Evaluation of a computer program ('disect') to consolidate anatomy knowledge: a randomised-controlled trial

What works in radiology education for medical students: a systematic review and meta-analysis

BACKGROUND

Medical imaging related knowledge and skills are widely used in clinical practice. However, radiology teaching methods and resultant knowledge among medical students and junior doctors is variable. A systematic review and meta-analysis was performed to compare the impact of different components of radiology teaching methods (active versus passive teaching, eLearning versus traditional face-to-face teaching) on radiology knowledge / skills of medical students.

METHODS

PubMed and Scopus databases were searched for articles published in English over a 15-year period ending in June 2021 quantitatively comparing the effectiveness of undergraduate medical radiology education programs regarding acquisition of knowledge and/or skills. Study quality was appraised by the Medical Education Research Study Quality Instrument (MERSQI) scoring and analyses performed to assess for risk of bias. A random effects meta-analysis was performed to pool weighted effect sizes across studies and I2 statistics quantified heterogeneity. A meta-regression analysis was performed to assess for sources of heterogeneity.

RESULTS

From 3,052 articles, 40 articles involving 6,242 medical students met inclusion criteria. Median MERSQI score of the included articles was 13 out of 18 possible with moderate degree of heterogeneity (I2 = 93.42%). Thematic analysis suggests trends toward synergisms between radiology and anatomy teaching, active learning producing superior knowledge gains compared with passive learning and eLearning producing equivalent learning gains to face-to-face teaching. No significant differences were detected in the effectiveness of methods of radiology education. However, when considered with the thematic analysis, eLearning is at least equivalent to traditional face-to-face teaching and could be synergistic.

CONCLUSIONS

Studies of educational interventions are inherently heterogeneous and contextual, typically tailored to specific groups of students. Thus, we could not draw definitive conclusion about effectiveness of the various radiology education interventions based on the currently available data. Better standardisation in the design and implementation of radiology educational interventions and design of radiology education research are needed to understand aspects of educational design and delivery that are optimal for learning.

TRIAL REGISTRATION

Prospero registration number CRD42022298607.

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.

How Virtual Animal Anatomy facilitated a successful transition to online instruction and supported student learning during the coronavirus pandemic

Anatomy faculty with cadaver-based laboratory courses were presented with a significant challenge in March 2020 to create equivalent learning experiences without cadaveric access. The undergraduate domestic animal anatomy course at the Colorado State University was halfway into a 16-week semester when COVID-19 lockdown orders and the transition to remote instruction began. The new course curriculum was critically evaluated using student surveys and course outcome data. Most students (92.5%) agreed that the transition to online learning was a success; however, students who valued face-to-face lectures prior to March were less likely to perceive the transition as a success. Qualitative and quantitative analyses of survey results suggest that the resources perceived as most helpful for the transition to online learning were not the same as those that helped facilitate animal anatomy learning. Most students (92.5%) agreed that the Virtual Animal Anatomy (VAA) helped them learn anatomy, and 82.2% indicated that the VAA was a valuable resource following the transition to online learning. Additional resources associated with transition success included course instructors, weekly quizzes, written descriptions of anatomical structures and open laboratory sessions. In contrast, those resources associated with facilitating learning included guided quizzes and asynchronous lecture recordings. These findings suggest that the VAA can support online anatomy learning when used in conjunction with other best practices for online teaching.

