Interagency Working Group on Medical Imaging National Science and Technology Council Renée Cruea, MPA Executive Director Academy of Radiology Research
Thank you
The Academy of Radiology Research is an alliance of 27 professional imaging societies and 50 academic research departments, which together, represent the scientific community advocating for more sustainable medical research budgets. The Academy serves as the umbrella organization to the Coalition for Imaging and Bioengineering Research (CIBR). CIBR was established in order to foster collaboration among other important stakeholders in the imaging research community: imaging equipment manufacturers , and patient advocates.
Organizational mission: • Stop this damaging and unfortunate paradigm by urging policymakers to invest more in federally funded R&D • Use the public health AND economic power of imaging science as a surrogate for federally funded R&D • Explore new ways to convey to policymakers that a national re-commitment to high-impact R&D can fuel the US innovation economy in the same way that made Apple the largest company in the world
Outline § Science to Meet a National Need § Demand for Imaging Science § Teeing Up Subsequent Speakers
Outline § Science to Meet a National Need § Demand for Imaging Science § Teeing Up Subsequent Speakers
Medical Imaging Research Initiative - The Committee believes there is potential in the near future to accelerate revolutionary new imaging technology for medical professionals and researchers to combat disease and support high-skilled manufacturing jobs in the United States. Such advances will require inter-agency coordination of Federal medical imaging research and development initiatives to accelerate the transfer of new technologies into commercial products manufactured in the United States and strengthen innovative research programs. Since many Federal agencies have existing and complementary roles on medical imaging research, there is a strong need for a Federal strategy that will coordinate and accel-erate such research. The Committee directs OSTP, in cooperation with the National Institutes of Health as the lead agency, to establish, through the National Science and Technology Council's Committee on Science, a Medical Imaging Subcommittee [MIS] to coordinate Federal investments in imaging research. The MIS should be required to develop a roadmap for the full scope of imaging research and development, including: basic STEM science and technology creation, medical and translational research, evidence generation, clinical implementation, workforce and training support, and export-oriented manufacturing incentives.
“This memorandum outlines the Administration's multi-agency science and technology priorities for formulating FY 2016 Budget submissions to the Office of Management and Budget (OMB). The priorities covered in this memo require investments in R&D; support for activities, such as science, technology, engineering, and mathematics (STEM) education, technology transfer, R&D facilities, and scientific data collection and management, that enable a robust science and technology enterprise; and cooperation among multiple Federal agencies.
“ Innovation in life sciences, biology, and neuroscience: Agencies should give priority to programs that support fundamental biological discovery research that could generate unexpected, high-impact scientific and technological advances in health, energy, and food security, particularly in platform technologies.”
“Within research portfolios, Federal agencies are encouraged to identify and pursue clearly defined "Grand Challenges” - ambitious goals that require advances in science, technology and innovation to achieve and to support high- risk, high-return research”
“Agencies should consider, where appropriate and authorized, supplementing traditional R&D "push" mechanisms (e.g., grants and contracts) with "pull" mechanisms - results-based market incentives designed to overcome market failures, engage a wide range of solvers, and catalyze innovation, such as incentive prizes and advanced market commitments.”
“ Great promise for developing such technologies lies at the intersections of nanoscience, imaging, biological engineering, informatics, and other rapidly emerging fields of science and engineering.”
Outline § Science to Meet a National Need § Demand for Imaging Science § Teeing Up Subsequent Speakers
Total Imaging Research at NIH $4,500! $4,000! $3,500! !$696!! !$520!! $3,000! 12.2%% 12.0%% 12.1%% $2,500! 10.3%% 10.3%% 10.4%% 10.7%% $2,000! 9.8%% $1,500! 7.5%% 7.1%% 7.1%% 6.7%% 6.6%% 6.5%% $1,000! $500! !$1,338!! !$1,652!! !$1,791!! !$1,889!! !$2,020!! !$2,148!! !$2,848!! !$3,052!! !$3,154!! !$3,257!! !$3,319!! !$3,772!! !$3,506!! !$3,634!! $0! 2001! 2002! 2003! 2004! 2005! 2006! 2007! 2008! 2009! 2010! 2011! 2012! 2013! 2014! "Positron-Emission Tomography" ultrasound tomography radiology MRI "magnetic resonance" "molecular imaging" "optical imaging" "imaging biomarkers" "MR elastography" "quantitative imaging" "image analysis" "image informatics" "image-guided"
Total Imaging Research, by IC !$700!! Millions' !$600!! NCI! NHLBI! !$500!! NIMH! NINDS! !$400!! NIBIB! NIA! !$300!! NIDDK! NICHD! !$200!! NIDA! NEI! !$100!! NIAMS! !$#!!!! 2005! 2006! 2007! 2008! 2009! 2010! 2011! 2012! 2013! 2014!
