The coronavirus disease 2019 pandemic has fundamentally reshaped anatomy education, offering invaluable insights to guide the future of anatomy pedagogy. As we transition into a post-pandemic era, it is crucial to integrate the lessons learned to create a more resilient, flexible, and effective educational environment. This paper examines the transformative strategies implemented at Universiti Sains Malaysia during the pandemic, focusing on the empowerment of blended learning, technology-enhanced tools, student-centered learning practical sessions, and enhancement of formative assessment. These strategies include integrating digital learning resources, such as the Virtual Anatomy Museum and online histology quizzes, with in-person instruction, fostering a supportive and interactive learning environment. Additionally, practical sessions were redesigned to emphasize collaborative learning, peer teaching, and developing critical thinking and communication skills. Formative assessments were integrated to provide continuous feedback and support ongoing learning. This comprehensive approach not only enhanced students’ understanding of anatomical concepts but also improved their emotional well-being and overall learning experience. The lessons learned from the pandemic have paved the way for a more innovative and adaptive anatomy education that is well-prepared for future challenges.

The coronavirus disease 2019 pandemic has fundamentally reshaped anatomy education, offering invaluable insights to guide the future of anatomy pedagogy. As we transition into a post-pandemic era, it is crucial to integrate the lessons learned to create a more resilient, flexible, and effective educational environment. This paper examines the transformative strategies implemented at Universiti Sains Malaysia during the pandemic, focusing on the empowerment of blended learning, technology-enhanced tools, student-centered learning practical sessions, and enhancement of formative assessment. These strategies include integrating digital learning resources, such as the Virtual Anatomy Museum and online histology quizzes, with in-person instruction, fostering a supportive and interactive learning environment. Additionally, practical sessions were redesigned to emphasize collaborative learning, peer teaching, and developing critical thinking and communication skills. Formative assessments were integrated to provide continuous feedback and support ongoing learning. This comprehensive approach not only enhanced students’ understanding of anatomical concepts but also improved their emotional well-being and overall learning experience. The lessons learned from the pandemic have paved the way for a more innovative and adaptive anatomy education that is well-prepared for future challenges.

The coronavirus disease 2019 pandemic has fundamentally reshaped anatomy education, offering invaluable insights to guide the future of anatomy pedagogy. As we transition into a post-pandemic era, it is crucial to integrate the lessons learned to create a more resilient, flexible, and effective educational environment. This paper examines the transformative strategies implemented at Universiti Sains Malaysia during the pandemic, focusing on the empowerment of blended learning, technology-enhanced tools, student-centered learning practical sessions, and enhancement of formative assessment. These strategies include integrating digital learning resources, such as the Virtual Anatomy Museum and online histology quizzes, with in-person instruction, fostering a supportive and interactive learning environment. Additionally, practical sessions were redesigned to emphasize collaborative learning, peer teaching, and developing critical thinking and communication skills. Formative assessments were integrated to provide continuous feedback and support ongoing learning. This comprehensive approach not only enhanced students’ understanding of anatomical concepts but also improved their emotional well-being and overall learning experience. The lessons learned from the pandemic have paved the way for a more innovative and adaptive anatomy education that is well-prepared for future challenges.

The coronavirus disease 2019 pandemic has fundamentally reshaped anatomy education, offering invaluable insights to guide the future of anatomy pedagogy. As we transition into a post-pandemic era, it is crucial to integrate the lessons learned to create a more resilient, flexible, and effective educational environment. This paper examines the transformative strategies implemented at Universiti Sains Malaysia during the pandemic, focusing on the empowerment of blended learning, technology-enhanced tools, student-centered learning practical sessions, and enhancement of formative assessment. These strategies include integrating digital learning resources, such as the Virtual Anatomy Museum and online histology quizzes, with in-person instruction, fostering a supportive and interactive learning environment. Additionally, practical sessions were redesigned to emphasize collaborative learning, peer teaching, and developing critical thinking and communication skills. Formative assessments were integrated to provide continuous feedback and support ongoing learning. This comprehensive approach not only enhanced students’ understanding of anatomical concepts but also improved their emotional well-being and overall learning experience. The lessons learned from the pandemic have paved the way for a more innovative and adaptive anatomy education that is well-prepared for future challenges.

Embryology is a critical subdiscipline in medical education, focusing on human body organ development and providing a foundation for understanding developmental anatomy. However, traditional teaching methods using static 2D graphics in textbooks may hinder students’ comprehension of the complex 3D embryonic growth processes. To address this, multimedia approaches, such as animations, videos, and interactive tools, have been explored for effective embryology education. This scoping review identifies five key elements of successful multimedia teaching in embryology: multimodal integrated instructional content, cognitive load-reduction strategies, cognitive engagement and physical interactivity, learner-controlled multimedia instruction, and development of tacit knowledge. These strategies promote active learning, enhance students’ understanding, and foster critical thinking skills. Future research should focus on evaluating the impact of multimedia approaches on students’ engagement, attitudes, and competency development. Embracing multimedia in embryology education can improve medical students’ clinical understanding and support effective medical practice.

