The anatomy of anatomy: a review for its modernization

Flipped and Peer-Assisted teaching: a new model in virtual anatomy education

INTRODUCTION

In response to the COVID-19 crisis, this study aimed to introduce a new virtual teaching model for anatomy education that combines Peer-Assisted Learning (PAL) and flipped classrooms, aligning with constructivist principles.

METHOD

The Flipped Peer Assisted (FPA) method was implemented in a virtual neuroanatomy course for second-year medical students at Birjand University of Medical Sciences via a descriptive study. The method involved small groups of PAL, with peer learning serving as educational assistants and the teacher acting as a facilitator. Educational content was uploaded to the university's learning management system (LMS). The opinion of medical students regarding the teaching method were evaluated using a 15-item questionnaire on a five-point Likert scale.

RESULTS

A total of 210 students participated in the instruction using the FPA method. The analysis of students' scores revealed an average score of 26.75 ± 3.67 on the 30-point test. According to student feedback, this teaching method effectively motivated students to study, enhanced teamwork and communication skills, transformed their perspective on the anatomy course, provided opportunities for formative assessment and feedback, and demonstrated the teacher's dedication to education.

CONCLUSION

The FPA model demonstrates its effectiveness in transforming traditional classroom teaching and fostering teaching and learning in virtual environments, particularly during pandemics like COVID-19. This model holds promise for enhancing anatomy education in challenging circumstances.

Everyone can draw: An inclusive and transformative activity for conceptualization of topographic anatomy

Anatomical drawing traditionally involves illustration of labeled diagrams on two-dimensional surfaces to represent topographical features. Despite the visual nature of anatomy, many learners perceive that they lack drawing skills and do not engage in art-based learning. Recent advances in the capabilities of technology-enhanced learning have enabled the rapid and inexpensive production of three-dimensional anatomical models. This work describes a "drawing on model" activity in which learners observe and draw specific structures onto three-dimensional models. Sport and exercise sciences (SES, n = 79) and medical (MED, n = 156) students at a United Kingdom medical school completed this activity using heart and femur models, respectively. Learner demographics, their perceptions of anatomy learning approaches, the value of the activity, and their confidence in understanding anatomical features, were obtained via validated questionnaire. Responses to 7-point Likert-type and free-text items were analyzed by descriptive statistics and semi-quantitative content analysis. Learners valued art-based study (SES mean = 5.94 SD ±0.98; MED = 5.92 ± 1.05) and the "drawing on model" activity (SES = 6.33 ± 0.93; MED = 6.21 ± 0.94) and reported enhanced confidence in understanding of cardiac anatomy (5.61 ± 1.11), coronary arteries (6.03 ± 0.83), femur osteology (6.07 ± 1.07), and hip joint muscle actions (5.80 ± 1.20). Perceptions of learners were independent of both their sex and their art-based study preferences (p < 0.05). Themes constructed from free-text responses identified "interactivity," "topography," "transformative," and "visualization," as key elements of the approach, in addition to revealing some limitations. This work will have implications for anatomy educators seeking to engage learners in an inclusive, interactive, and effective learning activity for supporting three-dimensional anatomical understanding.

A method for assessing student ability to apply anatomical knowledge within a traditional anatomy laboratory examination

Fidelity between teaching activities and assessment methods is an important goal of knowledge and performance evaluations in medical education. Ideally, assessment methods provide evidence of learning that reflects the types of knowledge described in the learning objectives of the course. The most reliable assessments involve the same or similar tasks as those used during the instructional components of the course. Our preclinical human anatomy course includes, in addition to traditional lecture and cadaver-based laboratory learning activities, a series of applied human anatomy learning activities intended to emphasize human anatomy as it is encountered in living human individuals. The learning activities involve psychomotor behaviors including inspection, palpation, and auscultation, techniques used in the physical examination, as well as other activities designed to emphasize anatomical structures and tissues as they may be found in patient populations. We describe here our method for measuring student success in learning human anatomy in this manner, highlighting the direct linkage between the learning activities and the assessment tasks. We describe our performance scoring method and how we include this data in the calculation of an anatomy examination grade. As an indicator of our success with this approach, we include performance scores for the applied anatomy questions included on the laboratory component of our unit examinations for two successive academic years. We conclude with summary comments from students regarding the applied anatomy learning activities and assessment approach and offer suggestions for addressing specific challenges associated with the use of these types of assessment methods.

Using design thinking to create and implement a 3D digital library of anatomical specimens

Design thinking (DT) is a five-stage process (empathize, define, ideate, prototype, and test) that guides the creation of user-centered solutions to complex problems. DT is in common use outside of science but has rarely been applied to anatomical education. The use of DT in this study identified the need for flexible access to anatomical specimens outside of the anatomy laboratory and guided the creation of a digital library of three-dimensional (3D) anatomical specimens (3D Anatomy Viewer). To test whether the resource was fit for purpose, a mixed-methods student evaluation was undertaken. Student surveys (n = 46) were employed using the system usability scale (SUS) and an unvalidated acceptability questionnaire. These verified that 3D Anatomy Viewer was usable (SUS of 72%) and acceptable (agreement range of 77%-93% on all Likert-type survey statements, Cronbach's alpha = 0.929). Supplementary interviews (n = 5) were analyzed through content analysis and revealed three main themes: (1) a credible online supplementary learning resource; (2) learning anatomy with 3D realism and interactivity; (3) user recommendations for expanding the number of anatomical models, test questions, and gamification elements. These data demonstrate that a DT framework can be successfully applied to anatomical education for creation of a practical learning resource. Anatomy educators should consider employing a DT framework where student-centered solutions to learner needs are required.

Impact of the educational setting on the teaching and learning of the equine distal limb ultrasonography

The use of immersive methodologies is a trend in the educational environment, but their outcomes in the teaching-learning process need to be better understood. This study aimed to assess the impact of the educational environment on learning equine distal limb ultrasonography, comparing immersive classroom, traditional classroom, and virtual classroom. A total of 153 veterinary medicine students from the first to the third semester participated in this study. The students were divided into four groups: traditional (n = 22), immersive (n = 100), online (n = 31), and traditional-immersive (n = 15). The students completed a questionnaire before and immediately after the class. The online group had a lower average gain in correct answers compared to the others (p < 0.01). Regarding student perception, it was observed that the virtual group had the lowest satisfaction score (p < 0.001), and students in the immersive and online environments were more satisfied with the resources used compared to the traditional classroom (p = 0.01). Concluding, in the present study students showed a greater interest in environments associated with technology, and that in-person modalities resulted in significantly superior learning outcomes compared to online ones.

Emerging trends on the anatomy teaching reforms in the last 10 years: Based on VOSviewer and CiteSpace

The study of organism structural composition, known as anatomy, is essential in comprehending the intricate arrangements of life and plays a crucial role in medical education and practice. It bridges foundational and clinical disciplines, shaping medical education, and practice. With evolving technology, medical education faces new challenges necessitating pedagogical innovations. This article explores the changing landscape of anatomical education, encompassing teaching methods, and curricular shifts. Advancements in information technology and bibliometrics shed light on anatomy's evolution, yet research on anatomy teaching reform (ATR) remains scarce. This study employs advanced analytical tools like CiteSpace and VOSviewer to uncover research hotspots and frontiers in ATR. By scrutinizing focal points and emerging directions in ATR, this research provides insights into the future of pedagogical strategies and clinical research in anatomy.

Prospective comparative study on enhancing geometrical mental representation and anatomical learning in medical students through modeling clay as an assessment tool

While traditional anatomy education often emphasizes passive learning and rote memorization, it seldom employs constructivist theories that focus on active, hands-on experiences for effective learning. This study tests the hypothesis that tactile experiences with modeling clay enhance geometric mental representation more effectively than verbal descriptions. We examine the potential of clay modeling to reflect and evaluate students' mental representation of anatomical structures. Utilizing a prospective randomized, open, blind endpoint (PROBE) design, we engaged 36 participants divided into three groups: blind, visually impaired, and a control group. The primary outcome measure was the difference between post-touch score and pre-touch score, which gauged the efficacy of tactile intervention in enhancing the participants' capacity to mentally reconstruct a well-designed anatomical fiction structure. Scoring was executed using a double-blind double-evaluation methodology, positioning clay model reconstruction as both an objective reliable assessment and a pedagogical tool. The analysis demonstrated a pronounced improvement in mental representation of anatomical structures, particularly in spatial comprehension and detailed textural discernment, with the mean score soaring from 47.81 pre-touch to 85.09 post-touch. Distinct cognitive processing adaptations were evident across groups, with the blind group excelling in tactile acuity and the visually impaired group showing the most significant gains in spatial understanding post-intervention (Cohen's d = 2.74). The application of modeling clay as a tactile intervention tool can significantly improve the learning of anatomy among medical students. The study underscores the value of active, multisensory engagement and customized teaching strategies for effective anatomy education among this demographic.

