2nd Cycle Studies - Mestrado
Programming, Domain Transform, Mathematic Analysis, Statistics, Algebra, Distributed Systems, Information Systems, Data Bases.
Theoretical classes (2 hours per week)
Presentation of the concepts, principles and fundamental techniques.
Examples of real situations to illustrate the practical interest of the techniques and its application to real cases.
Practical classes (2 hours per week)
Practical problems addressing the theoretical concepts, analysis and implementation.
To provide the students with the main concepts and technologies to build and integrate information and decision support systems for clinical applications. Namely, the goal is to teach the main clinical informatics protocols and approaches for clinical systems, architectures and technologies for telemedical health solutions (namely for pHealth systems) and diagnosis algorithms applicable for clinical decision support.
The course will contribute to the acquisition of the following competences:
• Analysis and synthesis of complex problems;
• Problem solving, namely in the area of Medical Informatics.
• Team work;
• Critical reasoning.
Chapter I: Medical Informatics
Basic concepts in Medical Informatics
Hospital Information Systems
Chapter II: Hospital Systems
Standards for clinical information representation and transmission (ICD9/10, SNOMED, SIPE);
Electronic Patient Record (CEN 13606, openEHR, HL/ CDA)
HL7 (v2.3 e v3),
Chapter III: Tele-medical Systems
Services and technologies for telemedicine
Telemedicine norms (IEEE 11073 PhD e BSM; H323, H26x, RTP/RTCP/SIP, Sensor networks)
Chapter IV: Algorithms for Diagnosis and Decision Support
Clinical information analysis algorithms for Clinical Decision Support.
Paulo Fernando Pereira de Carvalho
Laboratory work or Field work: 30.0%
J.Henriques and P. Carvalho Slides de Informática Médica, DEI-FCTUC
J.Enderle, Introduction to Biomedical Engineering
Van Bemmel, Handbook of Medical Informatics; Springer-Verlag,1997
Bas Revet DICOM Cook Book for Implementation in Modalities: Chap. 1, 2, Philips Medical Systems,1997
U. Engelmann, The last 10 years of evolution in teleradiology: an overview of concepts and approaches of CHILI,
Int. J,. CARS (2007),315-316
L.Schmitt, Novel ISO/IEEE 11073 Standards for Telehealth Systems Interoperability
Joint Workshop on High Confidence Medical Devices, Software, and Systems and Medical Plug-and-Play Interoperability, pp.146-148,2007
M. Clarke, Developing a Standard for Personal Health Devices based on 11073, eHealth Beyond the Horizon-Get IT there,IOS PRESS, pp.717-722,2008(http://www.hst.aau.dk/~ska/MIE2008/ParalleSessions/PapersForDownloads/10.Sta/SHTI136-0717.pdf