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《Anatomical sciences education》2013,6(1):C1-C1
ON THE COVER: Gross anatomy lecture c. 1888 delivered by Joseph Leidy, M.D., LL.D., (1823‐1891), Professor of Anatomy at the University of Pennsylvania. Dr. Leidy, a founder and first president (1899‐1889) of the American Association of Anatomists, received a Doctor of Medicine degree from the University of Pennsylvania in 1844 and in 1886 he was awarded an honorary Doctor of Learning and Laws degree by Harvard University. According to the University of Pennsylvania catalogue for the 1886/1887 academic year, the course in anatomy for medical students consisted of 3 lectures and 10 hours of practical anatomy classes with an additional 2 lectures per week of topographical anatomy. 相似文献
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The University of Debrecen's Faculty of Medicine has an international, multilingual student population with anatomy courses taught in English to all but Hungarian students. An elective computer‐assisted gross anatomy course, the Computer Human Anatomy (CHA), has been taught in English at the Anatomy Department since 2008. This course focuses on an introduction to anatomical digital images along with clinical cases. This low‐budget course has a large visual component using images from magnetic resonance imaging and computer axial tomogram scans, ultrasound clinical studies, and readily available anatomy software that presents topics which run in parallel to the university's core anatomy curriculum. From the combined computer images and CHA lecture information, students are asked to solve computer‐based clinical anatomy problems in the CHA computer laboratory. A statistical comparison was undertaken of core anatomy oral examination performances of English program first‐year medical students who took the elective CHA course and those who did not in the three academic years 2007–2008, 2008–2009, and 2009–2010. The results of this study indicate that the CHA‐enrolled students improved their performance on required anatomy core curriculum oral examinations (P < 0.001), suggesting that computer‐assisted learning may play an active role in anatomy curriculum improvement. These preliminary results have prompted ongoing evaluation of what specific aspects of CHA are valuable and which students benefit from computer‐assisted learning in a multilingual and diverse cultural environment. Anat Sci Educ. © 2012 American Association of Anatomists. 相似文献
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Shahnoor M. Ullah Andrew Bodrogi Octav Cristea Marjorie Johnson Vivian C. McAlister 《Anatomical sciences education》2012,5(3)
Medical students at the Schulich School of Medicine and Dentistry at The University of Western Ontario in London, Ontario, Canada, learn clinical facts about the hepatobiliary system as transplant surgeon Dr. Vivian McAlister (at the far right) demonstrates Whipple's procedure in the anatomy laboratory. In this issue of ASE, Ullah and colleagues describe an extracurricular student initiative known as the Surgically Oriented Anatomy Program (SOAP), which aims to deliver anatomy teaching from a surgical perspective through the philosophy of “education through recreation”. 相似文献
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Eng‐Tat Ang Kapil Sugand Mikael Hartman Choon‐Sheong Seow Boon‐Huat Bay Peter Abrahams 《Anatomical sciences education》2012,5(4):C1-C1
A group of first year medical students at the Yong Loo Lin School of Medicine of the National University of Singapore study anatomy in the Anatomy Museum at this institution. Using an anatomical model, students discuss the extraocular muscles with their lecturers Drs. Boon‐Huat Bay (center) and Eng‐Tat Ang (third from left). In this issue of ASE, Dr. Ang and his colleagues review the past, present, and future of anatomy education in Singapore's three medical schools. 相似文献
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《Anatomical sciences education》2014,7(2):C1-C1
ON THE COVER: An interesting method to emphasize student collaborative learning in the anatomy course has been developed by Dr. Emeka Anyanwu from the University of Nigeria. A board game entitled Anatomy Adventure encourages and motivates students to participate in the learning process, enhances learning outcomes and knowledge retention. In this picture students in Dr. Anyanwu's anatomy class enjoy playing Anatomy Adventure. Details of the game's design, results of students' perceptions of the game, and a summary of the learning outcomes are reported in this issue of ASE. 相似文献
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Patrick J. Herling B. Tanya Mohseni Derek C. Hill Stacy Chelf Jeffrey A. Rickert Jonathan T. Leo Natalie R. Langley 《Anatomical sciences education》2017,10(3):215-223
