Integrating ChatGPT in Orthopedic Education for Medical Undergraduates: Randomized Controlled Trial

Journals

1. Ghanem D. Integrating artificial intelligence in orthopaedic care and surgery: the revolutionary role of ChatGPT, as written with ChatGPT. International Journal of Surgery 2024;110(12):7593 View
2. Deng R, Jiang M, Yu X, Lu Y, Liu S. Does ChatGPT enhance student learning? A systematic review and meta-analysis of experimental studies. Computers & Education 2025;227:105224 View
3. Gan W, Ouyang J, She G, Xue Z, Zhu L, Lin A, Mou W, Jiang A, Qi C, Cheng Q, Luo P, Li H, Zheng X. ChatGPT’s role in alleviating anxiety in total knee arthroplasty consent process: a randomized controlled trial pilot study. International Journal of Surgery 2025;111(3):2546 View
4. Aksoy E. The Performance of Artificial Intelligence in One Anastomosis Gastric Bypass Surgery: Comparative Efficacy of ChatGPT-4.0, ChatGPT-Omni, and Gemini AI. Obesity Surgery 2025;35(4):1469 View
5. Chokkakula S, Chong S, Yang B, Jiang H, Yu J, Han R, Attitalla I, Yin C, Zhang S. Quantum leap in medical mentorship: exploring ChatGPT’s transition from textbooks to terabytes. Frontiers in Medicine 2025;12 View
6. Wang J, Fan W. The effect of ChatGPT on students’ learning performance, learning perception, and higher-order thinking: insights from a meta-analysis. Humanities and Social Sciences Communications 2025;12(1) View
7. Huang S, Wen C, Bai X, Li S, Wang S, Wang X, Yang D. Exploring the Application Capability of ChatGPT as an Instructor in Skills Education for Dental Medical Students: Randomized Controlled Trial. Journal of Medical Internet Research 2025;27:e68538 View
8. Ye Q, Wang S, Liu Y, Luo J, Deng Z, Liu S, Jiang Y. Application of AI-assisted multi-advisor system combined with BOPPPS teaching model in clinical pharmacy education. BMC Medical Education 2025;25(1) View
9. Liu Y, Li H, Ouyang J, Xue Z, Wang M, He H, Song B, Zheng X, Gan W. Evaluating Large Language Models for Preoperative Patient Education in Superior Capsular Reconstruction: Comparative Study of Claude, GPT, and Gemini. JMIR Perioperative Medicine 2025;8:e70047 View
10. Kalam K, Masoud F, Muntaser A, Ranga R, Geng X, Goyal M. ChatGPT as a Learning Tool for Medical Students: Results From a Randomized Controlled Trial. Cureus 2025 View
11. Das L, Das D, Chandrakar D, Bhavani P, Dubepuria A, Barik S. Exploring the role of artificial intelligence in orthopedic medical education: A narrative review. Journal of Clinical Orthopaedics and Trauma 2025;69:103100 View
12. Pham T, Karunaratne N, Exintaris B, Liu D, Lay T, Yuriev E, Lim A. The impact of generative AI on health professional education: A systematic review in the context of student learning. Medical Education 2025;59(12):1280 View
13. Liu Z, Zuo H, Lu Y. The Impact of ChatGPT on Students' Academic Achievement: A Meta‐Analysis. Journal of Computer Assisted Learning 2025;41(4) View
14. Nieves-Lopez B, Wing C, Springer B, Aziz K. Exploring ChatGPT’s Efficacy in Orthopaedic Arthroplasty Questions Compared to Adult Reconstruction Surgeons. Arthroplasty Today 2025;34:101772 View
15. Vaira L, Lechien J, Maniaci A, De Vito A, Mayo-Yáñez M, Troise S, Consorti G, Chiesa-Estomba C, Cammaroto G, Radulesco T, di Stadio A, Tel A, Frosolini A, Gabriele G, Iannella G, Saibene A, Boscolo-Rizzo P, Soro G, Salzano G, De Riu G. Diagnostic Performance of ChatGPT-4o in Analyzing Oral Mucosal Lesions: A Comparative Study with Experts. Medicina 2025;61(8):1379 View
16. Li J, Yin K, Wang Y, Jiang X, Chen D. Effectiveness of generative artificial intelligence-based teaching versus traditional teaching methods in medical education: a meta-analysis of randomized controlled trials. BMC Medical Education 2025;25(1) View
17. Peng J, Zhang H, Tu X, Zhang X, Wu Q, Wang Y, Xiao D. Effectiveness of AI-assisted medical education for Chinese undergraduate medical students: a meta-analysis. BMC Medical Education 2025;25(1) View
18. Roveta A, Castello L, Massarino C, Francese A, Ugo F, Maconi A. Artificial Intelligence in Medical Education: A Narrative Review on Implementation, Evaluation, and Methodological Challenges. AI 2025;6(9):227 View
19. Wu S, Miao Y, Mei J, Xiong S. The Rise of Artificial Intelligence in Orthopedics: A Bibliometric and Visualization Analysis. Journal of Multidisciplinary Healthcare 2025;Volume 18:6037 View
20. Lin Y, Luo Z, Ye Z, Zhong N, Zhao L, Zhang L, Li X, Chen Z, Chen Y. Applications, Challenges, and Prospects of Generative Artificial Intelligence Empowering Medical Education: Scoping Review. JMIR Medical Education 2025;11:e71125 View
21. Ning Y, Ong J, Cheng H, Wang H, Ting D, Tham Y, Wong T, Liu N. How can artificial intelligence transform the training of medical students and physicians?. The Lancet Digital Health 2025;7(10):100900 View
22. Wang S, Gao H, Lin P, Qian T, Du Y, Xu L. Evaluating chat generative pretrained transformer in answering questions on endoscopic mucosal resection and endoscopic submucosal dissection. World Journal of Gastrointestinal Oncology 2025;17(10) View
23. He Y, Wang Y, Lai L, Liu N, Hong Y, Chen P, Zhang Z. A comparison of the performance of Chinese large language models and ChatGPT throughout the entire clinical workflow. Scientific Reports 2025;15(1) View
24. Chen S, Cheung A. Effect of generative artificial intelligence on university students learning outcomes: A systematic review and meta-analysis. Educational Research Review 2025;49:100737 View
25. Liu Q, Xue W, Meng L, Zhu Y, Li J. Research on the training strategy of college students' design thinking and innovation ability based on multimodal large model. Frontiers in Education 2025;10 View
26. Liao Z, Huang J, Liu Y, Li F, Tang L, Cong L, Wang H, Luo S. Utility of Large Language Models for Congenital Microtia Reconstruction Education: Comparison of the Performance of Claude, GPT, and Gemini. Aesthetic Plastic Surgery 2025 View