The Demand for Imaging Research 30% 25% NIA Percent of an IC’s Portfolio Imaging 20% NIAMS NEI NIDCD 15% NIMH NHLBI 10% NICHD NCI NIDDK 5% NIDA 0% % dollars % dollars % dollars imaging FY08 imaging CG imaging FY11
Imaging at DoD, in nominal dollars $101,160,327 $88,410,896 $80,093,162 $78,449,154 $63,854,335 2008 2009 2010 2011 2012 "Positron-Emission Tomography" "computed tomography" "computerized tomography" radiology "MRI" "magnetic resonance" "molecular imaging" "optical imaging" "imaging biomarkers" "MR elastography" "quantitative imaging" "image informatics" "image-guided"
Imaging at FDA, nominal dollars $4,698,469( $2,383,308( $1,792,645( $1,763,519( $1,049,115( $715,173( $181,882( 2008( 2009( 2010( 2011( 2012( 2013( 2014( "Positron-Emission Tomography" "computed tomography" "computerized tomography" radiology "MRI" "magnetic resonance" "molecular imaging" "optical imaging" "imaging biomarkers" "MR elastography" "quantitative imaging" "image informatics" "image-guided"
Imaging at NSF, by projects 721$ 689$ 460$ 459$ 457$ 453$ 420$ 2008$ 2009$ 2010$ 2011$ 2012$ 2013$ 2014$ "Positron-Emission Tomography" "computed tomography" "computerized tomography" radiology "MRI" "magnetic resonance" "molecular imaging" "optical imaging" "imaging biomarkers" "MR elastography" "quantitative imaging" "image informatics" "image-guided"
Imaging at VA, by projects 171# 89# 85# 44# 19# 1# 2009# 2010# 2011# 2012# 2013# 2014# "Positron-Emission Tomography" "computed tomography" "computerized tomography" radiology "MRI" "magnetic resonance" "molecular imaging" "optical imaging" "imaging biomarkers" "MR elastography" "quantitative imaging" "image informatics" "image-guided"
Outline § Science to Meet a National Need § Demand for Imaging Science § Teeing Up Subsequent Speakers
NIBIB NCI NSF CMS DOD/VA FDA NASA NIST
Thank you Academy of Radiology Research Renée L. Cruea Executive Director rcruea@acadrad.org
Interagency Working Group on Medical Imaging October 5, 2015 Richard L. Ehman, M.D. Professor of Radiology Blanche R. & Richard J. Erlanger Professor of Medical Research Mayo Clinic Chair , Board of Directors Radiological Society of North America
Impact On Health Care… Diagnostic Advanced Medical Burr Holes Imaging ? Head Injury Bleeding? Abdominal Pain Pancreatic Cancer? Exploratory Surgery
Medical Imaging Research Initiative Advances in medical imaging have had an unparalleled impact on health care. The medical imaging research initiative proposes an intensified strategic focus on this field, through integrated, multi-agency federal initiatives, to yield innovative science that addresses critical national needs. Research in the field of medical imaging is: • technology-intensive, • and often uniquely applies disciplines such as physics, mathematics, and engineering to critical medical needs The advances achieved by use-inspired medical imaging research are historically: • rapidly translated, • and have a substantial impact on patient care, • and frequently contribute to the medical innovation sector of the economy.
Recommend
More recommend