Perceptions, satisfactions, and performance of undergraduate students during Covid-19 emergency remote teaching

Due to the Covid-19 pandemic, the education system worldwide faced sudden and unforeseen challenges. Many academic institutions closed their doors, forcing both educators and students to transition to Emergency Remote Teaching (ERT) for the remainder of the semester. This transition eliminated hands-on experiences, increased workload, and altered curricula. However, these aspects, as well as students' perceptions, study habits, and performance in response to ERT remain poorly documented. This contribution describes changes in the curriculum of an undergraduate cadaver-based laboratory, and explores students' performance, self-perceived learning, and overall satisfaction during this educational crisis. Online content delivery for this course included both asynchronous instruction and synchronous discussion sessions. While formative assessments remained the same, online spotter examinations included short answer, multiple choice, multiple answer, ordering, and true and false questions. Despite examination grades improving 20% during ERT, students reported lower levels of learning, confidence, and engagement with the course materials when compared to the face-to-face portion of the class. The most prevalent challenges identified by students were those related to the loss of access to cadaver-based learning, including difficulty identifying and visualizing structures in three dimensions, and the loss of context and sensorial cues. Flexibility in taking examinations and learning the material at their own pace were recognized as positive outcomes of the ERT transition. While the resulting student perceptions and performances are unsurprising, they offer insight into the challenges of fostering a productive learning environment in a future threatened by epidemic outbreak and economic uncertainty.

Does stereoscopic imaging improve the memorization of medical imaging by neurosurgeons? Experience of a single institution

Stereoscopic imaging has increasingly been used in anatomical teaching and neurosurgery. The aim of our study was to analyze the potential utility of stereoscopic imaging as a tool for memorizing neurosurgical patient cases compared to conventional monoscopic visualization. A total of 16 residents and 6 consultants from the Department of Neurosurgery at Charité – Universitätsmedizin Berlin were recruited for the study. They were divided into two equally experienced groups. A comparative analysis of both imaging modalities was conducted in which four different cases were assessed by the participants. Following the image assessment, two questionnaires, one analyzing the subjective judgment using the 5-point Likert Scale and the other assessing the memorization and anatomical accuracy, were completed by all participants. Both groups had the same median year of experience (5) and stereoacuity (≤ 75 s of arc). The analysis of the first questionnaire demonstrated significant subjective superiority of the monoscopic imaging in evaluation of the pathology (median: monoscopic: 4; stereoscopic: 3; p = 0.020) and in handling of the system (median: monoscopic: 5; stereoscopic: 2; p < 0.001). The second questionnaire showed that the anatomical characterization of the pathologies was comparable between both visualization methods. Most participants rated the stereoscopic visualization as worse compared to the monoscopic visualization, probably due to a lack of familiarity with the newer technique. Stereoscopic imaging, however, was not objectively inferior to traditional monoscopic imaging for anatomical comprehension. Further methodological developments and incorporation in routine clinical workflows will most likely enhance the usability and acceptance of stereoscopic visualization.

Anatomia Radiológica Vascular e desenvolvimento de plataformas de ensino interativo

Anatomia e Radiologia são disciplinas amplamente presentes nas grades curriculares de cursos da área da saúde. A interseção entre a Anatomia Radiológica e as tecnologias recentes, como plataformas de ensino interativo, caracteriza-se como uma tendência a ser seguida na esfera educacional, sendo as implicações desse processo ainda não muito debatidas. O Departamento de Anatomia da Universidade Federal de Juiz de Fora iniciou o desenvolvimento de um atlas de anatomia vascular radiológica, o qual apresenta versões impressa e interativa. Possui imagens de angiotomografias computadorizadas feitas em aparelhos multislice de 16 a 128 canais, sendo as imagens de arquivo pessoal dos organizadores. O atlas promove a identificação das estruturas vasculares em questão e propicia a integração do conhecimento adquirido em salas de aula com a visualização de exames de imagem complementares rotineiros. A indiscutível presença de exames de imagem adicionais na rotina dos profissionais da saúde atuais faz com que seja válida a estratégia de integração entre o método tradicional de ensino e as práticas ativas de aprendizagem, as quais vêm ganhando destaque recentemente, devido a sua efetividade na fixação de conhecimentos.

The additional role of virtual to traditional dissection in teaching anatomy: a randomised controlled trial

Introduction

Anatomy has traditionally been taught via dissection and didactic lectures. The rising prevalence of informatics plays an increasingly important role in medical education. It is hypothesized that virtual dissection can express added value to the traditional one.