A Brief Review of Anatomy Education in Korea, Encompassing Its Past, Present, and Future Direction

Anatomy is a foundational subject in medicine and serves as its language. Hippocrates highlighted its importance, while Herophilus pioneered human dissection, earning him the title of the founder of anatomy. Vesalius later established modern anatomy, which has since evolved historically. In Korea, formal anatomy education for medical training began with the introduction of Western medicine during the late Joseon Dynasty. Before and after the Japanese occupation, anatomy education was conducted in the German style, and after liberation, it was maintained and developed by a small number of domestic anatomists. Medicine in Korea has grown alongside the country's rapid economic and social development. Today, 40 medical colleges produce world-class doctors to provide the best medical care service in the country. However, the societal demand for more doctors is growing in order to proactively address to challenges such as public healthcare issues, essential healthcare provision, regional medical service disparities, and an aging population. This study examines the history, current state, and challenges of anatomy education in Korea, emphasizing the availability of medical educators, support staff, and cadavers for gross anatomy instruction. While variations exist between Seoul and provincial medical colleges, each manages to deliver adequate education under challenging conditions. However, the rapid increase in medical student enrollment threatens to strain existing anatomy education resources, potentially compromising educational quality. To address these concerns, we propose strategies for training qualified gross anatomy educators, ensuring a sustainable cadaver supply, and enhancing infrastructure.

A Bibliometric Analysis of Publications on Cadavers: A Study Based on Web of Science Data From 1978 to 2023

This study aimed to investigate the significance of publications examining the effectiveness of cadaver studies in the field of medicine with the method of bibliometric analysis, which emerged in the 1950s, offers the opportunity to conduct a detailed analysis of a specific subject, just like a systematic literature review or meta-analysis. Also, it aimed to enlighten the content of cadaver studies in the last half-century and to present a perspective for the future. In the study, an advanced search was conducted on the Web of Science Core Collection database on August 1, 2023, using the keywords "cadaver," "cadaver study," "cadaveric dissection." Review articles were excluded from the study. There were determined 34554 documents. The documents were transferred to the VOSviewer software program. In this way, the authors made detailed analyses of authors, keywords, journals, organizations, institutions, and countries and created scientific maps. The United States was one of the most important countries in terms of research. Generally, the use of cadaver terms in documents belongs to surgery, anatomy, and transplantation journals. Anatomy, cadaver, biomechanics, ultrasound, and computed tomography were the top 5 most frequently used keywords with cadaver term. The findings of our study showed that cadaver studies are used in many fields of medical science. However, clinical studies, including advanced imaging techniques, draw attention to the developing technology. Along with the powerful institutions of the United States, its great contributions to publications stand out.

Research advances and trends in anatomy from 2013 to 2023: A visual analysis based on CiteSpace and VOSviewer

As the cornerstone of medicine, the development of anatomy is related to many disciplines and fields and has received extensive attention from researchers. How to integrate and grasp the cutting-edge information in this field quickly is a challenge for researchers, so the aim of this study is to analyze research in anatomy using CiteSpace and VOSviewer in order to identify research hotspots and future directions. To offer a fresh viewpoint for assessing the academic influences of researchers, nations, or institutions on anatomy, and to examine the development of hotspots in anatomical study and to forecast future trends. A total of 4637 anatomy-related publications from 2013 to 2023 were collected from Web of Science Core Collection databases. Their temporal distribution, spatial distribution, cited authors, co-cited journals, keywords, and disciplinary connections in the literature were analyzed using CiteSpace and VOSviewer, and a knowledge graph was constructed. The temporal distribution shows a general fluctuation in the amount of literature published from 2013 to 2023. In spatial distribution, the total number of published articles was highest in the United States, the United Kingdom, and China, the United States leading. Tubbs, Rhoton, Iwanaga, and LaPrade are important authors in anatomy. Clinical Anatomy, Surgical and Radiologic Anatomy, and Journal of Anatomy were the most highly cited journals. Analysis of keywords and citation emergence showed that the research hotspots and trends in anatomy focused mainly on anatomy education, digital technology, and surgical management. At the same time, anatomy showed a trend toward multidisciplinary crossover, developing closer relationships with molecular biology, immunology, and clinical medicine. Current research in anatomy focuses on innovative reform of the educational model and the application and promotion of digital technology. Also, multidisciplinary cross-fertilization is an inevitable trend for the future development of anatomy.

Donor memorialization practices at religious institutions in the United States

Many institutions worldwide honor the gift of human body donors through memorial services, ceremonies, and various other means, such as guided reflection or art activities. Memorial services can vary when it comes to the name, who is involved in the planning, and who may attend. Within the United States, the role of religion in the planning and delivery of these ceremonies at religious institutions has yet to be actively explored. This study aimed to collect information about human body donor memorialization practices at religious institutions in the United States to help guide further suggestions for enhancing inclusivity in these practices. This study utilized a voluntary survey that was distributed to anatomy educators and human body donor programs to complete if they were from a religious institution that utilized human body donors. Based on the data collected in this study (n = 39), most religious institutions have some form of donor memorialization practices, which may or may not include a formal memorial service. In these practices described by survey participants, religion was commonly represented using an interfaith approach, in which campus ministry often assisted in planning and facilitating the memorialization. Those with masses/services refer to them by different names, and most occur in a religious-specific place on campus. In conclusion, among survey participants at religious institutions that utilize and memorialize human body donors, most take an inclusive interfaith approach to their memorialization practices, as this can be more representative of the body donors and students who learn from them.

Are YouTube videos about skull bone anatomy useful for students?

The aim of this study was to evaluate the content, quality, and functionality of YouTube videos on the anatomy of skull bones and to measure their educational usefulness. In this cross-sectional study, the keywords "skull bones" and "skull anatomy" were searched in the YouTube search tab. Demographic data such as type, source, duration, upload date, and view rates of the videos were recorded. The quality and content of the videos were measured using the total content score (TCS), modified DISCERN scale, JAMA score, and Global Quality Scale (GQS). SPSS 26.0 software was used for statistical analysis. Twenty-five (34.7%) of the first 72 videos found by keyword searches were included in the study. According to the GQS criteria, six of them (24%) were considered useful and 19 (76%) not useful. There was a strong statistically significant correlation between the GQS and DISCERN scores (r = 0.813, p < 0.001). There were strong statistically significant positive correlations between TCS and GQS scores (r = 0.887, p < 0.001) and between TCS and modified DISCERN scores (r = 0.691, p < 0.001). Additionally, there was a moderately strong statistically significant positive correlation between GQS and JAMA scores (r = 0.507, p < 0.05). There were also moderately strong statistically significant correlations between JAMA score and DISCERN score (r = 0.521, p < 0.001), video length (r = 0.416, p < 0.05), number of comments (r = 0.457, p < 0.05), and number of "likes" (r = 0.608, p < 0.001). There was a moderately strong statistically significant positive correlation between TCS and JAMA scores (r = 0.431, p < 0.05). Most YouTube videos have insufficient information about skull bones to meet the expectations of medical and dental school curricula. Anatomists and institutions should be encouraged to prepare and present YouTube videos using assessment systems such as DISCERN, JAMA, GQS, and TCS, in line with current anatomy curricula.

