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Experts perceive and evaluate domain-specific visual information with high accuracy. In doing so, they exhibit eye movements referred to as "expert gaze" to rapidly focus on task-relevant areas. Using eye tracking, it is possible to record these implicit gaze patterns and present them to histology novice learners during training. This article presents a comprehensive evaluation of such expert gaze cueing on pattern recognition of medical students in histology. For this purpose, 53 students were randomized into two groups over eight histology sessions. The control group was presented with an instructional histology video featuring voice commentary. The gaze cueing group was presented the same video, but with an additional overlay of a live recording of the expert's eye movements. Afterward, students' pattern recognition was assessed through 20 image-based tasks (5 retention, 15 transfer) and their cognitive load with the Paas scale. Results showed that gaze cueing significantly outperformed the control group (p = 0.007; d = 0.40). This effect was evident for both, retention (p = 0.003) and transfer tasks (p = 0.046), and generalized across different histological contexts. The cognitive load was similar in both groups. In conclusion, gaze cueing helps histology novice learners to develop their pattern recognition skills, offering a promising method for histology education. Histology educators could benefit from this instructional strategy to provide new forms of attentional guidance to learners in visually complex learning environments.

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Background: Augmented reality (AR) technology is gradually being applied in surgical teaching as an innovative teaching method. Developing innovative teaching methods to replicate clinical theory and practical teaching scenarios, simulate preoperative planning and training for bone tumor surgery, and offer enhanced training opportunities for young physicians to acquire and apply clinical knowledge is a crucial concern that impacts the advancement of the discipline and the educational standards for young orthopedic physicians. Objective: This study explores the application effect of augmented reality technology in anatomy teaching and surgical clinical teaching for spinal tumor. Methods: The method utilizes virtual reality and augmented reality technology to present a spinal tumor model and the surgical process of percutaneous vertebroplasty. We conducted a random selection of 12 students forming into the augmented reality teaching group and 13 students forming into the traditional teaching group among the 8-year medical students from Peking Union Medical College and Tsinghua University, ensuring that the age and learning stage of the students in both groups were similar. Two groups of students were taught using traditional teaching methods and augmented reality technology-assisted teaching methods, respectively. A questionnaire survey was conducted after class to assess the quality of course instruction, student motivation in learning, their proficiency in anatomical structures, their comprehension of spinal tumor growth and metastasis, and their understanding and proficiency in percutaneous vertebroplasty. Results: This study was the first to apply augmented reality technology in teaching, using spinal tumors and percutaneous vertebroplasty as examples, a head-mounted augmented reality device was used to create learning scenarios, presenting the complex three-dimensional spatial structure intuitively. The two groups of students differ significantly in their rating of teaching quality, enthusiasm for learning, knowledge of anatomical features, understanding of spinal trabecular structure, and understanding of steps in percutaneous vertebroplasty. The augmented reality technology-assisted teaching system demonstrates outstanding advantages. Conclusion: Augmented reality technology has great potential and broad prospects in teaching bone tumors, which can help improve the visualization, interactivity, and three-dimensional spatial sense of medical teaching in spinal tumor. The application and development prospects of using augmented reality technology for anatomy instruction, surgical teaching, and simulation training are extensive.

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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.

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Objectives: To determine the effectiveness of problem-based learning compared to conventional teaching strategies, and to determine the impact of sub-disciplines of Anatomy on learning outcomes of the subject. METHODS: The cross-sectional, descriptive study was conducted at Bahria University Health Sciences, Karachi, from August to October 2022, and comprised 1st and 2nd year medical students and 1st year dental students of either gender who were being taught by the hybrid method including both conventional and problem-based learning strategies. Data was collected using a questionnaire circulated through Google Forms. It had close-ended questions that were scored on a Likert scale. Anatomy sub-disciplines explored were gross, embryology and histology. Data was analysed using SPSS 23. RESULTS: Of the 251 subjects, 125(49.8%) were males and 126(50.2%) were females. The overall age ranged aged 18- 23 years. There were 115(45.8%) 1st year medical students, 111(44.2%) 2nd year medical students and 25(10%) 1st year dental students. Among 1st year medical students 60(52.17%), among 2nd year medical students 64(57.6%) and among 1st year dental students 14(56%) respondents favoured problem-based learning compared to conventional methodology. Highly significant results were obtained regarding need of topic revision (p<0.001), whether knowledge of conventional teaching method is enough for understanding the clinical scenarios (p=0.017, whether pictures shown during the problem-based learning sessions were enough for understanding anatomy (p=0.035), relevance of questions in oral structured practical examination (p=0.019) and viva (p=0.002). When the participants were asked regarding the anatomy sub-discipline that required revision for comprehensive learning, 72(28.3%) mentioned gross anatomy. CONCLUSIONS: Students considered problem-based learning to be more inducive in enhancing learning compared to conventional teaching.

