Collaborative annotation of medical images via web browser for teleradiology

This article presents the design and implementation of a web-based medical image annotation system for teleradiology. Different from other applications, the system is accessed via web browser, and allows geographically separated radiologists to interpret and annotate the same medical image collaboratively. The system supports annotation of multi-slice medical image rendered from any axis. A data model, named Medical Image Annotation Model (MIAM), is proposed to describe and store annotations made by different radiologists to the same medical image. Using service oriented architecture (SOA), we design a system framework to support collaboration among radiologists. We also propose a method for medical image distribution from web server to web browser. A prototype system is built according to the Rich Internet Application paradigm. System evaluation in terms of system usability and performance of collaborative image annotation has been performed in order to prove the availability of the system.

[1]  Dimitrios K. Lymberopoulos,et al.  WADA Service: An Extension of DICOM WADO Service , 2009, IEEE Transactions on Information Technology in Biomedicine.

[2]  Fusheng Wang,et al.  Native Web Browser Enabled SVG-based Collaborative Multimedia Annotation for Medical Images , 2008, 2008 IEEE 24th International Conference on Data Engineering.

[3]  Juan Antonio Hernández Tamames,et al.  Web-PACS for Multicenter Clinical Trials , 2007, IEEE Transactions on Information Technology in Biomedicine.

[4]  D. Peck Digital Imaging and Communications in Medicine (DICOM): A Practical Introduction and Survival Guide , 2009, Journal of Nuclear Medicine.

[5]  Hamid Soltanian-Zadeh,et al.  Web-based interactive 2D/3D medical image processing and visualization software , 2010, Comput. Methods Programs Biomed..

[6]  H K Huang,et al.  Medical image security in a HIPAA mandated PACS environment. , 2003, Computerized medical imaging and graphics : the official journal of the Computerized Medical Imaging Society.

[7]  Daniel L. Rubin,et al.  Annotation and Image Markup: Accessing and Interoperating with the Semantic Content in Medical Imaging , 2009, IEEE Intelligent Systems.

[8]  Denise R. Aberle,et al.  openSourcePACS: An Extensible Infrastructure for Medical Image Management , 2007, IEEE Transactions on Information Technology in Biomedicine.

[9]  Jean-Philippe Thiran,et al.  Interactive DICOM image transmission and telediagnosis over the European ATM network , 1998, IEEE Transactions on Information Technology in Biomedicine.

[10]  Reto Meuli,et al.  Real-time telediagnosis of radiological images through an asynchronous transfer mode network: The ARTeMeD project , 2009, Journal of Digital Imaging.

[11]  Tony Pan,et al.  Managing and querying image annotation and markup in XML , 2010, Medical Imaging.

[12]  J R Pilling,et al.  Picture archiving and communication systems: the users' view. , 2003, The British journal of radiology.

[13]  Daniel L. Rubin,et al.  The caBIG™ Annotation and Image Markup Project , 2009, Journal of Digital Imaging.

[14]  Mariana del Fresno,et al.  Dcm-Ar: A fast Flash-based Web-PACS viewer for displaying large DICOM images , 2010, 2010 Annual International Conference of the IEEE Engineering in Medicine and Biology.

[15]  Eigil Samset,et al.  Communication of Medical Images, Text, and Messages in Inter-Enterprise Systems: A Case Study in Norway , 2007, IEEE Transactions on Information Technology in Biomedicine.

[16]  Yongwang Zhao,et al.  Managing and Collaboratively Processing Medical Image via the Web , 2012, WAIM Workshops.