Use of Clinically Oriented Laboratory Manuals in a Prosection Gross Anatomy Laboratory during COVID-19

Gross anatomy is a critical course for the development of a variety of skills such as anatomical knowledge and spatial, critical, and clinical reasoning. There have been few attempts to integrate clinical applications in gross anatomy, with the majority of these being in the lecture hall and not in the laboratory. Clinical cases and guided questions were added to a laboratory manual (Clinically Oriented Laboratory Manuals (COLMs)) in a first-year medical gross anatomy prosection course during COVID-19. The effectiveness of the COLMs was analyzed using in-laboratory assessments between treatment and control groups, as well as student perceptions. There was no significant difference between in-lab assessment scores between students with or without the COLMs in 2020 (t1304.735= 0.647, p ;= 0.518). Student perceptions demonstrated that 61.6% strongly agreed or agreed that the COLMs were a good way to learn anatomy and 32.0% desired more COLMs in the lab. Overall, COLMs did not increase student knowledge by the end of a session. Students thought the COLMs were a good tool to learn anatomy because they helped become more clinically aware; however, students desired better implementation of the COLMs. The addition of COLMs in the laboratory is a potential method to address the need for clinical applications within the gross anatomy laboratory.

Supplementary Information

The online version contains supplementary material available at 10.1007/s40670-023-01970-1.

Application of augmented reality models of canine skull in veterinary anatomical education

Veterinary anatomy plays a crucial role in the curriculum for veterinary medicine and surgery. The integration of modern information technology in veterinary education can greatly benefit from innovative tools such as augmented reality (AR) applications. The aim of this study was to develop an accurate and interactive three-dimensional (3D) digital model of an animal skull using AR technology, aiming to enhance the learning of skull anatomy in veterinary anatomy education. In this study, a canine skull specimen was isolated, and the skull bones were scanned using a structured light scanner to create a 3D digital model of the canine skull, which was found to be indistinguishable from the original specimen by measurement of skull proportions. Furthermore, the interactive AR model of the canine skull, displayed using Unity3D, was subjected to testing and evaluation by 60 first-year veterinary medical students attending the gross anatomy of the animal. The students were divided into two groups: the traditional group and AR group. Both groups completed an objective test and a questionnaire. The evaluation of learning effectiveness in the test revealed no significant difference between the traditional group (which learned using textbooks and a canine skull specimen) and AR group (which learned using AR tools). However, in the questionnaire, students displayed high enthusiasm and interest in using the AR tool. Therefore, the application of AR tools can improve students' motivation for learning and enhance the comprehension of anatomical structures in three dimensions. Furthermore, this study exemplifies the use of AR as an auxiliary tool for teaching and learning in veterinary anatomy education.

Can video-assisted and three-dimensional (3D) anatomy teaching be an alternative to traditional anatomy teaching? Randomized controlled trial on muscular system anatomy

The aim of this study was to determine the optimal method for teaching human anatomy by comparing classical laboratory (traditional), video-assisted and three-dimensional (3D) application methods for students who had previously received only online academic anatomy education. GPower 3.1.9.4 was used for power analysis to establish sample size. After power analysis, it was decided to have 28 people in each group. Participants were given pre-anatomy education tests and divided into four matched groups: Group 1: no additional education, Group 2: Video-assisted education, Group 3: Applied 3D anatomy education, Group 4: Practical laboratory anatomy education. Each group received 5 weeks of education in muscular system anatomy. The pre-test results showed no statistically significant differences among the groups. The post-test results showed statistically significant improvement in scores (p < 0.001): group 4; 59%, group 3; 33%, group 2; 9%. The difference between group 1 and group 2 was statistically significant (p < 0.01). The difference between the groups in post hoc comparisons with all other groups was also statistically significant (p < 0.001). The results of this study show that while the optimal anatomy teaching method is conservative, the best alternative is 3D application.

Show them what they can't see! An evaluation of the use of customized 3D printed models in head and neck anatomy

Difficulty in visualizing anatomical structures has been identified as a challenge in anatomy learning and the emergence of three-dimensional printed models (3DPMs) offers a potential solution. This study evaluated the effectiveness of 3DPMs for learning the arterial supply of the head and neck region. One hundred eighty-four undergraduate medical students were randomly assigned to one of four learning modalities including wet specimen, digital model, 3DPM, and textbook image. Posttest scores indicated that all four modalities supported participants' knowledge acquisition, most significantly in the wet specimen group. While the participants rated 3DPMs lower for helping correct identification of structures than wet specimens, they praised 3DPMs for their ability to demonstrate topographical relationships between the arterial supply and adjacent structures. The data further suggested that the biggest limitation of the 3DPMs was their simplicity, thus making it more difficult for users to recognize the equivalent structures on the wet specimens. It was concluded that future designs of 3DPMs will need to consider the balance between the ease of visualization of anatomical structures and the degree of complexity required for successful transfer of learning. Overall, this study presented some conflicting evidence of the favorable outcomes of 3DPMs reported in other similar studies. While effective for anatomy learning as a standalone modality, educators must identify the position 3DPM models hold relative to other modalities in the continuum of undergraduate anatomy education in order to maximize their advantages for students.

Immersive Innovations: Exploring the Diverse Applications of Virtual Reality (VR) in Healthcare

Virtual reality (VR) has experienced a remarkable evolution over recent decades, evolving from its initial applications in specific military domains to becoming a ubiquitous and easily accessible technology. This thorough review delves into the intricate domain of VR within healthcare, seeking to offer a comprehensive understanding of its historical evolution, theoretical foundations, and current adoption status. The examination explores the advantages of VR in enhancing the educational experience for medical students, with a particular focus on skill acquisition and retention. Within this exploration, the review dissects the applications of VR across diverse medical disciplines, highlighting its role in surgical training and anatomy/physiology education. While navigating the expansive landscape of VR, the review addresses challenges related to technology and pedagogy, providing insights into overcoming technical hurdles and seamlessly integrating VR into healthcare practices. Additionally, the review looks ahead to future directions and emerging trends, examining the potential impact of technological advancements and innovative applications in healthcare. This review illuminates the transformative potential of VR as a tool poised to revolutionize healthcare practices.

Anatomical Ignorance Resulting in Iatrogenic Causes of Human Morbidity

This article discusses how inadequate anatomy education contributes to iatrogenic causes of human morbidity and mortality. Through a review of the relevant literature, high-yield clinical cases were identified in which a lack of sufficient anatomical knowledge contributed to patient morbidity, such as abscess formation and neuropathy as a result of improper intramuscular injections, superior gluteal nerve injuries due to surgical procedures, and misdiagnoses due to physicians' inability to examine and correlate clinical and radiological findings. The importance of a multimodal learning approach in anatomy education for medical students, which includes the utilization of the cadaveric dissection approach to emphasize spatial understanding, is crucial for the development of competent physicians with a deep-rooted foundational knowledge of anatomy and related concepts, such as physiology, pathology, and radiology. It cannot be understated that anatomy education and a lack of knowledge of anatomy and related concepts may influence iatrogenic causes of human morbidity and mortality. Therefore, all efforts should be made to ensure that students develop a strong foundational anatomy knowledge during their preclinical years.

Cadaver Dissection Experience for First-Time Dissectors: a Hypothetical Three-Pronged Approach for Student Preparation

This systematic review synthesized evidence for the development of a preparatory process for first-time dissectors, geared toward improving cadaver dissection (CD) experiences. Eleven studies focused on pre-CD intervention were selected from a literature search in PubMed, the Education Resources Information Centre (ERIC), Google Scholar, PsycNET, and the Cochrane Library. A three-pronged preparatory process was formulated for first-time dissectors based on the evidence from the review. The process includes (1) background assessment; (2) pre-CD education; and (3) gradual exposure and desensitization. The preparatory process shows some hypothetical potential for decreasing negative CD-related experiences, but it still needs validation before implementation.