Lincoln Memorial University‐DeBusk College of Osteopathic Medicine (LMU‐DCOM) offers an optional three‐week summer Anatomy Boot Camp course (ABC) to facilitate students' transition into medical school and promote retention of anatomy subject matter. The pre‐matriculation program is a supplemental instruction course that utilizes a small group learning format. Boot camp instruction is led by teaching assistants and two anatomy professors. Enrollees gain early exposure to Medical Gross Anatomy (MGA) course subject matter, which is taught in the fall semester, and learn study skills necessary to excel in medical school. No grade is assigned for the course, therefore participants can study without the fear of potentially affecting grades. This study evaluates the effectiveness of the LMU‐DCOM ABC course using data from four consecutive summers. Independent two‐sample t‐tests were used to compare ABC to non‐ABC students for the following variables: incoming grade point average (GPA) and Medical College Admission Test® (MCAT®) scores, MGA written and laboratory practical examination grades, and final MGA course grade. Additionally, a 26‐question survey was administered to 2012–2014 boot camp participants. There were no significant differences in incoming GPA and MCAT scores. However, boot campers scored significantly higher on the first two lecture and laboratory examinations (P < 0.05) for each year of the study. Thereafter scores varied less, suggesting a faster head start for boot camp participants. Mean MGA final grade was on average 3% higher for the boot camp cohort. The survey feedback supports that the ABC course assists with the academic and social transition into medical school. Anat Sci Educ 10: 215–223. © 2016 American Association of Anatomists. 相似文献
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《Anatomical sciences education》2013,6(4):C1-C1
ON THE COVER: Anatomy students at McMaster University, Canada, study a model of the female pelvis. In this issue of ASE, Dr. Wainman and his colleagues compare the efficacy of models, threedimensional simulations and traditional images in learning the anatomy of the pelvis. 相似文献
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Darrell J. R. Evans 《Anatomical sciences education》2022,15(6):1145-1151
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. 相似文献
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Students use a new gross anatomy laboratory facility at Philadelphia University that used to be a lecture room . The details of this efficient and effective conversion are described in the article by Goldman in the current issue of ASE 相似文献
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《Anatomical sciences education》2013,6(5):C1-C1
ON THE COVER: Anatomy students studying the head and neck region in a virtual dissection class at the Sackler Faculty of Medicine, Tel Aviv University, Israel . The students learn the detailed anatomical structures of each region utilizing living individuals' CTscans, assisted by working‐sheets, osteology specimens and anatomy atlases. In this issue of ASE, May and her colleagues present their new CT‐based anatomy curriculum. This paper describes motivations and reasoning for development of the new curriculum, the CT‐based learning system itself with practical examples of virtual dissections and students' assessments of the new anatomy program. 相似文献
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Living AnatoME, a program designed in 2004 by two medical students in conjunction with the Director of Anatomy, teaches musculoskeletal anatomy through yoga and Pilates. Previously offered as an adjunct to the Gross Anatomy course in 2007, Living AnatoME became an official part of the curriculum. Previous research conducted on the program demonstrated its efficacy in providing relaxation and well-being to students who attended. In 2007, with all 144 gross anatomy students required to participate in a 1.5 hour Living AnatoME session on the upper and lower limbs, the impact of the program on students' comprehension of musculoskeletal anatomy was analyzed through the administration of 25-question pre- and post-tests, gauging knowledge in the following domains: upper limb, lower limb, muscle function, palpation, attachment/location, clinical correlate, and control (i.e., material not emphasized during the intervention). Analysis of postintervention tests revealed significant improvement in total Living AnatoME scores as well as in the domains of upper limb, muscle function, and palpation, indicating the possible efficacy of Living AnatoME in teaching anatomy. Performance on control questions also improved, although not significantly, which may indicate the role of other variables (e.g., additional study time) in increased performance. 相似文献
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《Anatomical sciences education》2013,6(3):C1-C1
