Medical education in the anatomical sciences: The winds of change continue to blow

At most institutions, education in the anatomical sciences has undergone several changes over the last decade. To identify the changes that have occurred in gross anatomy, microscopic anatomy, neuroscience/neuroanatomy, and embryology courses, directors of these courses were asked to respond to a survey with questions pertaining to total course hours, hours of lecture, and hours of laboratory, whether the course was part of an integrated program or existed as a stand‐alone course, and what type of laboratory experience occurred in the course. These data were compared to data obtained from a similar survey in 2002. Comparison between the data sets suggests several key points some of which include: decreased total hours in gross anatomy and neuroscience/neuroanatomy courses, increased use of virtual microscopy in microscopic anatomy courses, and decreased laboratory hours in embryology courses. Anat Sci Educ 2: 253–259, 2009. © 2009 American Association of Anatomists.     

Age modulates attitudes to whole body donation among medical students

Managing a whole body donor program is necessary for facilitating a traditional dissection‐based anatomy curriculum in medicine and health sciences. Factors which influence body donations to medical science can therefore affect dissection‐based anatomy teaching. In order to determine whether age influences the attitudes of medical students to donations, this study surveyed, by Likert‐type questionnaires, first‐year graduate‐entry medical students attending a dissection‐based anatomy course. In contrast to attitudes among younger traditional‐entry medical students, initial support for whole body donation by an unrelated stranger (83.8%), a family member (43.2%) or by the respondent (40.5%) did not decrease among graduate‐entry medical students after exposure to dissection although there was a significant shift in strength of support for donation by stranger. This suggests that older medical students do not readily modify their pre‐established attitudes to the idea of whole body donation after exposure and experience with dissection. Initial ambivalence among respondents to the idea of donation by family member was followed by opposition to this type of donation. These findings demonstrate that age modulates the influences on a priori attitudes to whole body donation that exposure to dissection causes in younger medical students. Anat Sci Educ 2:167–172, 2009. © 2009 American Association of Anatomists.     

Frequency in usage of FCAT‐approved anatomical terms by North American anatomists

It has been 10 years since the Federative Committee on Anatomical Terminology (FCAT) published Terminologia Anatomica (TA), the current authority on anatomical nomenclature. There exists a perceived lack of unity among anatomists to adopt many FCAT recommended anatomical terms in TA. An e‐mail survey was sent to members of the American Association of Anatomists (AAA) to determine the frequency of FCAT term usage by North American anatomists. The survey consisted of 29 questions, including 25 different sets of synonymic names for selected gross anatomical structures or related terms. Overall results indicate that the FCAT preferred term had the highest frequency of usage in only 44.0% of the survey questions. As frequency of use of FCAT terms decreased, the corresponding frequency of use of non‐FCAT terms increased. Some questions showed almost complete compliance with the FCAT preferred terms (highest = 98.4% usage) to almost complete disregard for the FCAT terms (lowest = 0.8% usage). A slight association (P = 0.06) may exist between FCAT familiarity and concern for usage of synonymic terms. The more familiar anatomists were with the FCAT, the more concerned they were with anatomic synonyms. Anat Sci Ed 2:94‐106, 2009. © 2009 American Association of Anatomists.     

Rewarding the resident teacher

Residents routinely make significant contributions to the education of medical students. However, little attention has been paid to rewarding these individuals for their involvement in these academic activities. This report describes a program that rewards resident teachers with an academic appointment as a Clinical Instructor. The residents participate in the laboratory portion of the anatomy program at the Cleveland Clinic Lerner College of Medicine. They prepare weekly cadaver dissections and present these dissections to the first year medical students. Guidelines developed by the anatomy faculty and approved by the appropriate committees at both the Cleveland Clinic and Case Western Reserve University establish requirements that a resident must meet to qualify for an academic appointment. Evaluation of this program indicates that it has been very successful based on medical student feedback, resident interest in gaining teaching experience, and residency directors appreciation of the opportunity for residents to gain valuable teaching experience in an academic setting.     

Anatomy "steeplechase" online: necessity sometimes is the catalyst for innovation

In most medical schools, summative practical examination in Anatomy usually takes the format of a “steeplechase” (“spotters” or “bell ringers”) conducted in the gross anatomy laboratory using cadaveric material and prosected specimens. Recently, we have started to administer similar examinations online using the quiz facility in WebCT? and Moodle?. This article chronicles how we conceived and developed this method within the peculiar nature of our medical school setting. Over a five year period, practical summative examinations were organized as “steeplechase” online. The online examinations were administered using WebCT? and later Moodle? learning management software. Assessment “objects” were created from the materials available for anatomy teaching. These were digital images of cadaveric materials, radiological, and prosected specimens. In addition, short video clips of 30 seconds duration demonstrating muscle action were produced. These objects were optimized for online viewing and then uploaded onto the learning management software. A bank of questions (multiple choice or short answer type) was then created and linked to the assessment objects. These were used in place of the steeplechase in the computer laboratory. This method serves a crucial purpose in places like ours where continuous availability of human cadavers is impossible. Although time consuming initially, once questions are setup online, future retrieval, and administration becomes convenient especially where there are large batches of students. In addition, the online environment offers distinct advantages with regards to image quality, psychometric analysis of the examination and reduction of staff preparation time compared to traditional “steeplechase.” Anat Sci Educ 4: 115–118, 2011. © 2010 American Association of Anatomists.     