Methods

Second-year medical students were randomised to study anatomical structures by virtual dissection (intervention) or textbooks (controls), according to the CONSORT guidelines. Subsequently, they applied to the corresponding gross dissection, with a final test on their anatomical knowledge. Univariate analysis and multivariable binary logistic regression were performed.

Results

The rate of completed tests was 76.7%. Better overall test performance was detected for the group that applied to the virtual dissection (OR 3.75 with 95% CI 0.91–15.49; p = 0.06). A comparable performance between groups in basic anatomical knowledge (p 0.45 to 0.92) but not muscles and 2D-3D reporting of anatomical structures was found, for which the virtual dissection was of tendential benefit (p 0.08 to 0.13). Medical students who applied to the virtual dissection were over three times more likely to report a positive outcome at the post-dissection test than those who applied to textbooks of topographical anatomy. This would be of benefit with particular reference to the understanding of 2D–3D spatial relationships between anatomical structures.

Conclusion

The combination of virtual to traditional gross dissection resulted in a significant improvement of second-year medical students’ learning outcomes. It could be of help in maximizing the impact of practical dissection, overcoming the contraction of economic resources, and the shortage of available bodies.

Electronic supplementary material

The online version of this article (10.1007/s00276-020-02551-2) contains supplementary material, which is available to authorized users.

Training zur strukturierten Befundung von Radiographien des Thorax mit OSCE-Prüfung

Hintergrund

Die strukturierte Befundung von Radiographien des Thorax stellt eine wichtige radiologische Grundkompetenz dar und wird mit der Umsetzung des nationalen kompetenzbasierten Lernzielkatalogs Medizin (NKLM) in der studentischen Lehre gefordert.

Ziel der Arbeit

Ziel war die Evaluierung, inwieweit Studierende des 2. Studienjahres durch ein neues curriculares Training zur Befundung von Radiographien des Thorax mit anschließender „objective structured clinical examination“ (OSCE) an Sicherheit gewinnen und wie gut sie sich den Erwartungen der betreuenden ärztlichen Kollegen während der Famulatur gewachsen fühlen.

Methoden

Das Training umfasste 4 Vorlesungen und 10 kommentierte Lehrfilme zur Befundung konventioneller Radiographien. Die Studierenden wurden 2 Jahre später befragt, wie häufig und in welcher Form sie in Famulaturen Umgang mit Radiographien hatten und wie sicher sie sich im Umgang in verschiedenen Teilbereichen fühlten. Die Studierenden mit Training wurden zusätzlich gefragt, inwiefern Vorlesungen und Lehrvideos hilfreich waren. Die Ergebnisse der Studierenden des letzten Jahrgangs ohne und des ersten Jahrgangs mit Training und OSCE wurden mittels Mann-Whitney-U-Test für unabhängige Stichproben verglichen.

Ergebnisse

Die Häufigkeit des Umgangs mit Radiographien war bei Studierenden mit und ohne Training vergleichbar hoch. Die Studierenden mit Training und OSCE fühlten sich im weiteren Studium sicherer und besser vorbereitet als die Studierenden ohne Training (je nach Teilbereich p < 0,001 bis p = 0,148). Sie bewerteten die Lehrfilme als hilfreicher als die Vorlesungen (Mittelwert: 2,85 ± 0,76 vs. 3,41 ± 0,68).

Diskussion

Mit einem frühzeitigen Training kann die Sicherheit der Studierenden im Umgang mit Radiographien des Thorax nachhaltig gesteigert werden.

Curricular and pedagogical aspects of gross anatomy education for undergraduate physiotherapy students: a scoping review

OBJECTIVE

The objective of this review was to collate and map gross anatomy curricular and pedagogical approaches for physiotherapy students.

INTRODUCTION

Knowledge of anatomy is essential for physiotherapy clinical diagnosis, treatment effectiveness and safe practice. The information on this topic is sparse, and what does exist is diverse. This scoping review describes anatomy educational approaches for physiotherapy students and provides needed insight into this topic.

