Consulting with Radiologists outside the Hospital by Using Java (original) (raw)
Related papers
Teleradiology for Consultation between Practitioners and Radiologists
Annals of The New York Academy of Sciences, 1992
At The University of Iowa long-term interdepartmental collaboration in teleradiology has occurred between faculty in the Departments of Family Practice and Radiology, beginning with our 1989 study. ' We find that such collaboration is particularly valuable in investigating the use of teleradiology in rural areas. Most health care in rural America is delivered by primary care physicians, usually family practitioners in small hospitals with limited facilities. The access of practitioners (and patients) in rural situations to consultation with radiologists is frequently limited by distance and by the marginal economic feasibility of providing prompt services. For example, in Iowa, 204 of the 216 radiologists in the state are located in the 23 most populated of its 99 counties, and 65 of the 99 counties in Iowa have no radiologists in residence.? Another factor often of importance is insufficient expertise of the radiologist in the rural setting in interpreting new technologies such as CT, MRI, and those involving nuclear medicine. Inasmuch as consultation of specialists with family practice practitioners is highly desired? availability of such consultation is of great importance in selecting a site for practice. Facilitation of consultation by the use of teleradiology therefore can add to the attractiveness of practice in rural communities.
Four Years with Teleradiology: A Technical Description
Telemedicine Journal, 1997
Since September 1992, Troms Military Hospital (Norway) has been connected to the larger University Hospital of Tromso by a teleradiology link transmitting about 6000 examinations annually. In the spring of 1995, the system was upgraded with a digital X-ray unit, thereby almost eliminating the scanning of analog radiographs. This article describes the technical development of the link. The discussion suggests ways of improving the teleradiology link, particularly in terms of integrating the radiology information system (RIS) and picture archiving and communication system (PACS).
The impact of teleradiology in clinical practice--a Malaysian perspective
The Medical journal of Malaysia, 1999
Teleradiology is the most mature and rapidly evolving specialty in telemedicine. The use of teleradiology has grown tremendously during the past few years. This article describes the role of teleradiology in health care along with a brief history of its development in tandem with advances in telecommunications and computer technologies. Teleradiology standards, image acquisition, data compression, transmission and image interpretation are summarised. The impact of teleradiology in the practice of radiology, traces the evolution of the modality especially in the Malaysian perspective and its current and future role are discussed.
RADIOLOGY INFORMATION SYSTEM Contact
The development of information systems in health care is approaching the process of integration of various systems used in a single computer so that we witness today the omnipresent idea of merging the functions of the clinical-hospital (CHIS) and radiology (RIS) information system. Radiological Information System (RIS) is a technology solution to complete computerization and modernization of the work of the radiology center, and transition from film to paper and ful electronic management and digital recordings. RIS creates the digital radiology center where information is always available at the right place and at the right time. Within the realisation of RIS, it is necessary to follow the standards and systems relating to the specific RIS, which are: DICOM (Digital Imaging and Communications in Medicine), PACS (Picture Archiving and Communication System), HL7 (Health Level Seven). The relevant links of modern RIS are teleradiology and mobile radiology. The authors conclude that the introduction of RIS, HIS and other information systems are reflected in the automation, reduction of possible errors, increase in diagnostic and therapeutic quality, lower costs for materials, the increase in efficiency, saving time and others. Acta Medica Medianae 2012;51(4):39-46.
The State of Teleradiology in 2003 and Changes Since 1999
American Journal of Roentgenology, 2007
Survey of Practices. Responses were weighted to represent the distribution of individual radiologists and radiology practices nationwide. We present descriptive statistics and multivariable regression analysis results on the prevalence and uses of teleradiology in 2003 and comparisons with 1999.
Management: Journal for Theory and Practice Management, 2013
Teleradiology is a system of electronically transmitting a radiological image from one location to another for interpreting or consulting purposes. Teleradiography allows for a prompt interpretation of radiological examinations over a distance and offers a range of opportunities for a secondary, consultative examination. In addition, teleradiology enables a continual education. The users geographically distant from one another are in a position to simultaneously observe radiological image while holding a teleconference using the Voice over Internet Protocol (VoIP). Teleradiograhy is a most widely used form of telemedicine. Such a method of describing radiological examinations and making diagnosis over a distance started in the 1960s. In that period, as well as in the 1970s, an interactive television transmission was used Bird, 1972. In Serbia, the television transmission was implemented at the Institute for Radiology, the Military Medical Academy (VMA) in Belgrade as early as 1970s....
ESR white paper on teleradiology: an update from the teleradiology subgroup
Insights into imaging, 2014
Teleradiology services are increasingly integrated into the workflow of radiological departments in EU-member states. The current technological possibilities and European political agenda are both opening the way for cross-border telemedicine services including teleradiology. This is bringing new opportunities for both users and providers of teleradiology services, which has led to the idea of producing an updated version of earlier ESR statements and communications on teleradiology. For this purpose the e-Health and Informatics subcommittee established a Teleradiology subgroup. This white paper proposes comprehensive best-practice guidelines for teleradiology usage, focussing on services within the European Union, as prepared by the members of the ESR teleradiology subgroup. • Teleradiology describes the provision of radiology services remote from the site where the images are obtained. • Teleradiology should form part of and be integrated with the wide spectrum of radiology servic...
Technological Advances in Teleradiology
1996
Teleradiology consists of a set of added-value telematic services, implemented over an advanced telecommunications infrastructure and supported by different information technologies and related applications.