The diverse utility of wet prosections and plastinated specimens in teaching gross anatomy in New Zealand

Anatomical education has traditionally used cadaveric material to study the human body, with both wet prosections and plastinated (PP) material commonly utilized. However, the frequency of use of these different preparation modes in a tertiary institution has not been previously examined. An audit of PP use in the Department of Anatomy and Structural Biology at the University of Otago was performed for 2009, assessing the number of courses, variety, and number of PP used throughout 2009. Results indicate the unique and diverse nature of PP utilization and are discussed with reference to their relative strengths and weaknesses. Such information is useful to those wishing to initiate or maintain programs that involve the teaching of human anatomy with cadaveric material.     

Comparison of traditional methods with 3D computer models in the instruction of hepatobiliary anatomy

This study was designed to determine whether an interactive three-dimensional presentation depicting liver and biliary anatomy is more effective for teaching medical students than a traditional textbook format presentation of the same material. Forty-six medical students volunteered for participation in this study. Baseline demographic information, spatial ability, and knowledge of relevant anatomy were measured. Participants were randomized into two groups and presented with a computer-based interactive learning module comprised of animations and still images to highlight various anatomical structures (3D group), or a computer-based text document containing the same images and text without animation or interactive features (2D group). Following each teaching module, students completed a satisfaction survey and nine-item anatomic knowledge post-test. The 3D group scored higher on the post-test than the 2D group, with a mean score of 74% and 64%, respectively; however, when baseline differences in pretest scores were accounted for, this difference was not statistically significant (P = 0.33). Spatial ability did not statistically significantly correlate with post-test scores for the 3D group or the 2D group. In the post-test satisfaction survey the 3D group expressed a statistically significantly higher overall satisfaction rating compared to students in the 2D control group (4.5 versus 3.7 out of 5, P = 0.02). While the interactive 3D multimedia module received higher satisfaction ratings from students, it neither enhanced nor inhibited learning of complex hepatobiliary anatomy compared to an informationally equivalent traditional textbook style approach. .     

Properties of publications on anatomy in medical education literature

Publications on anatomy in medical education appear to be largely anecdotal. To explore this, we investigated the literature on anatomy in medical education, aiming first to evaluate the contribution of the literature on anatomy in medical education to "best evidence medical education" (BEME) and second to evaluate the development of this literature toward more "best evidence" between 1985 and 2009. Four databases were searched for publications on anatomy in medical education published between 1985 and 2009, resulting in 525 references. Hundred publications were characterized by five variables (journal category, paper subject, paper category, author perspective, and paper perspective). Statements from these publications were characterized by two variables (category and foundation). The publications contained 797 statements that involved the words "anatomy," "anatomical," or "anatomist." Forty-five percent of the publications contained no explicit research question. Forty percent of the statements made were about "teaching methods" and 17% about "teaching content," 8% referred to "practical value," and 10% to "side effects" of anatomy education. Ten percent of the statements were "positional," five percent "traditional," four percent "self-evident," and two percent referred to "quality of care." Fifty-six percent of the statements had no foundation, 17% were founded on empirical data, and 27% by references. These results substantiated the critical comments about the anecdotal nature of the literature. However, it is encouraging to see that between 1985 and 2009 the number of publications is rising that these publications increasingly focus on teaching methods and that an academic writing style is developing. This suggests a growing body of empirical literature about anatomy education.     

An update on the status of anatomical sciences education in United States medical schools

Curricular changes continue at United States medical schools and directors of gross anatomy, microscopic anatomy, neuroscience/neuroanatomy, and embryology courses continue to adjust and modify their offerings. Developing and supplying data related to current trends in anatomical sciences education is important if informed decisions are going to be made in a time of curricular and course revision. Thus, a survey was sent to course directors during the 2012–2013 academic years to gather information on total course hours, lecture and laboratory hours, the type of laboratory experiences, testing and competency evaluation, and the type of curricular approach used at their institution. The data gathered were compared to information obtained from previous surveys and conclusions reached were that only small or no change was observed in total course, lecture and laboratory hours in all four courses; more gross anatomy courses were part of an integrated curriculum since the previous survey; virtual microscopy with and without microscopes was the primary laboratory activity in microscopic anatomy courses; and neuroscience/neuroanatomy and embryology courses were unchanged. Anat Sci Educ 7: 321–325. © 2014 American Association of Anatomists.     

Human cadavers Vs. multimedia simulation: A study of student learning in anatomy

Multimedia and simulation programs are increasingly being used for anatomy instruction, yet it remains unclear how learning with these technologies compares with learning with actual human cadavers. Using a multilevel, quasi‐experimental‐control design, this study compared the effects of “Anatomy and Physiology Revealed” (APR) multimedia learning system with a traditional undergraduate human cadaver laboratory. APR is a model‐based multimedia simulation tool that uses high‐resolution pictures to construct a prosected cadaver. APR also provides animations showing the function of specific anatomical structures. Results showed that the human cadaver laboratory offered a significant advantage over the multimedia simulation program on cadaver‐based measures of identification and explanatory knowledge. These findings reinforce concerns that incorporating multimedia simulation into anatomy instruction requires careful alignment between learning tasks and performance measures. Findings also imply that additional pedagogical strategies are needed to support transfer from simulated to real‐world application of anatomical knowledge. Anat Sci Educ 7: 331–339. © 2014 American Association of Anatomists.