Browse > Article
http://dx.doi.org/10.6109/jkiice.2008.12.3.500

Implementation and Design of WISD(Web Interface System based DICOM) for Efficient Sharing of Medical Information between Clinics  

Cho, Ik-Sung (부산대학교 바이오정보전자공학과)
Kwon, Hyeog-Soong (부산대학교 바이오정보전자공학과)
Publication Information
Journal of the Korea Institute of Information and Communication Engineering / v.12, no.3, 2008 , pp. 500-508 More about this Journal
Abstract
For efficient compatible system between medical clinics, the medical information has to be built on a standardized protocol such as a HL7 for text data and a DICOM for image data. But it is difficult to exchange information between medical clinics because the systems and softwares are different and also a structure of data and a type of code. Therefore we analyze a structure of DICOM file and design an integrated database for effective information sharing and exchange. The WISD system suggested in this paper separate the DICOM file transmitted by medical clinics to text data and image data and store it in the integrated DB(database) by standardized protocol respectively. It is very efficient that each medical clinic can search and exchange information by web browser using the suggested system. The WISD system can not only search and control of image data and patient information through integrated database and internet, but share medical information without extra charge like construction of new system.
Keywords
DICOM; HL7; WISD; Database;
Citations & Related Records
연도 인용수 순위
  • Reference
1 S. Erberich, M. Bhandekar, A. Chervenak, and C. Kesselman, "DICOM grid interface service for clinical and research PACS: a globus toolkit web service for medical data grids," in International Journal of Computer Assisted Radiology and Surgery, vol. 1, no. 7, June 2006, pp. 87-105   DOI
2 ACR-NEMA Committee Working Group VIS 255, Digital Imaging and Communications in Medicine, 1993
3 권기범, 김일곤, "DICOM 표준을 지원하는 웹 기반 의료정보 시스템", 정보과학회논문지:컴퓨팅의 실제, 제7권 제4호, pp.317-323, 2001. 8
4 James W. Cooper, Java Design Patterns : A Tutorial, Addison-Wesley, 2000
5 NEMA PS 3.5-2003, Digital Imaging and Communication in Medicine(DICOM) Part 4 : Service Class Specification, National Electrical Manufactures Association
6 최형식, "PACS(Picture archiving and communication system)", 전자공학회지, 제33권 11호 통권 제270호, pp.30-36, 2006년 11월
7 박규완, "의료영상 저장전송 시스템 구축을 위한 표준 연동 방안", 서강대학교 정보통신대학원 석사학위논문, 2005
8 I.Blanquer, V. Hernandez, F. Mas, and D. Segrelles, "A middleware grid for storing, retrieving and processing DICOM medical images," in Workshop on Distributed Databases and Processing in Medical Image Computing(DIDAMIC), 2004
9 W.D. Bidgood Jr., S.C. Horii, F.W. Prior, and D.E. Van Syckle, "Understanding and using DICOM, the data interchange standard for biomedical imaging," J Am Med Inform Assoc, vol. 4, no. 3, pp.199-212, 1997   DOI   ScienceOn
10 S.Jacob, R.Singh, M.Mathew, and B.K.Khandheria, "Framework for a virtual center to support multi-center clinical trials in cardiology," in Proc, IEEE Conf.Comput Cardiol., Cambridge, MA, 2000, vol.27, pp.583-586
11 C.J.Acuna, E.Marcos, V.Castro, and J.A.Hernandez, A Web Information System for Medical Image Management(Lecture Notes in Computer Science, Biological and Medical Data Analysis, vol, 3337). Berlin, Germany: Springer-Verlag, Dec.2004, pp.49-59
12 NEMA PS 3.402003. Digital Imaging and Communication in Medicine(DICOM) Part 4 : Service Class Specification, National Electrical Manufactures Association
13 DICOM Standards Committee, Working Group 6, DICOM Supplement 85 Web Access to DICOM Persistent Objects, Virginia 22209 USA, OCT.28, 2003