Transforming clinical imaging and 3D data for virtual reality learning objects: HTML5 and mobile devices implementation.

Web deployable anatomical simulations or "virtual reality learning objects" can easily be produced with QuickTime VR software, but their use for online and mobile learning is being limited by the declining support for web browser plug-ins for personal computers and unavailability on popular mobile devices like Apple iPad and Android tablets. This article describes complementary methods for creating comparable, multiplatform VR learning objects in the new HTML5 standard format, circumventing platform-specific limitations imposed by the QuickTime VR multimedia file format. Multiple types or "dimensions" of anatomical information can be embedded in such learning objects, supporting different kinds of online learning applications, including interactive atlases, examination questions, and complex, multi-structure presentations. Such HTML5 VR learning objects are usable on new mobile devices that do not support QuickTime VR, as well as on personal computers. Furthermore, HTML5 VR learning objects can be embedded in "ebook" document files, supporting the development of new types of electronic textbooks on mobile devices that are increasingly popular and self-adopted for mobile learning.

An eight-year study of online lecture use in a medical gross anatomy and embryology course.

Online lectures have been used in lieu of live lectures in our gross anatomy and embryology course for the past eight years. We examined patterns of online lecture use by our students and related that use to academic entry measures, gender and examination performance. Detailed access records identified by student were available from server logs. Total views per page of lecture material increased over the first six years, then decreased markedly between years seven and eight, possibly due to the recent availability of alternate forms of lecture audio. Lecture use peaked in midafternoon and again in the evening, although some use was seen at all hours. Usage was highest at midweek and lowest on Fridays as might be expected. Individual student's use varied widely from rates equivalent to less than one viewing/page to more than three viewings per page. Overall use by male students was greater than that of females and gender-specific differences in the daily pattern were seen. Lecture use was correlated to the Medical College Admission Test(®) (MCAT(®)) Verbal Reasoning and Physical Sciences scores but not to composite MCAT scores or undergraduate grade point average. Overall use appeared to be driven by scheduled team-based learning (TBL) sessions and major examinations. Specific subsets of lecture material were most often viewed before related TBL sessions and again during review for examinations. A small but significant correlation between lecture use and examination and course performance was seen, specifically in the male student population. These findings, along with earlier observations, suggest that varied use of online lectures is attributable to multiple factors.

Team-based learning in a medical gross anatomy and embryology course.

The application of team-based learning (TBL) as a major component of a medical gross anatomy course was evaluated. TBL is a method of small group instruction that addresses some of the shortcomings of other small-group teaching approaches. The core components of TBL were instituted in 12 small group sessions in the course. Each session included objective-oriented assignments, an individual readiness assurance test, a group readiness assurance test and a group application problem. Peer evaluation was carried out on a regular basis. Scores from TBL session activities and course examinations were analyzed and compared to previous years' course performance. Student course evaluation data and faculty feedback were also collected. Student evaluation data and faculty response indicated strong support for the TBL method as it was implemented in the course. Faculty noted improvements in students' day-to-day preparedness and group problem solving skills. Students' mean scores on exams were not significantly different from those of previous years. There was, however, a significantly smaller variance in examination scores that was reflected in a lower course failure rate compared to previous years. Correlation analyses of TBL and examination performance suggested that individual readiness assurance test performance is a good predictor of examination performance. TBL proved to be a superior method for small group learning in our anatomy course. Student performance suggested that TBL may most benefit academically at-risk students who are forced to study more consistently, are provided regular feedback on their preparedness and given the opportunity to develop higher reasoning skills.

Preserving and sharing examples of anatomical variation and developmental anomalies via photorealistic virtual reality.

Computer graphics technology has made it possible to create photographic-quality virtual specimens from real anatomical material. One technique for doing this, QuickTime Virtual Reality (QTVR), results in virtual specimens that are easily shared on the Internet and displayed as standalone entities or incorporated into complex programs or Web sites. A compelling use of this technology is the sharing of rare specimens such as unusual variations, developmental anomalies or gross pathology. These types of specimens have traditionally been confined to anatomical museums, but could serve a much more useful existence as freely shared virtual specimens. An example presented here is a relatively rare developmental defect in the embryonic aortic arches that results in a right-sided aortic arch coursing posterior to the trachea and esophagus. In a time of ever increasing restraints on the practical side of anatomy education, an Internet-based library of human variation and other rare specimens would be a useful supplement to students' limited exposure to the human body. Since the discovery and preparation of specimens would be the rate-limiting step in producing such a collection, we propose the establishment of a center for virtual specimen creation and preservation through a cooperative effort by gross anatomists and pathologists in contributing the source material. This collection, a work in progress, is available at www.anatomy.wright.edu/qtvr.

Analysis of medical students' use of web-based resources for a gross anatomy and embryology course.

An extensive Web site supporting our gross anatomy and embryology course, which includes various course management pages as well as online lectures, has been in use for the past 2 years. To determine how this Web site is being used by students, we examined server log files to track access to each of the Web pages on the site. Using this data, along with student responses on a course evaluation, we have been able to quantitatively characterize Web site use and gain some insight into students' perception of the site. This analysis showed that all of the resources available online, including course management information, exam reviews, online lectures, and dissection guides were heavily used and deemed useful by students. Despite universal computer ownership and Internet access from home, most use of the Web site was from on-campus computer labs, especially for lectures with audio streams. This was probably due to the limited bandwidth of off-campus connections. Data on the day of the week and time of the day of access showed peak activity at expected times, but also significant activity at all hours, as students took full advantage of 'access on demand.' This on-demand nature of the Web was also evident in students' viewing of lectures in short sessions rather than in one sitting. Online lectures were used regularly by a majority of students both before and after corresponding class sessions, however, this was not the preferred venue for all students. Although the flexibility of Web-based resources accommodates students' varying study habits, the alternative of traditional print material and live lectures should not be abandoned lightly.