INCLUSION CRITERIA

No limits were applied on the date of the database search or age of participants. Languages were limited to English, French, German and Spanish. Studies had to include information on gross anatomy curricula or pedagogy for physiotherapy students, or information from qualified physiotherapists or those teaching gross anatomy to physiotherapy students.

METHODS

Included studies were mainly sourced from EBSCOhost (CINAHL, ERIC and MEDLINE), PubMed and Scopus databases. Perusal of reference lists facilitated further retrievals. Studies published from inception up to 21 July 2019 were included. Studies were identified and screened, and the process was reported in a PRISMA flow diagram. JBI methodology for scoping reviews was followed. Selected studies were charted according to a template created and published in a JBI scoping review protocol.

RESULTS

Fifty-four studies satisfied the inclusion criteria. Various studies gave calculable length of intervention in weeks (n=14, 26%), hours (n = 7, 13%) or both (n = 21, 39%). The majority of studies (n = 50, 93%) were cross-sectional studies; three were randomized controlled trials (6%). Mean sample sizes varied from 55.3 ± 30.4 (professional behaviors, ethical and humanistic aspects) to 323.2 ± 219.7 participants (multi-modal and blended learning). Overall, 29 studies (54%) included physiotherapy students or personnel in physiotherapy anatomy programs exclusively in the sample. Other disciplines with physiotherapy students included medical students (n = 12, 22%), and occupational therapy students (n = 10, 19%). The interprofessional education category (n = 8) determined that interdisciplinary teamwork led to increased anatomical learning and awareness of future clinical roles. Computer-assisted learning (n = 9) was effective as a stand-alone or adjunct pedagogy, useful for self-study and helped anatomical knowledge retention. Team-based learning (n = 2), peer teaching (n = 6) and clinical input incorporating case-based learning and horizontal and vertical integration (n = 4) resulted in anatomical knowledge retention and were associated with mastery of anatomical understanding, an increase in examination confidence and higher examination grades. Contradictory learning outcomes resulted from the use of online videos in blended and multi-model learning studies (n = 7). Increased student participation in asynchronous online discussion forums benefitted academic learning outcomes. The category of curriculum, pedagogy and materials (n = 15) identified and compared different survey results pertaining to the curricular aspect of the objectives of this review. One study investigated the flipped classroom concept. The use of anatomy content to encourage professional, ethical and humanistic aspects (n = 3) of physiotherapy students' behavior resulted in positive outcomes.

CONCLUSIONS

This scoping review revealed a multi-faceted topic with many types of interventions and outcomes recorded. It identified variations in pedagogies, curricular content and learning approaches integral to the subject and their impact on gross anatomy education for this population. Beneficial behavioral, anatomical learning, knowledge retention and academic outcomes were identified.

A Randomised Control Trial and Comparative Analysis of Multi-Dimensional Learning Tools in Anatomy

This article presents the results of a study that examined students' ability to retain what they have learned in an anatomy course after thirty days via using various learning tools for twenty minutes. Fifty-two second-year medical students were randomly assigned to three learning tools: text-only, three-dimension visualisation in a two-dimensional screen (3DM), or mixed reality (MR). An anatomy test lasting for twenty minutes measuring spatial and nominal knowledge was taken immediately after the learning intervention and another thirty days later. Psychometric tests were also used to measure participants' memory, reasoning and concentration abilities. Additionally, electroencephalogram data was captured to measure the participants' awakeness during the learning session. Results of this study showed that the MR group performed poorly in the nominal questions compared to the other groups; however, the MR group demonstrated higher retention in both the nominal and spatial type information for at least a month compared to the other groups. Furthermore, participants in the 3DM and MR groups reported increased engagement. The results of this study suggest that three-dimensional visualiser tools are likely to enhance learning in anatomy education. However, the study itself has several limitations; some include limited sample size and various threats to internal validity.