ON THE COVER: Medical students at the Federal University of Health Sciences of Porto Alegre, in Porto Alegre, Brazil, are viewed from the cadaver's perspective, as they interact during a session in the anatomy laboratory . In this issue of ASE, Dr. Andréa Rocha and her co‐authors discuss the launch of the university's Body Donation Program for Education and Research in Anatomy which has not only led to an increase in the number of bodies donated, but also in the number of individuals signing up to donate their bodies after death. Included in this report is a discussion of the factors that have led to this success. Photograph by Mr. Luciano A.J. Valério. 相似文献
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Macchi V Porzionato A Stecco C Tiengo C Parenti A Cestrone A De Caro R 《Anatomical sciences education》2011,4(3):151-156
Current undergraduate medical curricula provides relatively little time for cadaver dissection. The Department of Human Anatomy and Physiology at the University of Padova has organized a pilot project with the University Hospital for the donation of body parts that are surgically removed for therapeutic purposes and destined under Italian law for destruction. The aim of the project is to improve residents' practical training skills. A survey over the last two years has shown that about 60 body parts were available each year. These included 13 upper limbs or their parts (i.e., forearm with hand, hand, and fingers) and 47 lower limbs or their parts (i.e., legs with feet, feet, or toes). The residents explained the aim of the project to potential donors, and, if patients were willing to donate, their informed consent was obtained. The residents were present in the operating theater during the surgical procedure. In the post-operative phase, the same residents performed dissections on the body part(s), following a teaching schedule prepared by a clinical anatomist, who also assisted residents during their studies. Residents also acted as tutors for undergraduate medical students who attended these dissections. The underlying pathology for which the body part was removed was examined, and surgical procedures were practiced on the body part itself. Our project provided an opportunity for a close relationship between anatomists and surgeons, reinforcing core knowledge of anatomy by appreciation of its clinical importance. The active involvement of residents as learners and as teachers in the various steps of this project improved their knowledge of surgical techniques and helped to establish a sense of ethical responsibility and respect for the human body. This approach involves study of anatomical structures from new perspectives and leads to improved surgical practice. 相似文献
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Biology undergraduate students learn about vertebrate skull structure, function, and evolution. In the Integrative Anatomy course at Central Washington University, students gain a broad perspective on vertebrate (including human) anatomy, histology, and embryology in an evolutionary context. In this issue of ASE, Darda summarizes data gathered from biology departments at fouryear undergraduate institutions in Washington State and suggests how the undergraduate anatomy curriculum might be modified to meet student needs (both pre‐health career students and “regular” biology majors) given the constraints of staffing and time. Pictured in the photograph (taken by CWU photographer Richard Villacres) are Dr. David Darda (on the right) and his students Jessica Christnacht, Tyler Dexter and Spencer Moen. 相似文献
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《Anatomical sciences education》2013,6(2):i-iii
ON THE COVER: Groups of dental, medical, pharmacy and physical therapy students at the University of California San Francisco Anatomy Learning Center using iPads in the anatomy laboratory. In this issue of ASE, Chandler Mayfield and his research team describe how these devices increase student engagement and enhance the effectiveness and efficiency of learning in the dynamic social learning environment of the anatomy laboratory. Photograph by Patty Nason. 相似文献
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Hayes JA Ivanusic JJ le Roux CM Hatzopoulos K Gonsalvez D Hong S Durward C 《Anatomical sciences education》2011,4(5):280-284
After Phnom Penh was liberated from the Khmer Rouge in 1979, health science education in Cambodia had to be completely rebuilt. In this article, the authors report the results of a teaching collaboration between the University of Melbourne (Australia), the International University (Cambodia), and the University of Health Sciences (Cambodia). The main objectives in this collaboration were to provide the opportunity for dental and medical students in Cambodia to attend resourced anatomy workshops and to provide an opportunity for anatomy teachers in Cambodia to gain experience in implementing anatomy workshops of the style that are routinely used in the medical and dental curricula at the University of Melbourne. Experienced anatomy educators from the Department of Anatomy and Cell Biology, University of Melbourne, designed and