The Center for Biomedical Informatics
State University of Campinas, Brazil


Research Abstracts


Adding Java and CGI Functionality to an On-Line Atlas of Anatomy for Medical Education

R.P. Quaresma1, R.M.E. Sabbatini1, S.H. Cardoso1, J.R. Ortale3, E.A. Rodrigues1, A. Kondo3 and G.L.P. Ubiali3
1
Center for Biomedical Informatics and 2Faculty of Medical Sciences, State University of Campinas, 3Center of Biological and Health Sciences, Pontifical Catholic University of Campinas, Brazil


INTRODUCTION AND AIMS: Anatomical Atlases are an integral part of basic health sciences education. Recently, there has been an increased importance of sectional anatomy atlases due to the advancements of tomographic and to the difficulties to relate topographic anatomy to the tridimensional anatomy. Computer-based atlases have been increasingly useful for this purpose. Delivery via
the Internet and World Wide Web has also been tried with success, such as in the Digital Anatomist1. Interactivity may be achieved via HTML maps, CGI (Common Gateway Interface) scripting and embedded Java applications2. Aimming to advance beyond the concept of atlas browsing and navigation mechanisms via WWW, it was used extensive client-side processing via JavaScript and applets and server-side processing via CGI programs. Our final goal was to produce an on-line resource truly useful to support assynchronous, distributed learning activities in anatomy, using the images available through the Visible Human Project.

MATERIALS AND METHODS: The system is composed by frame-based home pages, compatible with HTML 3.0 standard, for Java-enabled browsers. Each page is subdivided into areas : menu frame, including navigation to the previous/next slice, and point-and-click slice selection; image tools as the Java applet control of brightness and contrast, local zoom control, and switch between labelled and non-labelled slices; finally, an image display frame, and the text frame. Another properties include hyperlinks to related URLs, email links to the authors, users annotations on text via applets, and on-line quizzes to improve the skill of the visitor. 

RESULTS AND CONCLUSION: The implemented functions add full interactive, CD-ROM like functionality to an on-line atlas, with all the advantages provided by Internet (constant updating and maintenance). Additional funcionality includes facilities for self-study, providing an adequate tool to support autonomous learning of sectional anatomy. The interface is user-friendly, requiring no training.
Some predicted disadvantages are due to the speed of image downloading, and to the Internet-Java programming itself, which cuts bandwidth by removing server-side processing. Our future goals include the support for study of correlative anatomy using CT and MRI images, provided by the Visible Human Project.


Keywords: Training, medical education, anatomy, image processing, knowledge acquisition, WWW, internet, Java programming

Full text is available Adobe PDF format*


Presented at: Fall Meeting of the American Medical Informatics Association, 1998.


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Last Updated: November 2, 1998

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