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According to self-determination theory, the need for competence, autonomy, and relatedness has been associated with intrinsic motivation. Fulfilling basic psychological needs can lead to better learning, academic performance, and well-being. In this study, an anatomy program integrated gamification and drawing methods to explore their influence on basic psychological needs satisfaction and potential learning implications. Basic psychological needs outcomes of sport sciences students were compared to test the effects of the Observe-Reflect-Draw-Edit-Repeat (ORDER) method and gamification (experimental condition) versus a non-ORDER and non-gamified program (control condition). These two different 30-h (7-week) anatomy education programs were implemented at two Spanish public universities with 116 first-year sport sciences students. Pre and post-treatment measurements were collected using the Basic Psychological Needs Satisfaction Scale. Statistical analyses included independent samples t-tests, ANCOVAs, and factorial repeated measures ANOVAs 2 × 2 (time × treatment). The gamified ORDER program achieved higher satisfaction scores in basic psychological needs compared to the control group (t = 2.98, p = 0.004, d = 0.54). Additionally, an interaction effect between time and treatment was observed (p = 0.042, η p 2 = 0.038). Treatment and interaction effects were observed for 'autonomy' (p = 0.003, η p 2 = 0.074) and 'competence' satisfaction (p = 0.048, η p 2 = 0.035). A time effect was found for 'relatedness' in the control group, but no significant treatment or interaction effects were identified. The causes of these effects are debated in the study, as well as the limitations. These findings support the notion that students' basic psychological needs are better satisfied in anatomy education with the implementation of this multimethod educational intervention based on ORDER and gamification.

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Background Cadaveric teaching has been the gold standard for gross anatomy instruction through the ages and across the geographic spectrum, but with issues of availability faced in many medical schools, there is a need to look for other options. Digital tools like virtual dissectors that simulate the cadaver have been around for some years now, but their acceptability to the teachers and students and effectiveness need to be validated in the settings where applied. Aim To evaluate the acceptability, feasibility and effectiveness of using computer-based simulation tools for teaching gross anatomy via online mode to undergraduate medical students. Methodology A prospective crossover randomized controlled study was conducted online on 200 (120 males (60%) and 80 females (40%), Year 1 medical undergraduates (mean age males: 19.67 years and females: 19.52 years), wherein two broad topics of head and neck region were taught by didactic lectures delivered online via Zoom. Dissection videos were prepared for both cadaveric and computer-based simulation teaching. Groups were divided by random allocation and pre- and post-tests and feedback surveys were conducted online. Results A significant increase from pre- to post-test scores was found in both cadaveric and computer-based simulation techniques. However, more change was found in the computer technique as its t-value was more than the cadaveric technique. The feedback from the students was that the computer-based simulation teaching method gave them a good insight into 3D understanding of the human body, increased understanding of relations of body structures and capacity to grasp surface anatomy. Conclusion The study concluded that teaching gross anatomy through computer-based simulation techniques is acceptable to both the students and faculty. The study also concluded that it is an effective and feasible method that can be used to complement cadaveric teaching to revisit areas already dissected and for quick revision.

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The practice of teaching and scientific research on cadaveric material remains crucial for medical education, especially in surgical disciplines. However, in Italy, this practice has been neglected due to legislative insufficiency and financial constraints. Although innovative methods and tools like simulators and e-learning have been adopted, direct hands-on experience with human cadavers remains irreplaceable for medical and surgical education. The absence of clear legislation governing cadaveric dissection has limited availability for teaching and research, resulting in economic burdens for universities and individuals seeking proper surgical training. To address this issue, Law No. 10/2020 and the recent implementing decree were introduced in Italy, providing detailed legislation on the donation of bodies for educational and research purposes. The law emphasizes the importance of respecting the donor's specific choices and aligns with constitutional principles promoting culture, research, and health protection. However, some critical issues related to consent procedures, duration of body availability, and preservation of anatomical parts remain. Additionally, the law's dissemination among the population needs improvement. Future optimization could include allowing donors to choose the timing of body donation and considering different timeframes for body availability. Furthermore, the implementation of consent procedures could be simplified to increase donations. The law should also address the need for appropriate reception centers and allocate resources for effective dissemination. Despite these challenges, Law No. 10/2020 represents a significant step forward in enhancing medical-surgical training, scientific research, and the overall quality of patient care in Italy.