Recommended Workflow Methodology in the Creation of an Interactive Application for Patient's Diagnosed with Pancreatic Cancer

Pancreatic cancer is a leading cause of cancer related deaths in the UK. However, public knowledge and understanding of the pancreas is generally poor, therefore pancreatic cancer patients often have to contend with understanding large quantities of new information at a pivotal time in their lives.Despite utilisation of digital visualisation techniques in medical education, very rarely are they being used to help clinicians communicate information to their patients. Specifically, there is no literature describing use of an interactive digital application for use by healthcare professionals to aid discussions specific to pancreatic cancer.Therefore, we developed a workflow methodology, and created an interactive application, thus creating a tool that could help clinicians explain pancreatic cancer anatomy, and staging, to their patients. Three-dimensional (3D) digital models were created using ZBrush and Autodesk 3DS Max, and exported into the Unity game engine. Within Unity, the interactivity of models was maximally utilised, and a simple user interface created.The application centres on anatomically accurate, visually simple, 3D digital models, demonstrating a variety of common scenarios that arise in pancreatic cancer. The design of the application is such that the clinician can select which model is relevant to the patient, and can give an explanation of the anatomy and disease process at a speed and level appropriate to that person. This simple, robust and effective workflow methodology for the development of an application could be useful in any clinical setting that needs visual and interactive tools to enhance patient understanding of a clinical condition.

Student perceived impact of a physical, kinetic and interactive model

Current instructional tools for anatomy education are insufficient scaffolds for learning abstract visual concepts such as basic biomechanics. Diagrams, illustrations and even computer-generated models may be adequate for identification purposes, but are typically not effective when it comes to demonstrating dynamic functions. Evidence from educational concepts, such as the active learning principle in constructivism, indicate that current tools are ineffective due to a lack of opportunity for hands-on or interactive, learning. To address this, our interdisciplinary team designed an instructional model of the canine thoracic limb which is physical, kinetic and interactive. We hypothesised that the unique combination of these three crucial elements would enhance the student learning experience. In order to test this hypothesis, we asked 126 undergraduate students in a biomedical anatomy course to interact with the model. Students were then invited to complete a survey evaluating their experience using the thoracic limb model. Results from completed surveys showed that students perceived the model as easy to use and helpful with understanding basic biomechanical concepts. These results indicate that there is potential for the model to positively impact the students' learning. Future studies will include quantitative evaluation of student performance and cognitive impact in the biomedical anatomy course.

Veterinary Students and Faculty Partner in Developing a Virtual Three-Dimensional (3D) Interactive Touch Screen Canine Anatomy Table

As educational technology advances, it is imperative that universities responsibly and appropriately adapt new approaches to enhance teaching and learning. Over a 6-month period, veterinary students at Ross University School of Veterinary Medicine (RUSVM) spearheaded the improvement of a proprietary prototype virtual interactive three-dimensional (3D), touch screen, canine anatomy table (APEX). Eight veterinary students with a grade of 80% or higher in their anatomy courses were hired as research assistants to identify and characterize 306 virtual anatomical structures. Descriptive statistics were used to assess students' (1) accuracy in reviewing assigned anatomical structures, and (2) perceptions surrounding the use of APEX as an educational anatomical tool. The overall accuracy rating was 3.73 on a 4-point scale, and students reported their experience as enjoyable (median 4 on a 5-point Likert scale) and beneficial to their knowledge of veterinary anatomy (median 4). In addition, 29 RUSVM faculty were surveyed on both the prototype APEX table as well as the student-improved version. Faculty agreement with utilization of APEX in RUSVM curriculum increased from Likert mean = 2.0 to a mean of 3.9 (p = < 0.001) between the two versions. Study results support the use of veterinary students to critically assess the development of anatomical educational tools for veterinary anatomy. Furthermore, students and faculty supported acceptance of technology in teaching and learning veterinary anatomy, and reported enjoyment and benefit of its use.

