessed.

Mother breastfeeding baby while writing in notebook, breast pump nearby
Theme Issue 2025: Bias, Diversity, Inclusion, and Cultural Competence in Medical Education

Residency and fellowship are demanding phases characterized by intense schedules, limited autonomy, sleep deprivation, and hierarchical environments. Training years often coincide with peak reproductive age, presenting trainees with the dilemma of delaying parenthood or managing training and parenthood concurrently.

Medical students in training, using holographic display and studying X-rays.
Undergraduate Education for Future Doctors

Peer teaching is an established pedagogical approach in medical education; yet, traditional methods face challenges including inconsistent knowledge support, variable teaching quality, and limited scalability. Artificial intelligence (AI) large language models offer potential to augment peer teaching by providing on-demand access to medical knowledge and clinical reasoning support. However, AI integration within structured peer teaching has not been systematically evaluated in clinical education.

Doctor with stethoscope working on laptop with medical icons
New Resources for Medical Education

To address care delivery gaps, the health care system must embrace innovative digital solutions. Additionally, the rising integration of digitalization as a topic into medical education is providing students with broader opportunities to engage with digitalization overall. As digital health becomes an increasingly integral component of medical education and health care practice, digitally affine early career medical professionals constitute a vital resource for advancing digitalization within the health care sector.

Four medical professionals in blue scrubs discussing over a notebook and medical charts
Graduate and Postgraduate Education for Health Professionals

The number of 1-year Accreditation Council for Graduate Medical Education (ACGME) fellowships continues to grow. The ACGME recommends a holistic curriculum with nonclinical areas, inclusive of educational sessions. Given the competing demands between clinical skill development, educational pursuits, and work-hour restrictions, we propose an andragogic curriculum using pediatric anesthesiology as the model fellowship.

Medical professionals discussing a realistic human heart model for education
Artificial Intelligence (AI) in Medical Education

Artificial intelligence (AI) is increasingly being used in many aspects of society, including health care and education. AI has the potential to enhance health care delivery, education, and administration. Health care trainees will be required to master these AI technologies. To teach trainees to effectively and ethically leverage AI technologies, educators must be appropriately trained and empowered to use these technologies.

Doctor in blue scrubs and a young girl with clown noses laugh together in a clinic.
New Resources for Medical Education

In 2021, the American Academy of Pediatrics released a policy statement spotlighting the health-promoting and stress-buffering effects of early relational health (ERH) and calling for universal ERH promotion in pediatric primary care. However, little educational content for the observation and promotion of ERH is available, highlighting the need for scalable ERH training modules.

Preprints Open for Peer Review

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