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The COVID-19 pandemic caused major disruption to anatomical teaching worldwide with both lectures and practicals being moved online. Throughout this period anatomists were able to find new and innovative ways to teach and to aid student learning via a variety of delivery modes. This study aimed to interview anatomists who were involved in teaching undergraduate medical students at UK universities to document the changes that occurred and to understand academic perceptions of pandemic delivery to comprehend how anatomy education may change in the long term. Results suggest that academics are likely to continue to deliver anatomical lectures online post-pandemic akin to a flipped classroom approach, although caution was noted regarding 'at-risk' student groups. No academics wished to see continued delivery of practical classes online, however, resources designed or invested in during the pandemic will be integrated into practical classes or pre-class preparation allowing for a more complete student experience. No clear picture emerged as to the preferred way staff and students will communicate in the current post-pandemic hybrid working environment and beyond. This will likely only be resolved when a new pattern of home working evolves in UK institutions. This report is the first to detail the academic vision of anatomy teaching in a post-pandemic world and will be useful to those adapting to these changes and for those pedagogical researchers targeting where anatomical education research should focus moving forward.

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There is an ongoing debate in anatomy education regarding the use of prosection versus student dissection in anatomy lab instruction. While there are plenty of studies comparing dissection and prosection, there are very few studies on how prosections are prepared and how they are used in anatomy instruction. Furthermore, there is no consistent definition of prosection used in the literature. This study used an anonymous questionnaire distributed to anatomy educators internationally and asked for educator views on defining, preparing, and using prosections in various course settings. One-hundred twenty-five completed responses representing fifteen countries and sixty-seven institutions underwent a thematic analysis to describe major themes in participant responses. From responses, a definition of prosection was developed, and the major perceived strengths and weaknesses of prosection use were described. Furthermore, quantitative data regarding the prevalence of prosection use as either a supplemental or primary resource and details pertaining to the perceived expertise of prosectors was collected. This study demonstrates the extensive reach of prosections in anatomy education and sets a foundation from which future studies on unique prosection preparation and use can stem from.

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The COVID-19 crisis created unprecedented conditions for the medical academic system that enable it to showcase the real value of learning approaches in anatomical education. In parallel, the ongoing reassessment of the role of dissection in medical training, given the huge advances in imaging technology and science education, continued. The present study investigates the response of the six Israeli medical faculties to the pandemic vis-à-vis anatomical education. We reached out to medical students studying anatomy at the time of the crisis (N = 311), advanced medical students working as anatomy instructors (N = 55), and deans and heads of anatomy departments (N = 6). Applying a mixed-method approach, we used Likert scale questionnaires and held in-depth interviews with faculty members. Our results indicate that Israeli medical faculties were committed to a dissection-based anatomy curriculum and made substantial efforts to maintain it in the face of health restrictions. Students appreciated these efforts as this was their preferred learning method. Through a phenomenological analysis of interviews, we demonstrate how the crisis opened up a unique prism through which new insights into the debated role of dissection may be gleaned. Our analysis also reveals that anatomy instructors played a pivotal role in the crisis, not only because they carried out faculty policy, but especially because it gave them the opportunity to determine policy and show leadership. The crisis additionally enabled faculties to cultivate their leadership skills. Our research confirms donor body dissection as a mainstay of anatomical education and emphasizes its immeasurable value to the curriculum and future physicians.

