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HeartFlow Announces Collaborative Research Agreement
with Imperial College London
Joint research in medical imaging and deep learning to help improve
treatment planning for patients with heart disease
REDWOOD CITY, Calif. - March 7, 2018 - HeartFlow, Inc. today announced that it has entered
into a collaborative research agreement with Imperial College London. The collaboration will
enable experts from HeartFlow and Imperial to work side-by-side on joint projects in the areas of
medical imaging and deep learning. The company’s non-invasive HeartFlow® FFRct Analysis
leverages deep learning to create a personalized 3D model of the heart to help clinicians
diagnose and treat coronary artery disease (CAD).
“We are delighted to collaborate with the team at Imperial, who are globally recognized leaders
in applying deep learning techniques to medical imaging,” said John H. Stevens, M.D., president
and chief executive officer, HeartFlow. “I have no doubt that the combined expertise of the
HeartFlow and Imperial teams will help accelerate turning cutting-edge science into ground-
breaking products that can positively impact how patients with suspected heart disease are
diagnosed and managed.”
The collaboration between HeartFlow and Imperial will be led by Dr. Ben Glocker and Professor
Daniel Rueckert and will involve co-locating a HeartFlow team at Imperial’s Biomedical Image
Analysis (BioMedIA) group. The company also will fund additional research roles at the lab. The
team will follow a joint project roadmap, initially focused on developing algorithms for extracting
models of the coronaries from 4D computed tomography (CT) datasets, aligning images across
modalities, and improving the precision of image acquisition and reconstruction.
“The collaboration with HeartFlow will not only open new and exciting research directions, but it
also will pave the path for bringing our latest deep learning technology into clinical practice and
thus will have real impact on the healthcare of thousands of patients,” said Dr. Glocker, scientific
lead of the Imperial/HeartFlow team. “This collaboration provides us with the optimal
infrastructure to go beyond publishing papers and turn our ideas into new clinical solutions.”
Professor Rueckert, head of the department of computing and head of the BioMedIA group,
added, “The HeartFlow collaboration is a new type of industrial collaboration and we see great
mutual benefit from a truly embedded team of scientists that will work closely with our academic
staff, postdocs and PhD students. This model provides us new ways of attracting the best talent
and offering exciting research opportunities.”
The mission of Imperial’s BioMedIA group is to develop novel, computational techniques for the
analysis of biomedical images. Key areas of research include developing algorithms for image
acquisition, image analysis and image interpretation; and applying deep learning techniques to
extract clinically relevant information from medical images.
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About the HeartFlow FFRct Analysis
Clinicians diagnosing someone with suspected CAD want to know as definitively as possible if
the individual has a significant blockage in their coronary arteries. They also want to know the
impact of that blockage on blood flow so they can best determine which treatment pathway is
appropriate (e.g., medical management, stenting or coronary artery bypass grafting).
Data from a patient’s non-invasive coronary CT angiogram are securely uploaded from the
hospital’s system to the cloud. HeartFlow leverages deep learning to create a personalized,
digital 3D model of the patient’s coronary arteries. The HeartFlow Analysis then uses powerful
computer algorithms to solve millions of complex equations to simulate blood flow and assess
the impact of blockages on coronary blood flow. The HeartFlow FFRct Analysis is provided via a
secure online interface to offer actionable information to enable clinicians to determine the
optimal course of treatment. To date, clinicians around the world have used the HeartFlow
Analysis for more than 15,000 patients to aid in the diagnosis of heart disease.
This technology has been demonstrated to reduce unnecessary and invasive diagnostic
coronary angiography procedures, which can be associated with bleeding, stroke, major blood
vessel damage and other serious complications. It also significantly reduces healthcare costs
for hospitals.i
About Imperial College London
Imperial College London is one of the world's leading universities. The College's 17,000
students and 8,000 staff are expanding the frontiers of knowledge in science, medicine,
engineering and business, and translating their discoveries into benefits for our society.
Imperial is the UK's most international university, according to Times Higher Education, with
academic ties to more than 150 countries. Reuters named the College as the UK's most
innovative university because of its exceptional entrepreneurial culture and ties to industry.
About HeartFlow, Inc.
HeartFlow, Inc. is a medical technology company redefining the way heart disease is diagnosed
and treated. Our non-invasive HeartFlow FFRct Analysis leverages deep learning to create a
personalized 3D model of the heart. By using this model, clinicians can better evaluate the
impact a blockage has on blood flow and determine the best treatment for patients. Our
technology is reflective of our Silicon Valley roots and incorporates decades of scientific
evidence with the latest advances in artificial intelligence. The HeartFlow FFRct Analysis is
commercially available in the United States, Canada, Europe and Japan. For more information,
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Media Contact:
Jennie Kim
i Douglas PS, DeBruyne B, Pontone G., Patel MR, et al. One-year outcomes of FFRCT-guided care in patients with
suspected coronary disease: The PLATFORM Study. J Am Coll Cardiol. 2016;68(5),435-45.
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