Perceptions of Students and Teachers Regarding the Impact of Cadaver-Less Online Anatomy Education on Quality of Learning, Skills Development, Professional Identity Formation, and Economics in Medical Students

Anatomy is one of the most important basic sciences in medical education and is the foundation for doctors to develop clinical skills. In the last few years, anatomy teaching has been transformed from hands-on practice into online modalities. In this study, we aimed to determine the perceptions of students and teachers about learning anatomy without using cadavers (cadaver-less) from a knowledge, technological, and humanistic perspective. The research was carried out in the Faculty of Medicine at Hasanuddin University, located in South Sulawesi, Indonesia, over a period from June to August 2021. A focus group discussion was extended to all medical students in their first year of study following their completion of online anatomy lessons. Furthermore, educators responsible for instructing anatomy in the initial year were sent an invitation to participate in a one-on-one interview with the principal investigator. In general, the results of the study complied with what has been known from the literature about the quality of online learning and its advantages and disadvantages. However, our discussions with students and interviews with teachers revealed that anatomy education without the use of cadavers is perceived as undesirable as it negatively impacts the identity formation of the future physician. It also takes away the opportunity for students to develop empathy for humanity.

An exploration of students' use of digital resources for self-study in anatomy: a survey study

BACKGROUND

The development of technology has provided new ways for active engagement and for visualizing structures in anatomy education including digital resources that may be used outside of the classroom. To support students' learning, there is a need to better understand students' experiences of using digital resources. This study aimed to identify which resources students use, their preferences, the purpose of using them, and barriers to adopting tools for self-study of anatomy.

METHODS

A mixed -methods approach combining qualitative and quantitative data was used to collect and analyse data. Two consecutive cohorts of first-semester medical students (n = 278) were invited to complete an anonymized survey. The survey consisted of itemized questions, free-text space for comments, and one open-ended question. Descriptive statistics were used for demographics and itemized answers. Comments and free-text answers were analysed qualitatively using abductive inference.

RESULTS

One hundred and twenty-seven students completed the survey (response rate 45%). Most students (46%) reported that they spend more than 30 h/per week on self-study. They used a variety of digital resources for different purposes. Most students used digital resources to prepare for examinations, when they encountered difficulties and after going through a section. Students reported that they would use digital resources to a greater extent if they were offered an introduction, if resources were more accessible, and if they could interact with a tutor. The free-text responses revealed that digital resources helped students understand anatomy, allowed them to make active choices, provided tools for repetition and memorization, accelerated and simplified the learning process, and complemented other learning resources.

CONCLUSIONS

Digital resources may support the understanding of anatomy by offering alternative modes of learning and providing a valuable complement to other learning resources. Educators should consider how digital resources are introduced and offer support and feedback.

Achievement Motivation Among Health Sciences and Engineering Students During COVID-19

Background

COVID-19 has brought many hurdles, and people have had to adjust to new ways. The online class was one such adjustment. Students in health science and engineering streams have more practical learning than theory. The online classes halted the normal teaching-learning processes and brought in unique set of difficulties which was a challenge to both the teacher and the student.

Purpose

This study was undertaken to understand the effect of online learning on achievement motivation among health sciences and engineering students during the COVID-19 pandemic and to find out if there is a significant difference across gender, age, type of internet connectivity, and rural/urban areas.

Methods

This was a survey-based comparative study. The sample size was 440 and consisted of health science and engineering undergraduate college students, both male and female, in the age group of 17-24 years. Data were collected through the Achievement Motivation Scale given online. A descriptive, z-test, and ANOVA were used to analyze the data.

Results

The average need for motivation was shown by 50% of engineering students and 54.55% of health science students. High motivation was shown by only 1.36% of engineering students and 0% of health science students. Females showed better achievement motivation than males, and those having good connectivity and staying in urban areas showed higher achievement motivation.

Conclusion

Lockdowns cannot be predicted, but the government needs to be effective in its planning for the rural population with regards to internet connectivity. Policymakers concerned with education should come up with modified teaching strategies for better student engagement. Even during regular off-line teaching, one day a week should be devoted to online classes so that this becomes part of the regular curriculum.

Enhancing Anatomy Education Throu€gh Flipped Classroom and Adaptive Learning A Pilot Project on Liver Anatomy

OBJECTIVES

Anatomy education plays a critical role in medical practice, and the level of anatomical knowledge among students and physicians significantly impacts patient care. This article presents a pilot project aimed at exploring the effectiveness of the Area9's Rhapsode platform, an intelligent tutoring system that uses artificial intelligence (AI) to personalize learning and collect data on mastery acquisition.

METHODS

The study focused on liver anatomy (microscopic and macroscopic anatomy, embryology, clinical anatomy) and employed a flipped classroom approach, incorporating adaptive learning modules and an interactive in-class session. A total of 123 first-year medicine students (55 M/68F) participated to the study. Content and resources of the module were adaptable to various digital devices. Statistics were compiled based, on the one hand, on the measurement of mastery for every single learning objective provided automatically by the platform via the student interactions with the system probes (questions); on the other hand, metacognition data were worked out by crossing mastery data with the self-awareness declared in every question and learning resource by each learner.

RESULTS AND CONCLUSIONS

At the outset of the study, students displayed a 18.11% level of conscious incompetence and a 19.43% level of unconscious incompetence. Additionally, 50.86% of students demonstrated conscious competence. By the conclusion of the learning module, the level of conscious incompetence had decreased to 1.87%, and 98.73% of students exhibited conscious mastery of the materials. The results demonstrated improved learning quality, positive repurposing of study time, enhanced metacognitive awareness among students, with most students demonstrating conscious mastery of the materials and a clear understanding of their level of competence. This approach, by providing valuable insights into the potential of AI-based adaptive learning systems in anatomy education, could address the challenges posed by limited teaching hours, shortage of anatomist, and the need for individualized instruction.

Using represented bodies in Renaissance artworks to teach musculoskeletal and surface anatomy

Surface anatomy is an important skill for students in preparation for patient care, and peer examination is often used to teach musculoskeletal and surface anatomy. An alternative pedagogical approach is to use bodies represented in artworks. Represented bodies display fictive anatomy, providing students with the opportunity to apply their musculoskeletal knowledge and to think critically when evaluating the anatomical fidelity of a represented body. An elective course at the University of Michigan enabled undergraduate students to analyze the musculoskeletal and surface anatomy depicted in Renaissance artworks. Students traveled to Italy in 2018 (n = 14) and 2022 (n = 15) to analyze the fictive anatomy portrayed in artistic sculptures and musculoskeletal structures depicted in wax anatomy models and sculpted skeletons. In assignments, students were asked to identify musculoskeletal structures as portrayed in the context of represented anatomy created by Italian Renaissance artists and to assess the fidelity of the depicted anatomy. The students also applied their knowledge of musculoskeletal anatomy to describe body position and evaluate muscle function in their assessments of the accuracy or inaccuracy of the fictive anatomy. The students reported that evaluating the anatomical fidelity of represented bodies in artworks supported their learning of musculoskeletal and surface anatomy, and that their critical thinking skills improved in the course. Evaluation of the anatomical fidelity of represented bodies in artworks is an effective pedagogical approach that can be implemented in art museums as an adjunctive learning experience to deepen students' musculoskeletal and surface anatomy knowledge and further develop their critical thinking skills.

The impact of human cadaveric dissection on professional identity formation in medical students

BACKGROUND

As technology advances, some schools are moving away from human cadaveric dissection to teach anatomy, leading to concern regarding the possible loss of a professional identity building experience. This study explored the role of dissection in students' professional identity formation.

METHODS

A mixed-methods study was conducted using survey methodology and semi-structured interviews of medical students at an American-style graduate-entry medical school in Singapore. The questionnaire adopted the conceptual framework of the Ring Theory of Personhood and the MacLeod-Clark Professional Identity Scale was used to measure professional identity, followed by semi-structured interviews of students using Braun and Clarke's six-phase reflexive thematic analysis.

RESULTS

Respondents did not differ substantively from non-respondents by age, nationality, or ethnicity, and year of entering medical school, however, they were slightly more female dominant. The number of hours of hands-on participation in dissection showed no significant relationship (r2 = 0.010; p = 0.424) with professional identity formation measured by the MacLeod-Clark Professional Identity Scale. Despite the survey results, semi-structured interviews revealed rich and nuanced findings suggesting the influence of dissection in participants' professional identity formation through deepening students' appreciation of humanistic values and enhancing their notions of patients' personhood. Notably, students without dissection experience did not express these sentiments and were orientated towards knowledge acquisition.