Interactive 3D Digital Models for Anatomy and Medical Education

This chapter explores the creation and use of interactive, three-dimensional (3D), digital models for anatomy and medical education. Firstly, it looks back over the history and development of virtual 3D anatomy resources before outlining some of the current means of their creation; including photogrammetry, CT and surface scanning, and digital modelling, outlining advantages and disadvantages for each. Various means of distribution are explored, including; virtual learning environments, websites, interactive PDF's, virtual and augmented reality, bespoke applications, and 3D printing, with a particular focus on the level of interactivity each method offers. Finally, and perhaps most importantly, the use of such models for education is discussed. Questions addressed include; How can such models best be used to enhance student learning? How can they be used in the classroom? How can they be used for self-directed study? As well as exploring if they could one day replace human specimens, and how they complement the rise of online and e-learning.

Histology in 3D: development of an online interactive student resource on epithelium

Epithelium is an important and highly specialised tissue type that makes up the lining of inner and outer surfaces of the human body. It is proposed that a self-study tool adds to efficient learning and lecturing on this complicated topic in medical curricula. This paper describes the development and evaluation of an online interactive 3D resource on epithelium for undergraduate medical students. A first evaluation was carried out by means of an online survey (n = 37). The resource was evaluated positively on the website in general, its visual contents and its value and potential for the medical curriculum.

Effective methods of teaching and learning in anatomy as a basic science: A BEME systematic review: BEME guide no. 44

BACKGROUND

Anatomy is a subject essential to medical practice, yet time committed to teaching is on the decline, and resources required to teach anatomy is costly, particularly dissection. Advances in technology are a potential solution to the problem, while maintaining the quality of teaching required for eventual clinical application.

AIM

To identify methods used to teach anatomy, including those demonstrated to enhance knowledge acquisition and retention.

METHODS

PubMed, CINAHL, ERIC, Academic OneFile, ProQuest, SAGE journals and Scopus were search from the earliest entry of each database to 31 August 2015. All included articles were assessed for methodological quality and low quality articles were excluded from the study. Studies were evaluated by assessment scores, qualitative outcomes where included as well as a modified Kirkpatrick model.

RESULTS

A total of 17,820 articles were initially identified, with 29 included in the review. The review found a wide variety of teaching interventions represented in the range of studies, with CAI/CAL studies predominating in terms of teaching interventions, followed by simulation. In addition to this, CAI/CAL and simulation studies demonstrated better results overall compared to traditional teaching methods and there is evidence to support CAI/CAL as a partial replacement for dissection or a valuable tool in conjunction with dissection.

CONCLUSIONS

This review provides evidence in support of the use of alternatives to traditional teaching methods in anatomy, in particular, the use of CAI/CAL with a number of high quality, low risk of bias studies supporting this.

Best teaching practices in anatomy education: A critical review

In this report we review the range of teaching resources and strategies used in anatomy education with the aim of coming up with suggestions about the best teaching practices in this area. There is much debate about suitable methods of delivering anatomical knowledge. Competent clinicians, particularly surgeons, need a deep understanding of anatomy for safe clinical procedures. However, because students have had very limited exposure to anatomy during clinical training, there is a concern that medical students are ill-prepared in anatomy when entering clerkships and residency programs. Therefore, developing effective modalities for teaching anatomy is essential to safe medical practice. Cadaver-based instruction has survived as the main instructional tool for hundreds of years, however, there are differing views on whether full cadaver dissection is still appropriate for a modern undergraduate training. The limitations on curricular time, trained anatomy faculty and resources for gross anatomy courses in integrated or/and system-based curricula, have led many medical schools to abandon costly and time-consuming dissection-based instruction in favour of alternative methods of instruction including prosection, medical imaging, living anatomy and multimedia resources. To date, no single teaching tool has been found to meet curriculum requirements. The best way to teach modern anatomy is by combining multiple pedagogical resources to complement one another, students appear to learn more effectively when multimodal and system-based approaches are integrated. Our review suggests that certain professions would have more benefit from certain educational methods or strategies than others. Full body dissection would be best reserved for medical students, especially those with surgical career intentions, while teaching based on prosections and plastination is more suitable for dental, pharmacy and allied health science students. There is a need to direct future research towards evaluation of the suitability of the new teaching methodologies in new curricula and student perceptions of integrated and multimodal teaching paradigms, and the ability of these to satisfy learning outcomes.