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This article is based on the Association for the Study of Medical Education Gold Medal Plenary for 2022, given by the first author. It outlines different ways in which medical training can be approached, based on his career and his work with colleagues. Among the attributes that it would be desirable to promote in future doctors are conscientiousness, competence and care for patients as individuals. This article explores each of these in separate sections. The first demonstrates that the trait of conscientiousness can be observed in first and second year medical students by their compliance in routine low level tasks such as attendance and submission of required work on time. A 'conscientiousness index' calculated on this basis is a statistically significant predictor of later events such as performance in exams, the prescribing safety assessment, and the UK situational judgement test in subsequent years, and also in postgraduate assessments such as Royal college exams and the annual reviews of competence progression. The second proposes that competence in tasks undertaken by junior doctors is better achieved by teaching on medical imaging, clinical skills and living anatomy than by cadaveric dissection. The final section argues that the incorporation of arts and humanities teaching into medical education is likely to lead to better understanding of the patient perspective in later practice.

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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.

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Objective: The introduction of competency-based medical education curriculum and a shifted focus towards self-directed learning (SDL) in medical schools across the world has necessitated a reduction of didactic teaching hours. Museum specimens are an indispensable tool in anatomy teaching and can play a pivotal role in fostering and reinforcing SDL. Coloring of specimens makes it attractive and facilitates understanding anatomy. The aims of this study were: (1) weigh up the two commonly used coloring materials in anatomy viz. acrylic paint and nail polish; and (2) to assess the perception of anatomy students towards a Novel Osteo Refurbishment Method (NORM) for restoration of partially damaged osteology specimens. Methods: Undergraduate and postgraduate students of anatomy were recruited in the study. Participants responded to a 5-point Likert scale questionnaire. Obtained data were analyzed using Microsoft Excel version 2019. For a comparison of the two coloring agents Mann-Whitney U test was applied to the responses toward the Likert scale-based questionnaire. P-value <0.05 was considered significant. Results: Out of 318 study participants, 63.7% and 36.3% of the respondents were male and female, respectively. 90.5 % were new entrants to university and the remainder 9.5% had a prior university degree. Students found the acrylic paint to be a better coloring agent and they also opined that NORM generated refurbished osteology specimens could serve as a useful self-learning tool. Acrylic paint was found to be more suitable as compared to nail polish with significant p-value in most of the parameters tested. Conclusions: Acrylic colour holds a good place in coloring both specimens and models in anatomy. Nail polish can be an alternative but with some noted disadvantages. The initial experience with NORM yielded encouraging results with potential practical utility.

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The teaching of anatomy for physiotherapy differs from other health professions, and yet there is lack of guidance for the best practice in the literature, especially within the United Kingdom (UK). The present study aimed to provide the most effective pedagogical guidance for teaching a typical anatomy curriculum for a three-year BSc Physiotherapy degree program within the UK. The research design used a constructivist grounded theory where semi-structured interviews were conducted with eight registered physiotherapists teaching anatomy to undergraduate physiotherapy students within the UK. The study generated 72,292 words of qualitative data that were thematically analyzed using Saldaña's coding techniques until data saturation was reached. The results had three main components: a pedagogical backdrop composed of five pedagogical issues, pedagogical approaches with its three sub-components and pedagogical timings of phases of when anatomical teaching was conducted across the three undergraduate physiotherapy degree programs. The cognitive load theory (CLT) best explained the results through five main pedagogical principles: spiral curriculum strategies, visual anatomical imagery, kinesthetic anatomical skills, strategies for teaching clinical physiotherapy anatomy, and using anatomical principles for metacognition. The study proposes a new modified version of CLT which acknowledges that newly acquired knowledge is fragile in novice learners, who have limited long-term memory capacities, and subsequently require regular revisitations, and also acknowledges kinesthetic input and germane cognitive load metacognition strategies. The study recommends appointing anatomy theme leads to take responsibility for the spiral curriculum approach across the 3 years and to introduce explicit anatomy teaching during the later clinical years.

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BACKGROUND: Mastering cardiac anatomy is a formidable obstacle in the learning process for cardiac electrophysiology trainees. The complex three-dimensional characteristics and contiguous relationship of the ventricular outflow tract are particularly difficult to visualize with the limited study methods available. The hands can recreate a morphology similar to the ventricular outflow tract; this study explored whether a two-handed model of the heart helps electrophysiology trainees improve their understanding of ventricular outflow tract anatomy. METHODS: After an initial assessment, trainees were randomly placed into variable and control groups. Subsequently, all trainees learned the outflow tract anatomy using routine methods, with the variable group receiving additional instruction using the two-handed model. One day and one week after the course conclusion, knowledge of the ventricular outflow tract anatomy was assessed for the participants in both groups. RESULTS: Thirty-eight trainees participated (19 in each group). The median scores obtained for the first, second, and third tests were 38 (24,55), 80 (70,86), and 75 (70,81) points, respectively. In the second test, trainees in the variable group had a mean score 6.8 points higher than those in the control group (p = 0.103); in the last test, the mean score was 9.7 points higher in the variable group than in the control group (p = 0.003). CONCLUSIONS: It is convenient to use hands to create a model representing the ventricular outflow tract. Trainees using this model had a better understanding and retention of the ventricular outflow tract anatomy compared to those of the control group.

