PACS & RIS & HIS 2023 PDF
Document Details
Uploaded by SuitableSard204
Kuwait University
2023
Dr. Raed S. A. Saeed
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Summary
This document provides an overview of PACS (Picture Archiving and Communication Systems), RIS (Radiology Information Systems), and HIS (Hospital Information Systems) in medical imaging. It details their fundamental components, advantages, and disadvantages.
Full Transcript
PACS & RIS & HIS DEFINITION PACS in Medicine is; a medical Imaging Technology used for storing, retrieving, presenting and sharing images produced by various medical imaging modalities such a x ray, CT scan , MRI and Ultrasound. Furthermore, digitally transmit electronic images and clinically-rel...
PACS & RIS & HIS DEFINITION PACS in Medicine is; a medical Imaging Technology used for storing, retrieving, presenting and sharing images produced by various medical imaging modalities such a x ray, CT scan , MRI and Ultrasound. Furthermore, digitally transmit electronic images and clinically-relevant reports P - Picture: the digital medical image(s) A - Archiving: the “electronic” storage of the images C - Communication: the routing (retrieval/sending) and displaying of the images S - System: the specialized computer network that manages the complete system PACS Fundamental Parts - Digital acquisition devices: are the sources of the images. CT, MRI, US, Digital angiography, fluoroscopy & mammography - The Network: ties the PACS components together - Database server: high speed and robust central computer to process information - Archival server: responsible for storing images. A server enables short term (fast retrieval) and long term (slower retrieval) storage - Radiology Information System (RIS): system that maintains patient demographics, scheduling, billing information and interpretations - Workstation or soft copy display: contains the software and hardware to access the PACS. Replaces the standard light box or view box Film-based acquisition and archiving (hard-copy film and document storage) & Digital acquisition and archiving (soft-copy storage) - WHY DO WE NEED PACS ? Simultaneous access to previous image data Simultaneous review by multiple physicians and radiologists Rapid transfer of information Overcome the limitations of film-based systems - LIMITATIONS OF FILM BASED SYSTEM : Space, Man power, Cost, Simultaneous access, Inability for rapid retrieval & Chances of losing ADVANTAGES OF PACS: • Elimination of less efficient traditional film libraries and their inherent problem of physical space requirements for hard-copy images • Convenient search for and retrieval of images • Rapid (electronic) transfer of images within the hospital • Ease in consulting outside specialists via teleradiology • Simultaneous viewing of images at multiple locations • Elimination of misplaced, damaged, or missing films (hard-copy-replacements) • Increase in efficiency of reporting exams with soft-copy images DIS-ADVANTAGES OF PACS: - Cost “ expensive project “ - Additional training is needed on PACS software - Computer engineer availability required, to serve daily faults and problems - Workstation limits Viewing digital images a little slower than routine x-ray films - Black and white computer monitors not as bright as traditional x-ray view boxes. - Confidentiality can be problem PACS Image Format/Communications; - PACS can accept any image that is in digital imaging and communications in medicine (DICOM) format “DIGITAL IMAING and COMPUTERS in MEDICINE” - DICOM is universally accepted industry standard for transferring radiologic images and their medical details between computers - HL7 (Health Care Level 7); is a communication standard for textual information - A vendor neutral archive (VNA) is a technology that stores medical images in a standard format and interface - The trademark of VNAs is exchanging image information from various PACS regardless of the vendor; by comparison, PACS do not exchange data with each other well Major Components of workflow to radiology practices - RIS (Radiology Information Systems) - HIS (Hospital Information Systems) - PACS (Picture Archiving and Communication System) - VNA( Vendor Neutral Archival ) RADIOLOGY INFORMATION SYSTEM (RIS) - It drives the workflow and transfer of information across the department - It deals with nonimage text based computing functions such as scheduling of an appointment, generation of worklist, order tracking, billing and reporting - RIS has several basic functions: Patient management Scheduling Patient tracking Results reporting Image tracking Integration of PACS & RIS & HIS -The PACS should be integrated with; Radiology Information System (RIS) or the Hospital Information System (HIS). WHY ! Why to Choose an Integrated RIS-PACS-Workflow Solution 1- Increased efficiency and productivity -Minimizes Radiologist’s effort -Enables seamless and appropriate case assignment -Ensures optimal report throughput 2- Prevent timeout & errors - Viewer and the reporting screen are launched with a single click 3- Collaborating for image sharing - Multi site, Multi radiologist’s collaboration - Quick discussions over findings that needs expert opinion - Increased patient satisfaction 4- Easier retrieval for interesting cases - Great tool for case reference and educational purpose Archive Servers - It is the file room of the PACS “central part” - Composed of; - database server or image manager - short-term and long-term storage - workflow manager - Patient demographics examinations the patient has had since the PACS was installed - To direct copies of the images to local storage as required Display Workstations - Are used inside and outside of radiology - They receive images from the archive & various radiology modalities - The display workstation has PACS application software that allows the user to perform minor image-manipulation techniques to optimize the image being viewed Display monitors -The cathode ray tube (CRT) & the liquid crystal display (LCD) are the most popular types of monitors in a radiology department. CRT LCD CRT VS LCD Advantages of LCD monitors are: a. Thin and light weight b. Less power consumption c. Brightness of display d. Flat surface e. Aspect ratio is maintained. Disadvantage of LCD monitor: It has narrow viewing angle than CRT monitors. Viewing display requirements - Mammography requires a 5K or 5-megapixel resolution to provide the viewing capacity needed - 2K monitor is used for CR and DR readings - 1K monitor is sufficient to view the images by a referring physician Navigation Functions - Are used to move through images, series, studies, and patients & The worklist is used to navigate through patients.