A meta-analysis of the educational effectiveness of three-dimensional visualization technologies in teaching anatomy

Many medical graduates are deficient in anatomy knowledge and perhaps below the standards for safe medical practice. Three-dimensional visualization technology (3DVT) has been advanced as a promising tool to enhance anatomy knowledge. The purpose of this review is to conduct a meta-analysis of the effectiveness of 3DVT in teaching and learning anatomy compared to all teaching methods. The primary outcomes were scores of anatomy knowledge tests expressed as factual or spatial knowledge percentage means. Secondary outcomes were perception scores of the learners. Thirty-six studies met the inclusion criteria including 28 (78%) randomized studies. Based on 2,226 participants including 2,128 from studies with comparison groups, 3DVTs (1) resulted in higher (d = 0.30, 95%CI: 0.02-0.62) factual knowledge, (2) yielded significant better results (d = 0.50, 95%CI: 0.20-0.80) in spatial knowledge acquisition, and (3) produced significant increase in user satisfaction (d = 0.28, 95%CI = 0.12-0.44) and in learners' perception of the effectiveness of the learning tool (d = 0.28, 95%CI = 0.14-0.43). The total mean scores (out of five) and ±SDs for QUESTS's Quality and Strength dimensions were 4.38 (±SD 1.3) and 3.3 (±SD 1.7), respectively. The results have high internal validity, for the improved outcomes of 3DVTs compared to other methods of anatomy teaching. Given that anatomy teaching and learning in the modern medical school appears to be approaching a crisis, 3DVT can be a potential solution to the problem of inadequate anatomy pedagogy.

Teaching medical anatomy: what is the role of imaging today?

PURPOSE

Medical anatomy instruction has been an important issue of debate for many years and imaging anatomy has become an increasingly important component in the field, the role of which has not yet been clearly defined. The aim of the paper was to assess the current deployment of medical imaging in the teaching of anatomy by means of a review of the literature.

MATERIALS

A systematic search was performed using the electronic database PubMed, ScienceDirect and various publisher databases, with combinations of the relevant MeSH terms. A manual research was added.

RESULTS

In most academic curricula, imaging anatomy has been integrated as a part of anatomical education, taught using a very wide variety of strategies. Considerable variation in the time allocation, content and delivery of medical imaging in teaching human anatomy was identified. Given this considerable variation, an objective assessment remains quite difficult.

DISCUSSION

In most publications, students' perceptions regarding anatomical courses including imaging anatomy were investigated by means of questionnaires and, regardless of the method of teaching, it was globally concluded that imaging anatomy enhanced the quality and efficiency of instruction in human anatomy. More objective evaluation based on an increase in students' performance on course examinations or on specific tests performed before and after teaching sessions showed positive results in numerous cases, while mixed results were also indicated by other studies.

CONCLUSION

A relative standardization could be useful in improving the teaching of imaging anatomy, to facilitate its assessment and reinforce its effectiveness.

The current status of anatomy knowledge: where are we now? Where do we need to go and how do we get there?

BACKGROUND

Gross anatomy is no longer considered a science, as it is no longer considered a research-led discipline. Looking to the current status of anatomical teaching, there is worldwide unanimity regarding the steady decline in the provision of contact hours of this basic science in a crowded undergraduate curriculum. The same could apply at the postgraduate level for specialties where surgical anatomy is essential. The long-term consequence of this shortage of optimal anatomical knowledge is thought to have implications on patient safety.

