Introduction Since the onset of the COVID-19 pandemic, many higher education and health centers have faced challenges. Educational leaders have tried to manage the new situation, but the human infrastructure was not ready for such an event. This study aims to explain the challenges and opportunities of the COVID-19 pandemic for medical education. Method This qualitative study used conventional content analysis to collect data from face-to-face and semi-structured interviews. The interviews continued until data saturation was reached. The participants were 12 students and 14 faculty members at Shiraz University of Medical Sciences. To ensure data rigor, we used member checks, peer checks and an external observer. Results Three main categories and 15 subcategories were extracted. The findings showed that four subcategories, e.g. perception on feasibility of e-learning, standardizing of e-learning, dedicated teaching, and networking and interdisciplinary collaborations, affected the development of medical e-learning. The main opportunities from the COVID-19 pandemic for medical education were classified into five subcategories: attitudes to e-learning and adaptability, preventing students’ separation from the educational environment, documentation and monitoring education, take control of own learning, and increasing perceived usefulness. The main challenges were divided into four subcategories, e.g. noncompliance with virtual classroom etiquette, inadequate interactions, time limitations, and infrastructure defects and problems. Finally, participants believed that methods of evaluation in e-learning were more suitable for diagnosis and formative evaluations. Generally, two subcategories were extracted, e.g. formative and summative. Conclusion Medical schools have necessarily moved towards e-learning to compensate for the interruption in classroom education, such that traditional classes have been replaced with e-learning. These rapid, extensive changes in teaching and learning approaches have consequences for medical schools.
Background In the present age, e-learning has been playing a good role in educational and clinical settings along with face-to-face training. This study aimed to determine the effect of distance class using micro-learning contents on learning outcomes and self-efficacy in the clinical education of nursing students in 2021. Methods This research is a quasi-experimental pre-test-post-test study conducted at Shiraz University of Medical Sciences. The study population consisted of 46 nursing students who were recruited by the full census method. Students were randomly divided into two groups of intervention and control. Before and after educational interventions in both groups, students' learning and self-efficacy were evaluated using a questionnaire. Data Analysis was done using descriptive and analytical statistical methods and with SPSS software version 23. Results The results revealed a statistically significant difference in the mean score of clinical learning level of nursing students between the control and experimental groups after the intervention (p = 0.041). Also, the difference between the mean score of self-efficacy in the intervention group before and after the training was statistically significant (p = 0.001). Conclusion Micro-learning is an effective training method for raising learning outcomes and self-efficacy among nursing students, especially in internship units. This method is recommended since multimedia pays attention to all learning styles of learners and affects the learning outcomes and self-efficacy of learners.
Background The importance of mobile phones has become one of the new research topics in health professions education due to the ease of access and flexibility. Although novel approaches to health professions education recommend the use of educational technologies, such as mobile applications, a limited number of studies have been conducted with regard to learning anatomy through mobile applications. Considering the increasing needs of medical students for mobile technology to meet their educational needs, wants and desires, we decided to explore the features of an anatomy mobile application. Methods This qualitative study was conducted in two stages of holding focus groups, and an expert panel session. Students of basic Medical sciences, and faculty members of anatomy at Iran University of Medical Sciences formed the research participants. Semi-structured interviews and note-taking were used to collect the data. Moreover, Brown and Clark methods were used for thematic analysis. Finally, four criteria presented by Lincoln and Guba for qualitative studies were used to ensure the credibility, confirmability, trustworthiness and transferability of the data. Results Based on the data analysis, 37 codes that could be used to design anatomy mobile content for medical students were extracted. These features were categorized into eight main themes of “visual richness”, “scientific comprehensiveness”, “auditory richness”, “affordability”, “user-friendliness”, “self-assessment”, “interactive content” and “user support”. Conclusion This study explored the features of an anatomy application that can be used by educational app developers. Anatomy departments at Medical Universities, policymakers, and curriculum planners in the field of medical education can also adopt the findings of the present study.
Background and purpose Clinical supervision supports learners and paves the way for effective and efficient learning in clinical settings. This study aimed to explain the responsibilities of clinical supervisors in clinical education wards to improve the professional skills of medical students. Materials and methods In this qualitative study, we used the conventional content analysis approach. The sample consisted of 16 faculty members of medical sciences and medical graduates of Iranian universities. Purposeful sampling and semi-structured interviews were used to collect data. The Graneheim and Lundman method (2004) analyzed the data. Results From the analysis of interviews, 2 themes, 8 categories, and 18 subcategories were obtained. “Clinical supervisor responsibilities” as a theme includes the categories: “Creating motivation in learner”, “Learner’s need recognition”, “Performance evaluation”, “Creating learning opportunities”, and “Professional ethics education”. And, the sub-categories were: “Creating a supportive atmosphere”, “Task assignment”,“Understanding training needs”, “Understanding individual needs”, “Periodic evaluation”, “Proper feedback’, “Reduce work stress”, “Learner engagement’ , “Learning Facilitation”, “Attention to the patient’s treatment”, and “Ethical observance in relation to patients”. As the second theme “Clinical supervisor characteristics” included the categories of: “Scientific competence”, “Leading role”, and “Ethical model”. Their sub-categories are clustered as: “Knowledge of educational concepts”, “Mastery of professional concepts”, “Effective communication skills”, “Understanding managerial concepts”, “High resilience”, “Career commitment “, and “social commitment” . Conclusions The clinical supervisor will improve the professional skills of medical students, which will improve the quality of services provided, train efficient graduates, and provide a safe and relaxing environment that leads to patient satisfaction.
The hidden curriculum refers to student experiences that occur outside the formal structure of the curriculum, and especially the messages provided by the education system concerning values, perspectives, behaviors, and attitudes which has a strong influence on students' professional development. This study aimed at explaining the lived experiences of undergraduate medical students about the “hidden curriculum.” This was a qualitative phenomenological study. Participants were medical students of Iran University of Medical Sciences and they were chosen by purposive sampling method based on the inclusion criteria. Semi-structured interviews with open-ended questions were conducted with 10 students until data saturation, and 7-step Colaizzi's method was utilized for the purposes of analyzing the study findings. In the process of analyzing data from medical students' lived experiences about hidden curriculum, the following three themes were extracted: 1. Conflict in value beliefs (sub-themes: not giving priority to students education, applicability to the clinical practice of basic sciences, attitude towards discipline, professional ethics, justice in evaluation”) 2. Modeling teacher’s communication skills patterns (sub-themes: “teacher-patient relationship,” “teacher -student relationship and professor-colleagues relationship) 3. Effective teaching (sub-themes: “clinical teaching” and “theoretical teaching”). Based on the results of the study, the hidden curriculum has both positive and negative impacts on various aspects of learning, especially the attitudinal domain. Consequently, paying specific attention to hidden curriculums is an absolute need. © 2019 Tehran University of Medical Sciences. All rights reserved. Acta Med Iran 2019;57(5):308-315.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.