Difference between revisions of "Imaging informatics"

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==Introduction==
==Introduction==
'''Imaging Informatics''', also known as Radiology Informatics or Medical Imaging Informatics, is a subspecialty of [[Biomedical Informatics]] that aims to improve the efficiency, accuracy, usability and reliability of medical imaging services within the healthcare enterprise.<ref>{{cite journal | last = Branstetter | first = B | year = 2007 | title = Basics of Imaging Informatics | journal = Radiology | volume = 243 | pages = 656–67 | doi = 10.1148/radiol.2433060243 | pmid = 17431128 | issue = 3}}</ref> It is devoted to the study of how information about and contained within medical images is retrieved, analyzed, enhanced, and exchanged throughout the medical enterprise.  
'''Imaging Informatics''', also known as Radiology Informatics or Medical Imaging Informatics, is a subspecialty of [[Health informatics|Biomedical Informatics]] that aims to improve the efficiency, accuracy, usability and reliability of medical imaging services within the healthcare enterprise.<ref>{{cite journal | last = Branstetter | first = B | year = 2007 | title = Basics of Imaging Informatics | journal = Radiology | volume = 243 | pages = 656–67 | doi = 10.1148/radiol.2433060243 | pmid = 17431128 | issue = 3}}</ref> It is devoted to the study of how information about and contained within medical images is retrieved, analyzed, enhanced, and exchanged throughout the medical enterprise.  


As radiology is an inherently data-intensive and technology-driven specialty of medicine, radiologists have become leaders in Imaging Informatics. However, with the proliferation of digitized images across the practice of medicine to include fields such as cardiology, dermatology, surgery, gastroenterology, obstetrics, gynecology and pathology, the advances in Imaging Informatics are also being tested and applied in other areas of medicine. Various industry players and vendors involved with medical imaging, along with IT experts and other biomedical informatics professionals, are contributing and getting involved in this expanding field.  
As radiology is an inherently data-intensive and technology-driven specialty of medicine, radiologists have become leaders in Imaging Informatics. However, with the proliferation of digitized images across the practice of medicine to include fields such as cardiology, dermatology, surgery, gastroenterology, obstetrics, gynecology and pathology, the advances in Imaging Informatics are also being tested and applied in other areas of medicine. Various industry players and vendors involved with medical imaging, along with IT experts and other biomedical informatics professionals, are contributing and getting involved in this expanding field.  
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*biological science - includes bench sciences such as biochemistry, microbiology, physiology and genetics
*biological science - includes bench sciences such as biochemistry, microbiology, physiology and genetics
*clinical services - includes the practice of medicine, bedside research, including outcomes and cost-effectiveness studies, and public health policy
*clinical services - includes the practice of medicine, bedside research, including outcomes and cost-effectiveness studies, and public health policy
*[[information science]] - deals with the acquisition, retrieval, cataloging, and archiving of information
*information science - deals with the acquisition, retrieval, cataloging, and archiving of information
*[[medical physics]] / [[biomedical engineering]] - entails the use of equipment and technology for a medical purpose
*medical physics / biomedical engineering - entails the use of equipment and technology for a medical purpose
*[[cognitive science]] - studying human computer interactions, usability, and information visualization
*cognitive science - studying human computer interactions, usability, and information visualization
*[[computer science]] - studying the use of computer algorithms for applications such as computer assisted diagnosis and computer vision
*computer science - studying the use of computer algorithms for applications such as computer assisted diagnosis and computer vision