Introduction: Measuring students’ perception of anatomy education environment provides important information for quality assurance and improvement in anatomy education. This study evaluated medical students’ perception of anatomy education environment in Universiti Putra Malaysia by using a validated tool, the Anatomy Education Environment Measurement Inventory (AEEMI). Methods: A cross-sectional study was conducted in the Faculty of Medicine and Health Sciences, Universiti Putra Malaysia between August and September 2020. Stratified random sampling was used to ensure balance sampling of two sociodemographic parameters: gender and study phase. The AEEMI was distributed online to 384 consenting students who rate their perceptions on the six factors of AEEMI: anatomy teachers and instructor, importance of anatomy knowledge, intrinsic interest in learning anatomy, anatomy learning resources, students’ effort to learn anatomy and quality of histology learning facilities, using a five-point Likert scale. The average score of each factor was calculated and compared between male and female respondents, and between preclinical and clinical ones, using SPSS version 25. Results: All factors was rated to be positive with scores > 4.00, except for histology practical facilities that was perceived as an area for improvement (score 3 – 4.99). There was no significant difference of the scores between male and female respondents, and between preclinical and clinical ones. The scores were found to be consistent across gender and study phase. Conclusion: Anatomy education environment in UPM are positive and caters for the differences in gender and study phase. Nevertheless, the histology practical facilities may require further attention for improvement.

Introduction: Designing an engaging teaching strategy that enhances the clinical application of anatomy knowledge is important for effective learning. Hence, this study was carried out to evaluate the outcomes of team-based learning (TBL) approach on students’ learning during gross anatomy practical classes. Method: A randomised-controlled trial was conducted on 215 pre-clinical year medical students, who were divided into TBL and control groups. Both groups attended the same anatomy lecture before the practical session. The TBL group underwent three phases of activities, which were pre-practical assignment (Phase-1), individual and team readiness assurance tests followed by a debriefing session (Phase-2), and group application task (Phase-3). Concurrently, the control group received a reading material as their pre-practical assignment and attended a practical session in the form of an anatomy model demonstration. Pre- and post-practical assessments were measured 30 minutes before and after the practical sessions. The students’ cognitive engagement and motivation were also measured after the practical sessions. Results: The TBL group among the Year-1 students outperformed the control group in all the test performance measures. The TBL group of the Year-1 students was also found to have greater improvement of test scores compared to their control counterparts. The TBL group was found to have significantly higher cognitive engagement scores only among the Year-2 students. However, the internal motivation scores were not significant in both cohorts. Conclusion: These results indicate that the TBL session contributes positive outcomes to students’ learning in anatomy context.

The evolution of anatomy education yields a variety of instructional strategies to enhance students’ comprehension of gross anatomy. Apart from these multi-modality approaches, various studies suggest that anatomy instruction is more effective when it is taught with radiological integration during the early phase of the medical curriculum. Studies have shown that the introduction of basic radiological knowledge in anatomy learning enhances visuospatial skills, which are important for safe clinical practice. Nevertheless, considerable variation in the radiological anatomy teaching exists in terms of delivery methods, radiological materials, and teaching time. One way to address these limitations is by using integrated radiology anatomy e-learning platforms. Recent advancements in technology have given rise to immense attention to e-learning platforms, which have been considered to be an effective modality in optimising the student learning process. Hence, this article explores the potential use of e-learning tools, namely integrated with radiological imaging, in teaching gross anatomy.

In light of the increasing use of online learning platforms in medical education, there is a critical need to assess the current state of online learning environments. Despite the global emphasis on digital education, limited studies have systematically explored how medical students perceive the effectiveness and quality of these environments, particularly in Pakistan. This study aims to fill this gap by evaluating medical students’ experiences with their institution’s online learning environments and identifying key strengths and challenges that impact learning outcomes. A mixed-method, sequential exploratory design was used, starting with a quantitative assessment followed by qualitative inquiry. Data from 253 medical students were collected via a survey, and 30 focus group interviews were conducted to provide deeper insights into the challenges students face in navigating the online learning environment. The findings revealed critical areas in need of improvement, including digital infrastructure, student engagement, and the accessibility of online resources. Qualitative data highlighted the need for more interactive and student-centred approaches to online education. By focusing on the status of online learning in medical education, this research provides valuable insights for educators and policymakers aiming to enhance the quality of digital learning environments. The study contributes to ongoing efforts to develop more effective, engaging, and responsive online learning strategies for medical students in Pakistan.
Education, Distance ; Education, Medical, Undergraduate ; Perception

Periosteum is a connective tissue that envelopes the outer surface of bones and is tightly bound to the underlying bone by Sharpey’s fibers. It is composed of two layers, the outer fibrous layer and the inner cambium layer. The periosteum is densely vascularised and contains an osteoprogenitor niche that serves as a repository for bone-forming cells, which makes it an essential bone-regenerating tissue and has immensely contributed to fracture healing. Due to the high vascularity of inner cambium layer of the periosteum, periosteal transplantation has been widely used in the management of bone defects and fracture by orthopedic surgeons. Nevertheless, the use of periosteal graft in the management of bone defect is limited due to its contracted nature after being harvested. This review summarizes the current state of knowledge about the structure of periosteum, and how periosteal transplantation have been used in clinical practices, with special reference on its expansion.