Student's perspectives of inclusive practices in anatomy education.

There is a drive to implement inclusive practices in anatomy by adapting curricula and utilizing inclusive language and resources that negate biases. However, to date there is no data regarding student's perception of inclusivity. Therefore, the study aims to investigate anatomy student's opinions on inclusive practices in anatomy education based on the protected characteristics of age, disability, ethnicity, gender affirmation and sex. One hundred and forty-five students completed a questionnaire with 21 Likert-scale and two open-ended questions. Kruskal-Wallis tests compared responses by groups defined by the protected characteristics of the Equality Act (2010). Most students (71.2%; n = 84) agreed or strongly agreed that "improving inclusivity in anatomy education should be educator's priority". In terms of representation, there was a statistically different response rate from students from different ethnic backgrounds to the statements "there are anatomy educators" (p < 0.001), "images in textbooks" (p < 0.001) and "models in the dissection room" (p < 0.001) "that look like me". Most students agreed or strongly agreed to statements relating to the protected characteristics of age (70.4%; n = 68), disability (78.6%; n = 77), ethnicity (59.8%; n = 64), gender affirmation (46.3%; n = 46) and sex (51.5%; n = 62). Themes identified relating to improving inclusivity included "reflecting reality", "teaching the truth", "the invisibility of women" and the "learning environment". Students have confirmed that anatomists, as gatekeepers of the knowledge of the human body, should foster inclusive teaching practices that will benefit all students and potentially future patient care.

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.

"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.

A new classification system for the anatomical variations of the human circle of Willis: A systematic review.

The circle of Willis (CoW) is an anastomotic arterial network located on the base of the brain. Studies have shown that it demonstrates considerable anatomical variation in humans. This systematic review aimed to identify and catalogue the described anatomical variations of the CoW in humans to create a new, comprehensive variation classification system. An electronic literature search of five databases identified 5899 studies. A two-phase screening process was performed, and studies underwent quality assessment. A total of 42 studies were included in the review. Data were extracted and circles were reconstructed digitally using graphics software. The classification system contains 82 CoW variations in five continuous groups. Group one contains 24 circles with one or more hypoplastic segments only. Group two contains 11 circles with one or more absent segments only. Group three contains 6 circles with hypoplastic and absent segments only. Group four contains 26 circles with one or more accessory segments. Group five contains 15 circles with other types of anatomical variation. Within each group, circles were subcategorised according to the number or type of segments affected. An original coding system was created to simplify the description of anatomical variations of the CoW. The new classification system provides a comprehensive ontology of the described anatomical variations of the CoW in humans. When used with the coding system, it allows the description and categorisation of recorded and unrecorded variants identified in past and future studies. It is applicable to current clinical practice and the anatomical community, including human anatomy education and research.

Online Assessment of Applied Anatomy Knowledge: The Effect of Images on Medical Students' Performance.

Anatomical examinations have been designed to assess topographical and/or applied knowledge of anatomy with or without the inclusion of visual resources such as cadaveric specimens or images, radiological images, and/or clinical photographs. Multimedia learning theories have advanced the understanding of how words and images are processed during learning. However, the evidence of the impact of including anatomical and radiological images within written assessments is sparse. This study investigates the impact of including images within clinically oriented single-best-answer questions on students' scores in a tailored online tool. Second-year medical students (n = 174) from six schools in the United Kingdom participated voluntarily in the examination, and 55 students provided free-text comments which were thematically analyzed. All questions were categorized as to whether their stimulus format was purely textual or included an associated image. The type (anatomical and radiological image) and deep structure of images (question referring to a bone or soft tissue on the image) were taken into consideration. Students scored significantly better on questions with images compared to questions without images (P < 0.001), and on questions referring to bones than to soft tissue (P < 0.001), but no difference was found in their performance on anatomical and radiological image questions. The coding highlighted areas of "test applicability" and "challenges faced by the students." In conclusion, images are critical in medical practice for investigating a patient's anatomy, and this study sets out a way to understand the effects of images on students' performance and their views in commonly employed written assessments.

Clay-Based Modeling in the Anatomist's Toolkit: A Systematic Review.

Anatomical education has suffered from reduced teaching time and poor availability of staff and resources over the past thirty years. Clay-based modeling (CBM) is an alternative technique for teaching anatomy that can improve student knowledge and experience. This systematic review aimed to summarize and appraise the quality of the literature describing the uses, advantages, and limitations of CBM compared to alternative methods of teaching human gross anatomy to students or qualified healthcare professionals. A systematic search of Embase, MEDLINE, Scopus, and Web of Science databases was conducted, and the Medical Education Research Quality Instrument (MERSQI) was used to assess study quality. Out of the 829 studies identified, 12 papers met the inclusion criteria and were eligible for this review. The studies were of high quality, with a mean MERSQI score of 11.50/18. Clay-based modeling can be used to teach all gross anatomical regions, and 11 studies demonstrated a significant improvement in short-term knowledge gain in students who used CBM in comparison to other methods of learning anatomy. Eight studies that included subjective assessment showed that CBM is rated highly. However, some studies showed that students viewed CBM as juvenile and experienced difficulty making the models. Additionally, there is no evidence to suggest that CBM improves long-term knowledge. Clay-based modeling is an effective learning method for human gross anatomy and should be incorporated into the anatomists' toolkit. In the future, more randomized controlled studies with transparent study designs investigating the long-term impact of CBM are needed.

Ultra-violet body painting: A new tool in the spectrum of anatomy education

This descriptive article explores the use of ultraviolet (UV) body painting within anatomy education. Whilst the use of body painting is not new, UV paint has not previously been used within medical education. It is well documented that body painting is a fun and engaging learning tool that, it is reported, uses multiple sensory pathways to promote retention of knowledge. That being said, it is not without its limitations, namely that it rubs off easily and cannot be layered to show superficial and deep views simultaneously - something that UV paint can achieve. This article compares the use of normal and ultra-violet body painting within the classroom environment. In addition to offering exemplars for best practice and maximum impact, the article offers practical guidance on the health and safety issues related to the use of the paint and associated UV lighting. UV paint provides a wet and therefore more visceral look to paintings. The fluorescent colour makes it extremely striking visually. One of the major advantages is that UV paint can be layered both on top of and beneath ordinary body paint. Thus when light is applied a hidden layer can be revealed. Use of an adhesive, such as liquid latex, underneath the paint ensures that the artwork lasts and withstands sweating and movement, as well as enabling an artefact to be produced if removed carefully from the body. UV paint therefore makes an excellent addition to the toolkit of any anatomy educator

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