CONCLUSION

While our findings do not suggest that dissection strongly impacts students' professional identity formation, students shared thought-provoking experiences which suggest some level of its contribution. Careful consideration of this phenomenon should be exercised prior to removing dissection in favour of technological alternatives.

Students Satisfaction with the Use of PlayDoh® as a Tool to Actively Learn 3D Veterinary Anatomy More Accurately

Understanding veterinary anatomy is an essential skill for the study of veterinary medicine as well as for diagnostic imaging and therapy. Dissection facilities are increasingly limited in some schools and its alternatives have often focussed on using two-dimensional images. However, the study of veterinary anatomy is mainly concerned with identifying structures and spatial relationships between them within a 3D space, and the use of 2D teaching approaches does not provide accurate information. We tested whether PlayDoh® student-built models could be an inexpensive potential tool beneficial to veterinary students learning anatomy in three distinct scenarios: (1) during a lecture, introducing a new concept; (2) during a flipped classroom approach where a video-podcast lecture was to be watched by the students prior to the lecture and (3) as a revision session where students brought their own questions and created, under supervision, their own models to respond to them. PlayDoh® sessions benefitted 172 first-year Veterinary Medicine and Animal Science students. The most accurate visualisation of anatomical structures in 3D was the principal benefit mentioned by the learners (35%). In addition, the learners noted that the technique would help with 'retention' (18%). According to the students' preferences, it was possible to create four groups: A, B, C and D. Group A encompassed the methodologies most liked by students and consisted of lectures, dissection and demonstrations. Group B included demonstrations and 3D modelling using PlayDoh®. Group C consisted of 3D modelling using PlayDoh®, books and online and, finally, group D included the methodologies least preferred by students, i.e. online and PBL. Our findings suggest that using 3D PlayDoh® modelling has potential as a method to enhance the learning of veterinary anatomy and may be most valuable to those students learning more complex subject areas that require a 3D teaching approach in practice.

Supplementary Information

The online version contains supplementary material available at 10.1007/s40670-023-01892-y.

Student Experiential Activities: A Novel Strategy to Teach Neuroanatomy in Lectures

Introduction Activity-based teaching is a widely used pedagogical tool for enhancing anatomy learning. However, involving the learner in experiential activities in lectures is an unexplored area in medical research. The present study aims to determine whether incorporating student experiential activities into lectures impacts student's learning of neuroanatomy. Materials and methods We used a pre-test/post-test experimental study design to compare the learning outcome between the experiential activity based lecture and traditional lectures. We divided 150 students into control (75 students) and intervention groups (75 students). To assess the baseline knowledge on the subject, the students attended 20 clinical scenario-based multiple-choice questions two weeks before the lectures. Then, both groups attended two lecture sessions on the functional areas of the brain. In the control group, the students drew the boundaries of a particular cerebral area and labeled its function and clinical symptoms. In the intervention group, the learners participated in experiential activities while following the instructions. The lecturer used their response as a scaffold to explain the function and clinical correlation of a specific part of the cerebral cortex. The same test questions were given to the students one week after the final lecture session to evaluate their level of understanding. We analyzed the scores of 111 students (57 students in the control group and 54 students in the interventional group) who attended the two lectures and pre- and post-test sessions. Students also completed a validated 10-item feedback questionnaire regarding their perception of the teaching sessions. Results The mean score improvement for the control and intervention groups was 4.86 ± 1.53 and 6.39 ± 2.93, respectively. The score improvement of the activity group was significantly higher than that of the control group (p = 0.006; d = 0.65). The perception scores of interest, knowledge attainment, and satisfaction were significantly higher in the intervention group compared to the control group. Conclusion The findings of this study suggest that experiential activities facilitate better comprehension of abstract neuroanatomical concepts as compared to traditional didactic teaching.

3D printing as a pedagogical tool for teaching normal human anatomy: a systematic review

BACKGROUND

Three-dimensional-printed anatomical models (3DPAMs) appear to be a relevant tool due to their educational value and their feasibility. The objectives of this review were to describe and analyse the methods utilised for creating 3DPAMs used in teaching human anatomy and for evaluating its pedagogical contribution.

METHODS

An electronic search was conducted on PubMed using the following terms: education, school, learning, teaching, learn, teach, educational, three-dimensional, 3D, 3-dimensional, printing, printed, print, anatomy, anatomical, anatomically, and anatomic. Data retrieved included study characteristics, model design, morphological evaluation, educational performance, advantages, and disadvantages.

RESULTS

Of the 68 articles selected, the cephalic region was the most studied (33 articles); 51 articles mentioned bone printing. In 47 articles, the 3DPAM was designed from CT scans. Five printing processes were listed. Plastic and its derivatives were used in 48 studies. The cost per design ranged from 1.25 USD to 2800 USD. Thirty-seven studies compared 3DPAM to a reference model. Thirty-three articles investigated educational performance. The main advantages were visual and haptic qualities, effectiveness for teaching, reproducibility, customizability and manipulability, time savings, integration of functional anatomy, better mental rotation ability, knowledge retention, and educator/student satisfaction. The main disadvantages were related to the design: consistency, lack of detail or transparency, overly bright colours, long printing time, and high cost.

CONCLUSION

This systematic review demonstrates that 3DPAMs are feasible at a low cost and effective for teaching anatomy. More realistic models require access to more expensive 3D printing technologies and substantially longer design time, which would greatly increase the overall cost. Choosing an appropriate image acquisition modality is key. From a pedagogical viewpoint, 3DPAMs are effective tools for teaching anatomy, positively impacting the learning outcomes and satisfaction level. The pedagogical effectiveness of 3DPAMs seems to be best when they reproduce complex anatomical areas, and they are used by students early in their medical studies.

Online anatomy education during the Covid-19 pandemic: Opinions of medical, speech therapy, and BSc Anatomy students

With the emergence of the Covid-19 pandemic in 2020, it was difficult to predict if the "cadaveric-based (golden) standard" of teaching anatomy would be possible in the unforeseeable future. This forced traditional anatomical teaching and learning practices to be transitioned to remote online platforms. This study explored the opinions of anatomy students (n = 51), on their online learning experience of anatomy during the Covid-19 pandemic. A mixed methods approach using a descriptive, exploratory study design was conducted, by use of an online survey. The survey consisted of a six-point Likert scale and was assembled into four sub-categories. Likert scale options ranged from; strongly disagree, to strongly agree, and not applicable. Results obtained seem to tally with expectations, indicating an adequate theoretical course component with room to improve practical online teaching. Most participants had a positive perception of the theoretical course content, duration, and platforms of communication. Virtual classes were simple to navigate with few technical difficulties experienced by the participants. Students also noted having access to sufficient study material, videos, and additional online material. Overall, more than half of all participants reported adapting well to the remote learning environment, however, the greatest challenge experienced highlighted a sense of deprivation from the lack of cadaver exposure and hands-on instruction. This research highlighted the effects of the pandemic on the modality of anatomy education and how it affected students. Although anatomy is multi-modal, it can be concluded that it is possible to achieve academic success by using online learning methods.

Creation of 21st century anatomy facilities: designing facilities for integrated preclinical education in the Middle East

BACKGROUND

The establishment of new anatomy facilities needs to accommodate a combination of modern teaching modalities that best align with evidence-based best teaching practices. This article describes the process in which our state-of-the-art anatomy laboratories were designed and implemented, and how these facilities support aspects of modern anatomy education.

METHODS

A list of best practices for anatomy education in a modern medical curriculum was summarized from the literature. To assess student satisfaction, a survey related to student perception of the anatomy facilities (5-point Likert scale) was conducted.

RESULTS

Our educational modalities include a broad range of teaching approaches. The Instructional Studio houses prosected and plastinated specimens, and cadaveric dissections are performed. Each of our three Dry Laboratories allow for active learning and interaction between small student groups. The Webinar Room acts as a conference room for departmental and online meetings, discussions with students, and dialogues with affiliated hospitals via the internet. The Imaging Center is equipped with a Sectra® medical educational platform, CAE Vimedix® Virtual Medical Imaging Ultrasound Training System, and Philipps Lumify® Ultrasound devices to train students to conduct and interpret sonographic images. Moreover, the Complete Anatomy® program is made available to all our students.

