Artificial intelligence (AI) technologies, encompassing virtual reality, augmented reality and adaptive learning platforms, offer immersive and personalised opportunities for undergraduate orthopaedic education. However, their adoption is hindered by limited faculty acceptance, data privacy and ethical risks, and disparities in educational resources. This study examines the opportunities and challenges of AI integration in orthopaedic teaching and proposes strategies including systematic AI training, strengthened data protection, resource sharing, and blended learning models. These measures aim to enhance the quality of learning for students and educators while fostering innovation and progress in medical education.
Objective To evaluate the role that problem based learning (PBL) teaching plays in the education of doctors. Methods A total of 240 7-year students who entered the China Medical University in Shenyang in 2004 were divided into two groups: one group used PBL teaching model while the second group used a traditional teaching model. There were 120 students in each group. At the end of the teaching, a questionnaire on PBL teaching model was distributed to the both groups. We organized and classified answers to the questionnaire and conducted statistical analyses. Results Problem based learning is a model for education in which students dominate the course, question the case, look for evidence, participate in the group discussion and reach resolution. This emphasizes the process of learning and the training of student abilities, instead of the teaching of knowledge only. PBL is more effective at meeting the requirements of the global minimum essential requirements in medical education (GMER). Conclusions PBL teaching plays an important role in the training of doctors
Driven by advances in intelligent technology, artificial intelligence (AI) is emerging as the cornerstone of neurosurgical education. By providing personalized learning experiences and enhancing learning outcomes, AI has enriched the avenues and depth of knowledge acquisition for medical students. The integration of AI not only helps medical students master the basic theories and practical skills of neurosurgery more thoroughly, but also lays a solid foundation for them to provide high-quality and efficient medical services in the future. At the same time, the ability of educators to use intelligent technologies further enhances the interactivity and effectiveness of teaching. In order to further ensure the application of AI in neurosurgery teaching, this article explores the strategic integration of AI in neurosurgical education, emphasizing its critical importance in ensuring that teaching methods evolve with the times.
Simulation-based medical education is becoming increasingly common. In this paper, the status and goal of SBME development is analyzed after a brief introduction of SBME. Secondly, the essentiality and possibility of bringing SBME to a situated paradigm are clarified, because there are rich implications for situated cognition as the theory foundation of SBME. As a main discussion point, eight practical situated designing principles for SBME in theoretical and practical contexts are then expounded. Finally, a specific attitude toward the relationship between theory and practice for the SBME teachers is also elucidated.
Debriefing has been identified as the most critical and important component in simulation-based education. Usually, debriefing following medical simulation is facilitated by a clinician (the debriefer). However, the shortage of clinical teachers due to the huge clinical workload has been the main obstacle for simulation-based medical education. Peer debriefing has been proved to be an effective alternative strategy to instructor-based debriefing, which might not be inferior to instructor-based debriefing. This review summarizes the application of peer debriefing in simulation-based medical education, and provides useful information for future practice in healthcare simulation.
Objective To evaluate medical students’ perceptions and attitudes toward artificial intelligence (AI)-assisted diagnosis of renal cell carcinoma (RCC), and to analyze their educational needs regarding AI in pathological diagnosis. Methods A questionnaire survey (including closed and open-ended questions) was conducted to assess medical students’ perceptions, attitudes, and educational needs concerning AI-assisted RCC diagnosis. Participants included medical students from different specialties and standardized training residents. The questionnaire covered demographic information, perceptions and attitudes toward AI, and AI-related educational needs. Results A total of 249 respondents completed the survey. The majority were standardized training residents, mostly aged 23-26 years, and 40.96% had practical experience in pathological diagnosis of RCC. The median scores for most closed-ended questions were 4. Respondents generally considered “efficiency” and “improved accuracy” as the most prominent advantages of AI, with timeliness, automated diagnosis, reduction of human error, and precise diagnosis being the most emphasized aspects. Analysis of AI-related educational needs revealed high-frequency keywords such as “expanding sample size” “balanced responsibility allocation” and “enhancing collaboration skills.” Conclusion Medical students hold a positive attitude toward AI and its application in RCC diagnosis, but there remains a lack of formal AI-related education.