SUMMARY

Where are we now? Anatomy has been, and is still, severely affected by a content and extent reduction policy in most medical schools. Such suboptimal anatomy education has been linked to an increase in some types of medico-legal claims. This could be due in part to the rapid rise of modern learning approaches, lack of gross anatomy teachers, and lack of structured programs. Which direction are we taking, and where do we need to go? The introduction of surface anatomy at the undergraduate level, the implementation of surgical anatomy courses at the postgraduate level, and the revival of dissection courses at both levels could be measures that change the direction of the actual status. How do we get there? (a) The implementation of a national anatomy core curriculum by local medical education societies with a requirement stating the provision of a clinically oriented surface anatomy course. (b) Making room for the time-tested dissection method to be taught in gross anatomy at both levels. (c) The development of explicit and formal teaching in surgical anatomy via postgraduate courses for the concerned specialties. (d) An evaluation of the 3D visualization technology and surgical simulation applied to anatomy teaching.

CONCLUSIONS

The current suboptimal anatomy knowledge should be acknowledged, and ways to change the course should be searched for. I present my views for possible and practical solutions by introducing surface anatomy at an undergraduate level, implementing surgical anatomy courses at a postgraduate level, and returning to the dissection room at both levels.

The role of radiology in preclinical anatomy: a critical review of the past, present, and future

RATIONALE AND OBJECTIVES

Radiology has been an increasingly important component of preclinical anatomy instruction since the 1960s. The global status of medical imaging pedagogies and radiologists' roles in medical anatomy education is not well established but is important in determining the specialty's contribution to undergraduate medical education.

MATERIALS AND METHODS

PubMed was searched with various combinations of MeSH terms including "radiology," "undergraduate medical education," and "anatomy." Articles were reviewed for relevance, and referenced articles of possible relevance were hand-traced to ensure a wide capture of articles.

RESULTS

Although more medical schools around the world are using medical imaging to teach anatomy, some regions, such as the United States, show a decline in the proportion of imaging taught by radiologists. Lectures, small group discussions, and self-instruction remain the mainstay of current pedagogies and have witnessed dramatic changes over the past few decades with respect to the types of imaging used. Newer pedagogies use contextual and hands-on experiences to improve spatial and application principles. Qualitative and quantitative studies report somewhat mixed results of pedagogical efficacies but demonstrate generally high acceptance by students and instructors and often significant exam score improvement. Radiology as a specialty must overcome several challenges for it to become more involved in anatomy education, including teaching incentives and protected academic time.

CONCLUSIONS

As anatomy instruction and clinical medicine grow increasingly digital, it is ever more important that radiologists continue to develop new anatomy pedagogies and contribute to anatomy education in greater roles.

Do images influence assessment in anatomy? Exploring the effect of images on item difficulty and item discrimination

Anatomists often use images in assessments and examinations. This study aims to investigate the influence of different types of images on item difficulty and item discrimination in written assessments. A total of 210 of 460 students volunteered for an extra assessment in a gross anatomy course. This assessment contained 39 test items grouped in seven themes. The answer format alternated per theme and was either a labeled image or an answer list, resulting in two versions containing both images and answer lists. Subjects were randomly assigned to one version. Answer formats were compared through item scores. Both examinations had similar overall difficulty and reliability. Two cross-sectional images resulted in greater item difficulty and item discrimination, compared to an answer list. A schematic image of fetal circulation led to decreased item difficulty and item discrimination. Three images showed variable effects. These results show that effects on assessment scores are dependent on the type of image used. Results from the two cross-sectional images suggest an extra ability is being tested. Data from a scheme of fetal circulation suggest a cueing effect. Variable effects from other images indicate that a context-dependent interaction takes place with the content of questions. The conclusion is that item difficulty and item discrimination can be affected when images are used instead of answer lists; thus, the use of images as a response format has potential implications for the validity of test items.