Newswise — A new report, with contributions from the National Institute of Biomedical Imaging and Bioengineering (NIBIB), part of the National Institutes of Health, provides a roadmap for translational research on artificial intelligence (AI) in medical imaging. The report, published in the May 28, 2019, Journal of the American College of Radiology, identifies research priorities that leverage big data, the cloud, and machine learning for augmenting clinicians’ image planning and use to make diagnoses or assess patients’ responses to therapy.

This report and a companion report published last month summarize conclusions from an August 2018 workshop co-organized by the NIH, the Radiologic American College of Radiology (ACR), the Radiological Society of North America (RSNA), and The Academy for Radiology and Biomedical Imaging Research (The Academy). The first report published April 16, 2019, maps a path forward for foundational research in AI and this second report focuses on translational research necessary to deliver AI to clinical practice.

“Radiology has transformed the practice of medicine in the past century, and AI has the potential to radically impact radiology in positive ways,” said Krishna Kandarpa, M.D., Ph.D., co-author of the report and director of research sciences and strategic directions at NIBIB. “This roadmap is a timely survey and analysis by experts at federal agencies and among our industry and professional societies that will help us take the best advantage of AI technologies as they impact the medical imaging field.”

The companion reports—co-authored by government, industry, academia and radiology specialty society leaders—have identified and prioritized initiatives to accelerate foundational and translational research in AI for medical imaging.

“This new roadmap paper gives guidance for the clinical translation of AI innovation,” said Curtis P. Langlotz, M.D., Ph.D., report co-author and RSNA Board Liaison for Information Technology and Annual Meeting. “Together, these two connected roadmaps show us how AI not only will transform the work of radiologists and other medical imagers, but also will enhance the delivery of care throughout the clinical environment.”

The authors suggest that the application of AI can impact the entire radiology process, from the clinical decision to perform diagnostic imaging, to preparation of patients for procedures, to conducting the scan, to interpretation of imaging results, and finally to the management of workflow in radiology departments. While most attention is drawn to the power of computers to aid in interpreting images, there is ongoing research on AI applications that address every aspect of the imaging process, according to the report. AI tools considered by this roadmap are algorithms for disease detection and classification, image optimization, radiation reduction, and workflow enhancement. The authors suggest that radiologists should take the lead in identifying the most important areas for AI development.

The authors identified key priorities:

  • Structured AI use cases. In software development, use cases define who will use a system and for what specific goal. AI use cases should define and highlight clinical challenges potentially solvable by AI.
  • Data sharing. Researchers should establish methods to encourage data sharing for training and testing AI algorithms to promote generalizability to widespread clinical practice and minimize unintended bias.
  • Tools for validation and performance monitoring of AI algorithms to facilitate regulatory approval.
  • Standards and common data elements for seamless integration of AI tools into existing clinical workflows.

“Although advances in foundational research are occurring rapidly, translation to routine clinical practice has been slower because we must ensure AI in medical imaging is useful, safe, effective, and easily integrated into existing radiology workflows before they can be used in routine patient care,” said Bibb Allen, M.D., report co-author and chief medical officer of the ACR Data Science Institute.

The report establishes that an important goal of the resulting roadmap is to grow an ecosystem—facilitated by professional societies, industry, and government agencies—that will allow robust collaborations between practicing clinicians and AI researchers to advance foundational and translational research relevant to medical imaging.

“This NIBIB sponsored workshop was an important step in coordinating private and government efforts related to AI implementation in medical imaging,” said Mitchell Schnall, MD PhD, Eugene P. Pendergrass Professor & Chair of Radiology, University of Pennsylvania; Vice President & DxCP Task Force Chair, Academy of Radiology & Biomedical Imaging Research. “It will take a true public-private partnership to realize the tremendous potential contribution of AI to transform medical imaging, and this roadmap is the first step in that direction.”

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About the National Institute of Biomedical Imaging and Bioengineering: NIBIB’s mission is to improve health by leading the development and accelerating the application of biomedical technologies. The Institute is committed to integrating the physical and engineering sciences with the life sciences to advance basic research and medical care. NIBIB supports emerging technology research and development within its internal laboratories and through grants, collaborations, and training. More information is available at the NIBIB website: http://www.nibib.nih.gov.

About the National Institutes of Health (NIH): NIH, the nation's medical research agency, includes 27 institutes and centers and is a component of the U.S. Department of Health and Human Services. NIH is the primary federal agency conducting and supporting basic, clinical, and translational medical research, and is investigating the causes, treatments, and cures for both common and rare diseases. For more information about NIH and its programs, visit www.nih.gov.

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Journal of the American College of Radiology