resourced a series of workshops and then delivered these in collaboration with Cambodian teaching staff in Phnom Penh. The Cambodian students who participated in the workshops were incredibly engaged and enthusiastic. The students' evaluations (by questionnaire) indicated a very positive response to the workshops. All of the workshop resources were donated to the two universities so that the staff could continue to implement similar workshops, and plans were developed to continue our collaboration by developing more resourced workshops for this purpose in the future. Two staff members from Cambodia will travel to Melbourne to participate in anatomy workshops and dissection classes at the University of Melbourne. We hope that this extension of the collaboration provides further support and impetus for the development of anatomy education in Cambodia in the future. 相似文献
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Doris George Yohannan Aswathy Maria Oommen Bhaskaran Jayaprasad Amogh Nithin Kadakampallil Raju Rakesh Omana Suresh Santhanu Jagannath Nair 《Anatomical sciences education》2022,15(3):552-565
Spatial understanding of complex anatomical concepts is often a challenge for learners, as well as for educators. It is even more challenging for students with low mental spatial abilities. There are many options to teach spatial relationships, ranging from simple models to high-end three-dimensional (3D) virtual reality tools. Using a randomized controlled trial design, this study explored the use of a unique combination of deictic and iconic hand gestures to enhance spatial anatomical understanding, coining the term “Air Anatomy”. The control group (n = 45) was given a lecture on the anatomy of extraocular muscles, while the intervention group (n = 49) received the same lecture including “Air Anatomy” hand gestures. When compared to the control group, the post-test scores for the intervention group were significantly higher for basic recall (P < 0.001; Mann–Whitney U test) and for the application of knowledge (P = 0.015; Mann–Whitney U test). Students with low to moderate spatial ability (as assessed by a mental rotation test) were found to benefit most by this technique. Students in the intervention group also reported a lower extrinsic cognitive load and higher germane load, when compared to the control group. An instructional skills questionnaire survey indicated the effectiveness of this technique in improving overall classroom experience. Feedback of the students in the intervention group was also favorable for instruction using “Air Anatomy”. The study suggests that “Air Anatomy” is a useful, “no-cost”, accessible method that aids spatial understanding of anatomical concepts. 相似文献
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《Anatomical sciences education》2014,7(6):C1-C1
ON THE COVER: Students at Monash University in the Centre for Human Anatomy Education . In this issue of ASE, Professor Paul McMenamin and co‐authors describe how they have developed novel methods to produce 3D printed copies of anatomical specimens with data derived from either laser scanning or CT imaging. These 3D prints are being used here in a class of medical students learning head and neck anatomy. The authors hope these 3D prints will act not only to supplement cadaver based instruction but moreover, they point out in their article the potential value of 3D prints for institutions and countries where access to cadaver material is difficult for cultural, ethical or logistic reasons. Photograph by Gerard Hynes. 相似文献
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Geoffroy P.J.C. Noël 《Anatomical sciences education》2013,6(1):67-71
Anatomy teaching is seeing a decline in both lecture and laboratory hours across many medical schools in North America. New strategies are therefore needed to not only make anatomy teaching more clinically integrated, but also to implement new interactive teaching techniques to help students more efficiently grasp the complex organization of the human body. Among the difficult anatomical concepts that students struggle to understand, the anatomy of the peritoneal cavity with its complex projections of peritoneum could benefit strongly from new learning aids. In this report, an innovative teaching tool is presented to engage students during both lecture and laboratory, and help them build three‐dimensional (3D) mental maps of peritoneal cavity. The model consists of a patchwork of mesenteries and gut made from colored cloth stitched together onto a T‐shirt to denote the origin and outflow of each peritoneum projection. As the lecturer wears the life‐size model, the students can appreciate the 3D organization of the peritoneal cavity on a living body. In addition, the T‐shirt model can be used in parallel with dissection to ensure a strong reinforcement of the spatial understanding of the peritoneal cavity. Anat Sci Educ. © 2012 American Association of Anatomists. 相似文献