==Areas of Interest==
==Areas of Interest==
Key areas relevant to Imaging informatics include:
Key areas relevant to Imaging informatics include:
*[[Picture Archiving and Communication System]] (PACS) and Component Systems
*Picture Archiving and Communication System (PACS) and Component Systems
*Imaging Informatics for the Enterprise
*Imaging Informatics for the Enterprise
*Image-Enabled [[Electronic Medical Records]]
*Image-Enabled Electronic Medical Records
*[[Radiology information system|Radiology Information Systems]] (RIS) and [[Hospital information system|Hospital Information Systems]] (HIS)
*Radiology Information Systems (RIS) and Hospital Information Systems (HIS)
*Digital [[image acquisition]]
*Digital image acquisition
*[[Image processing]] and enhancement
*Image processing and enhancement
*Image [[data compression]]
*Image [[data compression]]
*[[3D visualization]] and [[multimedia]]
*[[3D visualization]] and multimedia
*[[Speech recognition]]
*Speech recognition
*[[Computer-aided diagnosis]] (CAD).
*Computer-aided diagnosis (CAD).
*Imaging facilities design
*Imaging facilities design
*Imaging vocabularies and [[ontology|ontologies]]
*Imaging vocabularies and ontologies
*[[Data mining]] from [[medical images]] [[database]]s
*[[Data mining]] from [[medical images]] [[database]]s
*[[Transforming the Radiological Interpretation Process]] (TRIP)<ref>TRIP - an initiative between the then [[Society of Computer Applications in Radiology]] (SCAR), now known as the Society of Imaging Informatics in Medicine (SIIM) [http://www.scarnet.net/trip/html/What_is_TRIP.htm]</ref>
*Transforming the Radiological Interpretation Process (TRIP)<ref>TRIP - an initiative between the then Society of Computer Applications in Radiology (SCAR), now known as the Society of Imaging Informatics in Medicine (SIIM) [http://www.scarnet.net/trip/html/What_is_TRIP.htm]</ref>
*[[DICOM]], [[HL7]] and other standards
*DICOM, HL7 and other standards
*[[Workflow]] and [[process modeling]] and [[process simulation]]
*[[Workflow]] and process modeling and process simulation
*[[Quality assurance]]
*[[Quality assurance]]
*Archive integrity and security
*Archive integrity and security
*[[Teleradiology]]
*Teleradiology
*Radiology informatics [[education]]
*Radiology informatics education
*[[Digital imaging]]
*[[Digital imaging]]



Revision as of 20:44, 21 July 2011

(This article was taken from Wikipedia)

Introduction

Imaging Informatics, also known as Radiology Informatics or Medical Imaging Informatics, is a subspecialty of Biomedical Informatics that aims to improve the efficiency, accuracy, usability and reliability of medical imaging services within the healthcare enterprise.[1] It is devoted to the study of how information about and contained within medical images is retrieved, analyzed, enhanced, and exchanged throughout the medical enterprise.

As radiology is an inherently data-intensive and technology-driven specialty of medicine, radiologists have become leaders in Imaging Informatics. However, with the proliferation of digitized images across the practice of medicine to include fields such as cardiology, dermatology, surgery, gastroenterology, obstetrics, gynecology and pathology, the advances in Imaging Informatics are also being tested and applied in other areas of medicine. Various industry players and vendors involved with medical imaging, along with IT experts and other biomedical informatics professionals, are contributing and getting involved in this expanding field.

Imaging informatics exists at the intersection of several broad fields:

  • biological science - includes bench sciences such as biochemistry, microbiology, physiology and genetics
  • clinical services - includes the practice of medicine, bedside research, including outcomes and cost-effectiveness studies, and public health policy
  • information science - deals with the acquisition, retrieval, cataloging, and archiving of information
  • medical physics / biomedical engineering - entails the use of equipment and technology for a medical purpose
  • cognitive science - studying human computer interactions, usability, and information visualization
  • computer science - studying the use of computer algorithms for applications such as computer assisted diagnosis and computer vision

Areas of Interest

Key areas relevant to Imaging informatics include:

  • Picture Archiving and Communication System (PACS) and Component Systems
  • Imaging Informatics for the Enterprise
  • Image-Enabled Electronic Medical Records
  • Radiology Information Systems (RIS) and Hospital Information Systems (HIS)
  • Digital image acquisition
  • Image processing and enhancement
  • Image data compression
  • 3D visualization and multimedia
  • Speech recognition
  • Computer-aided diagnosis (CAD).
  • Imaging facilities design
  • Imaging vocabularies and ontologies
  • Data mining from medical images databases
  • Transforming the Radiological Interpretation Process (TRIP)[2]
  • DICOM, HL7 and other standards
  • Workflow and process modeling and process simulation
  • Quality assurance
  • Archive integrity and security
  • Teleradiology
  • Radiology informatics education
  • Digital imaging

Training

Radiologists who wish to pursue sub-specialty training in this field can undergo fellowship training in Imaging Informatics. Medical Imaging Informatics Fellowships are done after completion of Board Certification in Diagnostic Radiology, and may be pursued concurrently with other sub-specialty radiology fellowships.

The American Board of Imaging Informatics (ABII) also administers a certification examination for Imaging Informatics Professionals.

References

  1. Branstetter, B (2007). "Basics of Imaging Informatics". Radiology 243 (3): 656–67. doi:10.1148/radiol.2433060243. PMID 17431128. 
  2. TRIP - an initiative between the then Society of Computer Applications in Radiology (SCAR), now known as the Society of Imaging Informatics in Medicine (SIIM) [1]

External links