The Impact of Innovative Educational Technologies on the Effectiveness of Continuing Professional Development of Physicians

Authors

DOI:

https://doi.org/10.5281/zenodo.13805835

Keywords:

continuing professional development, innovative technologies, virtual reality, individualized learning, digital platforms, medical education, advanced training

Abstract

Innovative technologies in medical education have significant potential to improve skills and ensure continuous professional development of doctors. They facilitate the introduction of new approaches to learning and improve access to information resources. This study analyzes the impact of modern technologies on the effectiveness of professional development of healthcare professionals. Particular attention is focused on modern digital platforms, virtual reality (VR) technologies, simulation programs and distance learning, which provide doctors with access to the latest treatment methods. The advantages of using these technologies in the professional development of medical professionals are analyzed, and the challenges associated with their implementation in the educational process are considered. The main advantages of innovative technologies in medicine, such as interactivity, accessibility and individualization of learning, are identified.

References

Білаш, С. М., Проніна, О. М., Олексієнко, В. В., Донченко, С. В., Олійніченко, Я. О., Коптев, М. М., Пирог-Заказникова, А. В., Ячмінь, А. І., & Кононов, Б. С. (2023). Проблематика використання комп’ютерних технологій у викладанні анатомії. Вісник проблем біології і медицини, 2(169), 39-40. https://doi.org/10.29254/2523-4110-2023-2-169/addition-39-40

Солодюк, Н. В. (2023). Академічна доброчесність у професійній підготовці майбутніх викладачів. Академічна доброчесність, відкрита наука та штучний інтелект: як створити доброчесне освітнє середовище : збірник есе програми підвищення кваліфікації / упорядники: А. Артюхов, М. Віхляєв, Ю. Волк. 18 вересня – 18 жовтня 2023 року. Львів – Торунь : Liha-Pres. http://catalog.liha-pres.eu/index.php/liha-pres/catalog/view/240/6341/14379-1

Bouamra, B., Chakroun, K., Medeiros De Bustos, E., Dobson, J., Rouge, J.-A., & Moulin, T. (2021). Simulation-based teaching of telemedicine for future users of teleconsultation and Tele-expertise: Feasibility study. JMIR Medical Education, 7(4), e30440. https://doi.org/10.2196/30440

Cheng, C., Papadakos, J., Umakanthan, B., Fazelzad, R., Martimianakis, M. A. T., Ugas, M., & Giuliani, M. E. (2023). On the advantages and disadvantages of virtual continuing medical education: a scoping review. Canadian medical education journal, 14(3), 41–74. https://doi.org/10.36834/cmej.75681

Cummins, M. R., Soni, H., Ivanova, J., Ong, T., Barrera, J., Wilczewski, H., Welch, B., & Bunnell, B. E. (2024). Narrative review of telemedicine applications in decentralized research. Journal of Clinical and Translational Science, 8(1). https://doi.org/10.1017/cts.2024.3

Ha, T. M., Hoang, D., Huynh, C. D., & Le, L. (2023). Integrated educational technology in teaching anatomy using the ASIC framework: A case study from VinUniversity. Advances in Medical Education and Practice, 14, 669–681. https://doi.org/10.2147/amep.s405340

Hasynets, Y., Vakerych, M., Solnyshkova, S., Pustovoichenko, D., & Kuruts, N. (2024). Transforming Higher Education in the Digital Age. Futurity Education, 4(2), 263–278. https://doi.org/10.57125/FED.2024.06.25.14

Mallek, F., Mazhar, T., Faisal Abbas Shah, S., Ghadi, Y. Y., & Hamam, H. (2024). A review on cultivating effective learning: synthesizing educational theories and virtual reality for enhanced educational experiences. PeerJ. Computer Science, 10(e2000), e2000. https://doi.org/10.7717/peerj-cs.2000

Owolabi, J. (2022). ASIC Framework Simplified and Operationalised – An Operational Matrix for Optimising the Use of Technologies and Innovations in Medical Education. Advances in Medical Education and Practice, Volume 13, 149–156. https://doi.org/10.2147/amep.s351642

Reis, T., Faria, I., Serra, H., & Xavier, M. (2022). Barriers and facilitators to implementing a continuing medical education intervention in a primary health care setting. BMC Health Services Research, 22(1), 638. https://doi.org/10.1186/s12913-022-08019-w

Stoevelaar, H., Bahl, A., Helsen, N., Michels, N. R. M., Smets, L., Speakman, M. J., Stranne, J., Toelen, J., Van der Aa, F., Van Ruysevelt, L., Yperman, J., Zilli, T., Tombal, B. F., & Michel, M. C. (2022). Personalised versus non-individualised case-based CME: A randomised pilot study. Journal of European CME, 11(1). https://doi.org/10.1080/21614083.2022.2153438

Published

2024-09-19