CONCLUSION

The layout of our newly created Anatomy Facilities allows for all aspects of modern medical education mentioned in the literature. These educational modalities and teaching approaches are highly appreciated by our faculty and students. Moreover, these technologies allowed for a smooth transition from on-site anatomy teaching to online education during the COVID pandemic.

Exploring the inclusion of anatomical variation in medical education

The role of anatomical variability in safe clinical practice is underappreciated. A lack of familiarity of anatomical variations is at the center of a multitude of medical and surgical errors. The recent rise in litigation due to such errors suggests that patient care may be compromised. This makes the knowledge of anatomical variation essential to medical education. Empirical studies were identified by searching several databases and repositories, and the Medical Education Research Quality Instrument (MERSQI) was used to assess study quality. Eight studies were eligible for this systematic review; three of which were conference abstracts. Thematic summary of these studies yielded six themes namely: (1) importance of anatomical variation in medical education; (2) the ideal time to introduce anatomical variation in medical education; (3) important anatomical variations to include in medical education; (4) approaches to teaching anatomical variation; (5) assessing knowledge on anatomical variation; (6) barriers to including anatomical variation in medical education. Including anatomical variations in medical education would improve clinical reasoning and surgical outcomes. Following the completion of this review, three recommendations were made: (1) increasing the emphasis of anatomical variation in medical education; (2) developing more resources for anatomical variation education; (3) investigating the implications of lack of knowledge of anatomical variation in medical education through further research.

On the added benefit of virtual anatomy for dissection-based skills

Technological approaches deploying three-dimensional visualization to integrate virtual anatomy are increasingly used to provide medical students with state-of-the-art teaching. It is unclear to date to which extent virtual anatomy may help replace the dissection course. Medical students of Johannes Kepler University attend both a dissection and a virtual anatomy course. This virtual anatomy course is based on Cinematic Rendering and radiological imaging and teaches anatomy and pathology. This study aims to substantiate student benefits achieved from this merged teaching approach. Following their dissection course, 120 second-year students took part in objective structured practical examinations (OSPE) conducted on human specimens prior to and following a course on Cinematic Rendering virtual anatomy. Likert-based and open-ended surveys were conducted to evaluate student perceptions of both courses and their utility. Virtual anatomy teaching was found to be unrelated to improvements in student's ability to identify anatomical structures in anatomical prosections, yielding only a 1.5% increase in the OSPE score. While the students rated the dissection course as being more important and impactful, the virtual anatomy course helped them display the learning content in a more comprehensible and clinically applicable way. It is likely that Cinematic Rendering-based virtual anatomy affects knowledge gain in domains other than the recognition of anatomical structures in anatomical prosections. These findings underline students' preference for the pedagogic strategy of the dissection course and for blending this classical approach with novel developments like Cinematic Rendering, thus preparing future doctors for their clinical work.

The Future of Morphological Science Education: Learning and Teaching Anatomy in the Wake of the COVID-19 Pandemic

The COVID-19 Pandemic has conveyed an unprecedented worldwide challenge. Although there is much emphasis on caring for patients and communities, the high incidence of SARS-CoV-2 had seriously disturbed education and calls for prompt as well as serious consideration from educators in medical schools. The necessity to teach and prepare prospective medics, as well as clinicians, has certainly not been as intense as it is currently. The global effects of coronavirus disease 2019 may cause a permanent change in the education of future clinicians. The COVID-19 era presented logistical and practical obstacles and fears for the patients' well-being, taking into consideration the fact that students may be potential channels for the spread of the virus when asymptomatic and may get infected while being in training and attending lectures. This paper discusses the present state of morphological science education, depicting the effect of COVID-19 on learning environments, as well as highlights the probable effects of COVID-19 on medical instruction in the future.

Medical Faculty Perspectives Toward Cadaveric Dissection as a Learning Tool for Anatomy Education: A Survey Study in India

Cadaveric dissection, as a learning tool, has been a part of Indian medical education. Worldwide, with reforms in medical education and the introduction of new learning modalities, cadaveric dissection has been complemented with other modalities such as living anatomy and virtual anatomy. This study aims to collect the feedback of faculty members regarding the role of dissection in the present context of medical education. The method of the study involved a 32-item questionnaire to collect responses; they were collected using the 5-point Likert scale along with two open-ended questions. In general, the closed questions covered these sections: learning styles, interpersonal skills, teaching and learning, dissection, and other learning modes. The principal component analysis was used to explore the multivariate relationships among the items' perceptions. The multivariate regression analysis was conducted between the construct and the latent variable to develop the structural equation model. Four themes, PC1 (learning ability with structural orientation), PC2 (interpersonal skill), PC3 (multimedia-virtual tool), and PC5 (associated factors) had positive relation and were treated as a latent variable motivation for dissection, and theme 4 (PC4, safety) had a negative correlation and was treated as a latent variable repulsion for dissection. It was found that the dissection room is an important place for learning clinical and personal skills, along with empathy, in anatomy education. Safety issues and implementation of stress-coping activities during the induction phase are required. There is also a need to use mixed-method approaches that integrate technology-enhanced learning such as virtual anatomy, living anatomy, and radiological anatomy with cadaveric dissection.

Study of nonsynchronous online teaching of regional anatomy for international students integrated with medical humanities and local culture during COVID-19 pandemic

PURPOSE

The COVID-19 pandemic imposed unexpected disruptions to anatomical educational practice, the teaching of regional anatomy for international students which has changed to an online format and faces various challenges. The challenges include creating online education homogeneous/equivalent to offline education, introducing local culture to international students, and educating students in medical humanities and ethics.

METHODS

To address these problems, the teaching staff integrated medical humanities and local culture into nonsynchronous online teaching of regional anatomy.

RESULTS

The nonsynchronous online teaching with interpreted videos of dissections does not significantly affect the experimental and total scores of regional anatomy courses for international students. Integrating medical humanities and local culture into this teaching model is appreciated by them and also has a good teaching effect.

CONCLUSION

Students not only gained professional knowledge but also obtained enhanced exposure to local culture and professional spirit from this regional anatomy education.

The impact of modifications in cadaver dissection time on student learning outcomes in a doctor of physical therapy program

Human anatomy is a foundational component of medical and allied health professional education. Doctor of Physical Therapy (DPT) programs are required to teach anatomy, however the pedagogies used are at the discretion of faculty and institutions. Cadaver dissection may have been the predominant instruction methodology in DPT programs in the past; new technology provides alternative interactive teaching methods. This paper describes the modifications in an anatomy curriculum over 5 years in one DPT program, and the impact on student perception and learning outcomes. This was a retrospective, quantitative study that utilized a survey to collect data on student perceptions about the anatomy pedagogy; the learning outcomes analyzed were grades and licensure exam pass rates. We report on outcomes for five cohorts within one DPT program. IRB approval was obtained for the research. Despite the decrease in cadaver laboratory time after 2016, students' final exam grades in Gross Anatomy improved and the first time pass rate for the national licensure exam increased. Most students rated cadaver laboratory and the active learning assignments that replaced traditional cadaver laboratory time as valuable to their learning; however, there were differences in opinions between cohorts. Although the outcomes might not reflect a direct result of dissection time, the study confirmed that using alternative methods for teaching anatomy did not hinder student performance. Using innovative pedagogy allows educators to achieve student success in spite of decreased gross dissection time.

"Preparing them for the profession": An interpretative phenomenological analysis of anatomy educators coping with complexity in the United Kingdom curriculum

Efforts to integrate the basic sciences into the ever-changing curriculum are a trending area of research in health professions education. Low-stakes, high-frequency assessment methods such as the progress test are now widely implemented in the United Kingdom and Northern Ireland as a means of furthering curricular integration toward contemporary goals of competency and professional identity formation. The anatomy educator's experience vis-à-vis these curricular changes is not well understood. This study aimed to explore how anatomy educators make sense of the shifting demands of their role. The interviews were semi-structured, particularly concerned with the phenomenon of teachers adapting to the complexity of their learning environment. The study used interpretative phenomenological analysis (IPA) to focus on the lived experiences of participants coping with the phenomena in question: how do anatomy educators make sense of the learning environment in the United Kingdom? Interviews were transcribed verbatim and interpreted inductively, identifying four key themes: confidence through connectedness, variations in appraisals of curricular integration, managing expectations to perform in paradoxical situations, and the emergence of innovative teaching. Results point to the learning environment as a complex system and highlight the importance of feeling support from and connection to colleagues, enabling individual educators to develop confidence, meet the top-down demands of changing curricula, and experience personal identity development and uncertainty tolerance within their role. This IPA study offers insight into the lived experiences of anatomy educators whose experiential interpretations of a complex and changing curriculum can uniquely inform stakeholders in health professions education.

