The web browser as a unifying agent for radiology and the health care enterprise.

A variety of information systems in the health care enterprise are used to store patient information. The hospital information system (HIS), the picture archiving and communications system (PACS), the radiology information systems (RIS), and patient records, for example, are often supported by separate and distinct systems. A referring physician reviewing a radiologist's report often does not have convenient access to the original radiologic images. A radiologist interpreting a radiologic examination may not have convenient access to clinical information generated outside of the radiology department. Clearly, convenient and quick access to all relevant patient information is the ideal in delivering quality patient care. Recently, the web browser has become increasingly well accepted as the "universal client" for viewing a wide variety of information. We believe that the web browser may provide the universal "window" to the variety of distinct information sources required by the physician, and may provide unification of these information sources through hypertext links. We specifically looked at the feasibility of using the web browser to view scanned patient charts. A total of 5,200 patient charts (131,000 pages) were scanned into a structured query language (SQL) database. Access to these records was made available on the hospital local area network (LAN), and on the Internet over the worldwide web. Comparison measurements were made of the time required to access patient records using a dedicated viewing application and using a web browser.

Upgrading legacy systems for the Integrating the Healthcare Enterprise (IHE) initiative.

As technology vendors have adopted standardized communication protocols, including Digital Imaging and Communications in Medicine (DICOM) and Health Level 7 (HL7), interconnectivity between various devices has been simplified. The recent Integrating the Healthcare Enterprise (IHE) initiative will further promote the use of standards for interconnectivity. Until these standards are universally accepted, we must live in a transitional world where some components will communicate without any modification, while others require upgrades to allow them to meet the new standards. In designing and implementing the network at University of California Los Angeles (UCLA) Medical Center, some integration problems were found that are common to the industry. Creating departmental workflow with only a limited number of acquisition devices supporting the DICOM worklist was the initial problem addressed. Although many manufacturers provide this function for their new scanners, upgrading existing equipment is often cost-prohibitive. To ensure the quality of the demographic information in the image data and the workflow of the system, third-party worklist components were required to upgrade the legacy acquisition devices. These worklist components provided a standards-compliant facade on top of the legacy equipment, allowing seamless integration with the remainder of the network. To support the distribution of worklist information and the feedback of procedure status, a bidirectional HL7/DICOM protocol bridge was required. Although many radiology information system (RIS) manufacturers will be providing native DICOM capabilities in future product releases, the majority of current RIS installations have no DICOM functionality. Similar to the legacy scanners, the HL7/DICOM bridge provided a DICOM-compliant facade to the non-DICOM RIS. The additional use of web-based technology for worklist display further extended flexibility of this facade. We have demonstrated standards-compliant facade technology allowing legacy components to operate seamlessly in an IHE environment at a fraction of the cost of upgrading to new equipment.

Interfacing the radiology information system to the modality: an integrated approach.

The radiology information system (RIS) provides patient and examination information that is used in setting up and performing a radiologic procedure. In a digital imaging environment, information from the RIS can also be used to populate fields in the Digital Imaging and Communications in Medicine (DICOM) image header. Ideally, information from the RIS should be available at the modality at the time of the examination, and automatically be attached to the image in the appropriate DICOM fields before storage in the picture archiving and communications system (PACS). We have designed a highly integrated RIS interface for a digital radiography (DR) system. This interface employs browser technology to make RIS information conveniently available at the modality, and DICOM modality performed procedure step (MPPS) for RIS/DR information exchange. A novel feature of our approach is that a single display screen at the modality is used to alternatively display either the modality control window or the RIS window. Full access to RIS capabilities is available at the modality, including worklists and prior reports.