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Anatomical body painting has traditionally been utilized to support learner engagement and understanding of surface anatomy. Learners apply two-dimensional representations of surface markings directly on to the skin, based on the identification of key landmarks. Esthetically satisfying representations of musculature and viscera can also be created. However, established body painting approaches do not typically address three-dimensional spatial anatomical concepts. Haptic Surface Painting (HSP) is a novel activity, distinct from traditional body painting, and aims to develop learner spatial awareness. The HSP process is underpinned by previous work describing how a Haptico-visual observation and drawing method can support spatial, holistic, and collaborative anatomy learning. In HSP, superficial and underlying musculoskeletal and vascular structures are located haptically by palpation. Transparent colors are then immediately applied to the skin using purposive and cross-contour drawing techniques to produce corresponding visual representations of learner observation and cognition. Undergraduate students at a United Kingdom medical school (n = 7) participated in remote HSP workshops and focus groups. A phenomenological study of learner perspectives identified four themes from semantic qualitative analysis of transcripts: Three-dimensional haptico-visual exploration relating to learner spatial awareness of their own anatomy; cognitive freedom and accessibility provided by a flexible and empowering learning process; altered perspectives of anatomical detail, relationships, and clinical relevance; and delivery and context, relating to curricular integration, session format, and educator guidance. This work expands the pedagogic repertoire of anatomical body painting and has implications for anatomy educators seeking to integrate innovative, engaging, and effective learning approaches for transforming student learning.

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Body donation is a prosocial act providing a unique learning experience to students, ultimately impacting on patient care and science. With an increasing number of training professionals, there is an increasing need for body donors, yet little is understood about donors' beliefs and preferences. A four-center study aimed to understand donors' perceptions, 843 responses highlighted a significant relationship between completing a body donor consent form and being both an organ donor and having ever donated blood (p < 0.01). In exploring donor intentions, 69% had been considering donation for fewer than five years, 40% knew another body donor, and 27% had a family member or friend currently registered. Of those who had requested donor information packs, 97% had completed body donation consent forms. Of these, 92% had not selected any time restriction for their donation and 96% had consented to images being taken. Almost all (98%) were aware that their donation might not be accepted. Donors' motives highlighted a wish to: improve education, improve health care, advance science, and contribute to the greater good. A bimodal response was observed with body donation being used to save relatives money and inconvenience. Donors felt comfortable with their bodies being used by medical, dental, and allied health professionals; however, donors were less comfortable with their bodies being used by other groups. Only 57% were comfortable with artists, beauticians and yoga teachers using their remains. Understanding donors' motivations and decision-making process is vital to ensure resources for future and to meet any changing requirements of both donors and those studying them.

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PURPOSE: The educational use of gestures has resulted in positive outcomes in several fields. We performed a literature review to investigate the outcomes of the use of gestures to enhance the existing anatomy education methods. METHODS: PubMed, SCOPUS, ERIC and Cochrane databases were searched for papers with purpose to investigate the outcomes of the use of gestures (either seeing or performing them or both) as adjuncts to existing anatomy education methods. RESULTS: Six articles were included. Three studies comprised both seeing and performing gestures by the students, while the remaining three studies only comprised either seeing or performing gestures by the students. Most studies evaluated the acquisition of anatomical knowledge after the educational intervention and demonstrated that the addition of gestures resulted in significant benefit compared to control groups, while positive students' perceptions were recorded. It was not clarified whether seeing or performing gestures by the students leads to better educational outcomes. CONCLUSION: Gestures-enhanced anatomy education seems to be a promising teaching strategy, given that it has led to significantly increased acquisition of anatomical knowledge compared to no gestures-enhanced modalities. The addition of gestures to existing anatomy education modalities seems able to increase their potential without increasing their cost. Further research is needed to determine if seeing or performing gestures by the students is more effective.

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