Predictive factors of academic success in neuromusculoskeletal anatomy among doctor of physical therapy students

Predictors of academic success in anatomy have been studied, but not in Doctor of Physical Therapy (DPT) students. The objectives of this study were to (1) explore predictors of academic success in a DPT anatomy course, (2) evaluate sex-based differences in the predictors of academic success and their influence on anatomy course grade, and (3) investigate the influence of the DPT anatomy course on visual-spatial ability. Forty-nine DPT students completed a demographic questionnaire, Learning and Study Strategies Inventory (LASSI), and Mental Rotations Test (MRT) before the ten-week anatomy course (MRT-1) and repeated the MRT at the end of the course (MRT-2). Anatomy course grade was determined based on quizzes and written and practical examinations. Multiple regression analysis showed significant associations between the predictor variables age (p = 0.010) and the LASSI anxiety subscale (p = 0.017), which measures anxiety coping, with the anatomy course grade. On the MRT-1, male DPT students attempted and correctly answered more questions than females (both, p < 0.0001). Female students had higher LASSI self-regulation and use of academic resources subscale scores (both, p < 0.05). In the 44 DPT students that completed the MRT-2, the number of correct and attempted responses increased following the anatomy course (p < 0.0001). Age and anxiety coping, but not sex, are predictors of anatomy course grades in DPT students. Mental rotations test scores improved following the anatomy course. The LASSI should be used in other cohorts to identify students with low anxiety subscale scores in order to provide targeted support.

How human anatomy is being taught in entry-level occupational therapy programs in the United States

There has been a lack of empirical information regarding anatomy education for occupational therapists (OTs). Insufficient anatomy education can result in underprepared entry-level OTs, who may then produce increased practice errors and reduced patient care. The objective of this study was to investigate how human gross anatomy was taught in entry-level occupational therapy programs throughout the United States and evaluate faculty perspectives on its teaching. A mixed-methods survey was sent to the directors of entry-level occupational therapy programs in the United States. Survey responses were compiled to best represent the current occupational therapy education environment. Ten of sixty-eight participating programs did not teach anatomy as a part of their standard occupational therapy curriculum. Of the programs that featured entry-level occupational therapy anatomy courses, the majority were taught by either a non-clinician anatomist or an OT without specialized anatomy training in a region-based, standalone anatomy course during the first semester. In most programs, anatomy was taught to only occupational therapy students using lecture, models/plastination, and/or prosection. Teaching tools, methods, faculty, and programmatic factors were perceived as contributing to program strengths. The design, resources, and faculty involved in the occupational therapy anatomy course may negatively impact the perceived quality of an occupational therapy anatomy program and its students. Participants identified several consequences of insufficient anatomy preparedness, including academic, clinical reasoning, treatment skills, patient care, and professional identity concerns. Occupational therapy educators may want to be aware of the current climate of occupational therapy anatomy education in the United States when designing entry-level occupational therapy anatomy curricula.

Fostering uncertainty tolerance in anatomy education: Lessons learned from how humanities, arts and social science (HASS) educators develop learners' uncertainty tolerance

Uncertainty tolerance, individuals' perceptions/responses to uncertain stimuli, is increasingly recognized as critical to effective healthcare practice. While the Covid-19 pandemic generated collective uncertainty, healthcare-related uncertainty is omnipresent. Correspondingly, there is increasing focus on uncertainty tolerance as a health professional graduate "competency," and a concomitant interest in identifying pedagogy fostering learners' uncertainty tolerance. Despite these calls, practical guidelines for educators are lacking. There is some initial evidence that anatomy education can foster medical students' uncertainty tolerance (e.g., anatomical variation and dissection novelty), however, there remains a knowledge gap regarding robust curriculum-wide uncertainty tolerance teaching strategies. Drawing upon humanities, arts and social sciences (HASS) educators' established uncertainty tolerance pedagogies, this study sought to learn from HASS academics' experiences with, and teaching practices related to, uncertainty pedagogy using a qualitative, exploratory study design. Framework analysis was undertaken using an abductive approach, wherein researchers oscillate between inductive and deductive coding (comparing to the uncertainty tolerance conceptual model). During this analysis, the authors analyzed ~386 min of data from purposively sampled HASS academics' (n = 14) discussions to address the following research questions: (1) What teaching practices do HASS academics' perceive as impacting learners' uncertainty tolerance, and (2) How do HASS academics execute these teaching practices? The results extend current understanding of the moderating effects of education on uncertainty tolerance and supports prior findings that the anatomy learning environment is ripe for supporting learner uncertainty tolerance development. This study adds to growing literature on the powerful moderating effect education has on uncertainty tolerance and proposes translation of HASS uncertainty tolerance teaching practices to enhance anatomy education.

Analysis of a multifaceted interactive pedagogy program in an upper limb anatomy course: A time series study

Many new methods have contributed to the learning of anatomy, including several interactive methods, increasing the effectiveness of educational programs. The effectiveness of an educational program involving several interactive learning methods such as problem-based learning and reciprocal peer teaching was researched in this study. A quasi-experimental before-after study on three consecutive groups of second-year students at the Grenoble School of Medicine was conducted. The lectures were replaced by an educational program based on the problem-based learning method and reciprocal peer teaching. The first session was dedicated to reading clinical cases illustrating the medical concept, so that the learning objectives for the second session could be set. Then, after viewing digital courses, the second session was dedicated to a synthetic presentation by the students themselves, followed by an interactive summary with the teacher. The analysis of 630 students showed a significant increase in the theory test results for those who took part in the intervention: 9.71 versus 9.19 (β = 0.57, P = 0.036). Moreover, satisfaction was high after the intervention (mean = 4.5/5), and when comparing the two pedagogical approaches the students showed a clear preference for the program implemented with the concepts highlighted such as interactivity, in-depth work, group work, and autonomy. A multifaceted interactive pedagogy program could have a significant impact on the results of the theoretical concepts presented and on satisfaction as well as increased investment by students in learning anatomy.

Awareness of Universal Design for Learning among anatomy educators in higher level institutions in the Republic of Ireland and United Kingdom

There is an increasing need to facilitate enhanced student engagement in anatomy education. Higher education students differ in academic preferences and abilities and so, not all teaching strategies suit all students. Therefore, it is suggested that curricula design and delivery adapt to sustain learner engagement. Enhanced learner engagement is a fundamental feature of Universal Design for Learning (UDL). The aim of this study is to determine if anatomy educators in the Republic of Ireland (ROI) and United Kingdom (UK) are aware of UDL and to assess if, and to what extent, it has been implemented in the design and delivery of anatomy curricula for healthcare students. An anonymous online questionnaire was administered to anatomy educators in higher level institutions in the ROI and UK. Inductive content analysis was used to identify the impact of UDL on student learning, engagement, and motivation, as perceived by the participants. The response rate was 23% (n = 61). Nineteen participants stated they knew of UDL. Of these, 15 had utilized UDL in their teaching of anatomy. Analysis indicated that the perception of UDL was mixed. However, the majority of responses relating to UDL were positive. The majority of the respondents were unaware of UDL but identified the frameworks' checkpoints within their curriculum, suggesting they have unknowingly incorporated elements of UDL in their curriculum design and delivery. There is a lack of information on the benefits of explicit utilization of UDL for engagement and motivation to learn anatomy in healthcare programs in the ROI and UK.