ObjectiveTo investigate the situation of further medical education in students in our hospital from 2010 to 2014, and provide insights into how to elevate the teaching and management quality of continuing medical education (CME). MethodWe collected and statistically analyzed the electronic information of students in our hospital between January 2010 and 2014 December, including gender, ethnicity, age, education, and job title. ResultsThere were totally 7 478 students who received further education in the five years, and most of them were between 26 and 35 years old with junior titles and bachelor's degree. The number of students from minorities, county hospitals, medical school affiliated hospitals, provincial hospitals and hospitals from other provinces increased year by year. But there were still some problems in the present situation of further medical education in our hospital, including: lacking detailed publicity work, complicated student sources, different working capabilities of the students, and difficult regulation of uniform education planning. ConclusionsTo solve the problems, we need to properly balance the number of students and the quality of the training, make scientific enrollment plan, strengthen the CME publicity work, improve the quality of students, draw up differentiation cultivation plan, strictly implement examination and evaluation, and constantly improve the information feedback system.
Objective To further understand the specialist/resident trainees’ requirements for postgraduate medical education so as to provide a foundation for selecting the best faculty and improving the faculty’s ability and to promote the specialist/resident doctors training project. Methods To investigate the 244 specialist/resident trainees by giving out a modified questionnaire. Factor analysis and variance analysis were done by using SPSS 11.5. Results There were 260 questionnaires given and 260 received. There were 244 effectual questionnaires. Analysis results were in the following: The specialist/resident trainees’ faculty members were able to “synthesize, manage information, adapt to society and the medical environment, perform scientific research, work as team members, innovate, and self-improve” (Pgt;0.05). The importance of “occupational attitude and work style” was higher in Sichuan Provincial People’s Hospital than in West China Hospital of Sichuan University (P=0.03); There were differences between the trainees at different ages on demands to “occupational attitude and work style” (P=0.04); There were differences between the entrants in different years on demands for “information management and scientific research” (P=0.03); There were differences between the trainees of different education degrees on demands related to “adaptation to society and medical environment change” and “team work, innovation. and self-improvement” (P=0.04). Conclusion To meet the trainees’ demands and promote the specialist/resident doctors training project, the faculty should continuously improve their abilities.
Objective To explore the application effect of the four-dimensional teaching library model in the training of neuroinfection subspecialty continuing physicians, and compare it with traditional rotational training. Methods Continuing physicians who received training in the Department of Neurology of Xuanwu Hospital, Capital Medical University between March 2021 and February 2023 were selected. The continuing physicians who received traditional rotational training between March 2021 and February 2022 would serve as the control group, and the continuing physicians who received four-dimensional teaching library model training between March 2022 and February 2023 would serve as the experimental group. The Mini-CEX scale was used to evaluate the clinical comprehensive abilities of two groups of continuing physicians. At the same time, self-made questionnaires were used to evaluate the evaluation of two groups of continuing physicians on different teaching modes. Results A total of 55 continuing physicians were included. Among them, there were 27 people in the control group and 28 people in the experimental group. There was no statistically significant difference in the comparison of general information between the two groups (P>0.05). At the time of graduation, all items on the Mini-CEX scale in the experimental group were higher than those in the control group (P<0.05). The survey questionnaire results showed that the experimental group scored higher than the control group in terms of improving learning interest, improving self-learning ability, improving clinical thinking, improving analysis and problem-solving ability, improving doctor-patient communication ability, and increasing teamwork (P<0.05). Conclusion The application effect of the four-dimensional teaching library model in the training of neuroinfection subspecialty continuing physicians is better than that of traditional rotational training, which can significantly improve the clinical comprehensive ability of continuing physicians and is worth promoting.
Objective To investigate the decision-making situation of doctors in the township hospitals in Gaolan, Gansu province, and to discuss its scientificity and rationality. Methods Self-designed questionnaire was adopted to investigate the clinical decision-making situation of 108 doctors from 7 township hospitals in Gaolan county. The investigation contained three parts as follows: basic information of respondents, general information of clinical decision-making evidence, and comparison between respondents’ decision-making situation and current best clinical evidence. Results Among the total 108 questionnaires distributed, 89 valid were retrieved. The feedback showed that 79% of the doctors diagnosed and treated patients in accordance with medical textbooks; 53% took curative effect into consideration in the first place; 33% failed to consider patients’ willingness properly when making clinical decisions; and 52% made clinical therapy regimen for common diseases based on the evidence which was different from that in BMJ published Clinical Evidence. Conclusion While making clinical decisions, doctors in the township hospitals do not adequately refer to the best clinical evidence as their decision-making basis, and fail to take patients’ value and willingness into consideration properly. It is necessary to promote the concept of evidence-based medicine and spread the best evidence in the township health departments.