Advances in information systems and technology in conjunction with outside forces requiring improved reporting are driving sweeping changes in the practice of radiology. In most academic radiology departments, there can be at least five separate information systems in daily use, a clinical picture archiving and communication system (PACS), a hospital information system (HIS), a radiology information system (RIS), a voice-recognition dictation system, and an electronic teaching/research file system. A PACS will have incomplete, incorrect, and inconsistent data if manual data entry is used. Correct routing of studies for diagnostic reporting and clinical review requires accurate information about the study type and the referring physician or service, often not easily entered manually. An HIS is a hospital-wide information system used to access patient information, reports from various services, and billing information. The RIS is typically a system specifically designed to place radiology orders, to receive interpretations, and to prepare bills for patients. Voice-recognition systems automatically transcribe the radiologist’s dictation, eliminating transcription delays. Another system that is needed in a teaching hospital holds images and data for research and education. Integration of diverse systems must be performed to provide the functionality required by an electronic radiology department and the services it supports. Health Level 7 (HL7) and Digital Imaging and Communications in Medicine (DICOM) have enabled sharing of data among systems and can be used as the building blocks for truly integrated systems, but the user community and manufacturers need to specify the types of functionality needed to build clinically useful systems. Although technology development has produced the tools for interoperability for clinical and research/educational use, more work needs to be done to define the types of interaction that needs to be performed to realize the potential of these systems.
[1]
Peter M. Kuzmak,et al.
The department of veterans affairs integration of imaging into the healthcare enterprise using the VistA hospital information system and Digital Imaging and Communications in Medicine
,
2009,
Journal of Digital Imaging.
[2]
Ricky K. Taira,et al.
Architectural design and tools to support the transparent access to hospital information systems, radiology information systems, and picture archiving and communication systems
,
1996,
Journal of Digital Imaging.
[3]
Herman Oosterwijk.
DICOM versus HL7 for modality interfacing
,
2009,
Journal of Digital Imaging.
[4]
Bruce I. Reiner,et al.
Recommendations for image prefetch or film digitization strategy based on an analysis of an historic radiology image database
,
2009,
Journal of Digital Imaging.
[5]
F. Ottes,et al.
HIPIN--a generic HIS/RIS-PACS interface based on clinical radiodiagnostic procedures.
,
1993,
European Journal of Radiology.