Visualizing Anatomy in Dental Morphology Education

Tooth morphology is a foundation course for all dental healthcare students including dentists, dental hygiene, dental therapy, and dental nursing students. This chapter explores the conventional and innovative teaching methods to deliver tooth morphology educational modules. The teaching tools are explored with a 2D and 3D lens, with a particular focus on visualization, student understanding, and engagement. Traditional methods of teaching tooth morphology must be complemented with innovative pedagogical approaches in order to maintain student's attention and accommodate their diverse learning methods. Teaching 3D anatomy enables students to visualize and spatially comprehend the link between various anatomical components. Online tests and quizzes motivate students and are also beneficial in preparing students for exams. Online self-examinations offering visualization with 3D teeth enable students to evaluate their knowledge and offers immediate feedback, which aids in the long-term retention of information. These tools can be as efficient as other teaching methods, allowing the students to study at their own pace and with repetition. The authors conclude that blended and innovative teaching methods should supplement student learning and not replace, traditional face-to-face educational methods.

Altruism in death: Attitudes to body and organ donation in Australian students

Health education, research, and training rely on the altruistic act of body donation for the supply of cadavers. Organ transplantation and research rely on donated organs. Supply of both is limited, with further restrictions in Australia due to requirements for a next-of-kin agreement to donation, irrespective of the deceased's pre-death consent. Research suggests health workers are less likely to support the donation of their own bodies and/or organs, despite recognizing the public good of donation, and that exposure to gross anatomy teaching may negatively affect support for donation. Attitudes to body and organ donation were examined in Australian students studying anatomy. Support for self-body donation (26.5%) was much lower than support for self-organ donation (82.5%). Ten percent of participants would not support the election of a family member or member of the public to donate their body, and just over 4% would not support the election of a family member to donate their organs, with one-to-two percent not supporting this election by a member of the public. Exposure to gross anatomy teaching was associated with an increased likelihood of consideration of issues about body and organ donation, whether for self, family, or the public, and registration as an organ donor. Exposure decreased participants' willingness to donate their own body, with those who practiced a religion least likely to support body donation. Gross anatomy courses provide an opportunity to inform future healthcare workers about altruistic donation, albeit with a recognition that religious or cultural beliefs may affect willingness to donate.

A randomized trial comparing cadaveric dissection and examination of prosections as applied surgical anatomy teaching pedagogies

Anatomy is an important component in the vertical integration of basic science and clinical practice. Two common pedagogies are cadaveric dissection and examination of prosected specimens. Comparative studies mostly evaluate their immediate effectiveness. A randomized controlled trial design was employed to compare both the immediate and long-term effectiveness of dissection and prosection. Eighty third-year medical students undergoing their surgical rotation from the Yong Loo Lin School of Medicine were randomized into two groups: dissection and prosection. Each participated in a one-day hands-on course following a similar outline that demonstrated surgical anatomy in the context of its clinical relevance. A pre-course test was conducted to establish baseline knowledge. A post-course test was conducted immediately after and at a one-year interval to evaluate learner outcome and knowledge retention. A post-course survey was conducted to assess participant perception. Thirty-nine and thirty-eight participants for the dissection and prosection groups, respectively, were included for analysis. There was no significant difference between mean pre-course test scores between the dissection and prosection groups [12.6 (3.47) vs. 12.7 (3.16), P > 0.05]. Both the mean immediate [27.9 (4.30) vs. 24.9 (4.25), P < 0.05] and 1 year [23.9 (4.15) vs. 19.9 (4.05), P < 0.05] post-course test scores were significantly higher in the dissection group. However, when adjusted for course duration [dissection group took longer than prosection group (mean 411 vs. 265 min)], these findings were negated. There is no conclusive evidence of either pedagogy being superior in teaching surgical anatomy. Based on learner surveys, dissection provides a greater learner experience.

Practical anatomy classes: An alternative to improve the learning of middle school students

Anatomy is the branch discipline focused on studying organisms' physical structures and parts. Although technological advances are broadening the anatomy study, the practices of prosection and dissection of human cadavers and animals remain a primary teaching method. Despite the large body of research supporting its benefits, in some countries, cadaveric prosection and dissection of vertebrate animals in secondary education have been banned. In the current study, to prevent a lack of access to anatomical sciences education, the use of plastinated biological specimens was proposed for teaching practical biology in middle and high schools. The study was conducted in the 2014 academic year. Eighty-seven middle school students participated in the experiment. Groups consisted of: (i) theoretical classes only; (ii) theoretical class plus prosection with fresh specimens class; (iii) theoretical class plus expository with plastinated specimens classes. A post-test grade method was used to assess the impact of such tasks on the learning experience of each group. An ANOVA test and multiple regression model were used to analyze the effects of the variables of interest. Our study highlighted that students who underwent the plastination practical class had higher overall performance and a higher mean post-test grade than those in the pure theoretical group. A favorable effect of a positive self-knowledge assessment on the students' performance was found, supporting the self-efficacy model of human behavior. Thus, the current study provides further evidence to support the use of plastinated specimens as an effective teaching method in countries where dissection is not feasible.

Anatomy education beyond the Covid-19 pandemic: A changing pedagogy

The coronavirus disease 2019 (Covid-19) pandemic has induced multifaceted changes in anatomical education. There has been a significant increase in the employment of digital technologies coupled with the upskilling of educators' capacity and altered attitudes toward the digitalization process. While challenges remain, learners have demonstrated capabilities to adapt to digital delivery, engagement and assessment. With alternative and innovative teaching and learning strategies having been trialed and implemented for almost two years, the key question now is what the pedagogy will be for anatomy education beyond the pandemic. Here we discuss some of the changes in anatomy education that have taken place as a result of the Covid-19 pandemic and importantly present some outlooks for evidence-based anatomy pedagogy as the world enters the post-pandemic phase and beyond. The authors conclude that the anatomy discipline is ready to further modernize and has the opportunity to use digital technologies to evolve and enhance anatomy education to ensure students are provided with the learning experience which will prepare them best for the future.

Design for assessment of dissection in anatomy laboratory based on group identification of structures and peer evaluation

Dissection is a unique multisensory educational experience and is essential to learning the anatomical construction of the human and animal bodies. This study aims to introduce a specialized design for the assessment of dissection and to discuss the assessment's attributes. The design was a product of the "assessment drives learning" concept and was developed to motivate students to dissect. Students were awarded "dissection points" based on prior group dissection and identification of structures. Students' perception of the design was examined, and content analysis was performed. The assessment consisted of two parts: the first assigning each student group structures to "pin" on their previously dissected cadavers; the second was a group peer evaluation. The most critical factor for the assessment's success was careful selection of structures assigned to students to pin. The assessment was fit for the purpose, valid, reliable, and had a significant educational impact. Eighty-three percent of students (n = 116) recommended maintaining the assessment design, as they felt it promoted a deep approach to learning as well as teamwork while reducing stress to a minimum. A strong correlation (Spearman's rho = 0.46, P < 0.0001) was present between the high rating of the design and the number of structures learned, as well as, high rating and lower stress level (Spearman's rho = 0.40, P < 0.0001). There was no apparent influence of grades on student perception of the effectiveness of the assessment. This specific design of evaluation could be used as part of anatomy education in veterinary and medical schools.

Has pedagogy, technology, and Covid-19 killed the face-to-face lecture?

The lecture has been around for centuries and has featured as a popular and frequent component in higher education courses across many disciplines including anatomy. In more recent years, there has been a growing shift toward blended learning and related pedagogies that encourage active participation of students in both face-to-face and online learning environments. Unfortunately, in many cases, the lecture, which has typically focused on the transmission of information from educator to student has not been adapted to become a more learner-oriented approach with opportunities for students to actively interact and engage. As a result, the future of whether the lecture should continue has once again become a center of debate. The consequence of the Covid-19 pandemic and its aftermath have added to this with institutions now looking to stop all lectures or offer them in an online format only. This commentary argues that lecture-style components could still feature within face-to-face and online provision, but only if they are used sparingly within a blended curriculum, have a defined use that aligns well to learning outcomes, are assessed as the most effective method pedagogically, and importantly integrate approaches and activities that promote student engagement. Anatomy educators have demonstrated for years that they are able to be at the forefront of pedagogical change and evidenced during the pandemic their agile and innovative ability to adapt and do things differently. Therefore, the fate of the lecture, at least in anatomy, may well be in their hands.