News Article

Technology from HeartFlow Provides Insights to Help Identify Coronary Plaques at Risk of Rupturing: Hemodynamic Assessment Could Improve Prediction of Acute Coronary Syndrome Risk
Date: May 19, 2016
Source: Business Wire ( click here to go to the source)

Featured firm in this article: HeartFlow Inc of Mountain View, CA



PARIS--(BUSINESS WIRE)--First-in-human data presented at EuroPCR 2016 demonstrate that hemodynamic data from HeartFlow, Inc., may help predict which coronary plaques have the potential to rupture. The results were part of a study designed to determine whether use of HeartFlow technology could predict risk of developing acute coronary syndrome (ACS), a condition associated with sudden, reduced blood flow to the heart. The study was led by Professor Bon-Kwon Koo, M.D., Ph.D., FACC, of Seoul National University Hospital.

"The EMERALD study has demonstrated that by applying this important measurement we may have the potential to greatly improve prediction of the lesions that cause ACS, which could help us optimize treatment strategies for these high-risk patients."

The EMERALD (Exploring the MEchanism of the plaque Rupture in Acute coronary syndrome using coronary CT angiography and computationaL fluid Dynamics) study evaluated 71 patients who experienced ACS and who had received a coronary CT angiography (cCTA) between one month and two years previously.

HeartFlow's hemodynamic assessment, consisting of FFRCT, and more importantly the change in FFRCT across the plaque, was a better predictor of which plaques would rupture and lead to ACS than percent diameter stenosis or adverse plaque characteristics (APCs). APCs are features identifiable with cCTA related to plaque composition and disease burden that increase the risk of rupture, as observed in prior clinical studies.

A total of 226 coronary plaques from the cCTAs were assessed -- 151 that had not ruptured (non-culprit lesions) and 75 that had ruptured and caused ACS (culprit lesions as identified by invasive angiography). In addition, combining HeartFlow's hemodynamic assessment and APCs increased the discrimination of lesions at risk for causing ACS more than 10 percent over lesion severity alone.

"When evaluating a patient for risk of ACS, we need to look at not only the burden and composition of the plaque, but also the hemodynamic forces - or stress - placed upon the lesion," Koo said. "The EMERALD study has demonstrated that by applying this important measurement we may have the potential to greatly improve prediction of the lesions that cause ACS, which could help us optimize treatment strategies for these high-risk patients."

ACS is a life-threatening condition that hospitalizes approximately 1.4 million Americans each year, of which 810,000 are for myocardial infarction.1 Studies have shown that plaque rupture causes approximately 75 percent of fatal myocardial infarctions.1 In the United States alone, an ACS occurs every 25 seconds and someone dies from an ACS-related event every minute.2

"EMERALD is an exciting study, which demonstrates that HeartFlow technology may have prognostic applicability beyond aiding in the improved diagnosis of ischemia," said John H. Stevens, M.D., chairman and CEO of HeartFlow. "The findings provide important clinical insights to help identify at-risk ACS patients and has the potential to save many lives."

HeartFlow's initial product, the HeartFlow FFRCT Analysis, is the only non-invasive technology to provide insight into both the extent of coronary artery disease and the impact that disease has on blood flow to the heart, enabling clinicians to select an appropriate treatment. This product is cleared for use in the United States, is also available in Canada, Europe and Japan, and has demonstrated its utility in reducing invasive and costly procedures to diagnose patients suspected of having coronary artery disease. The hemodynamic factors tested in the EMERALD study include those in the HeartFlow FFRCT Analysis, which involves the creation of a patient-specific anatomic model from medical imaging data and the application of Computational Fluid Dynamics.

About EMERALD

EMERALD is a physician-initiated multicenter, international study conducted at 11 centers in four countries in Europe and Asia. The study evaluated patients who presented with ACS between 2010 and 2014, and underwent a cCTA prior to the ACS event. The goal of the study was to determine whether the evaluation of hemodynamic forces, in combination with adverse plaque characteristics, could improve overall identification of patients at risk for ACS.

About HeartFlow, Inc.

HeartFlow, Inc. is a personalized medical technology company seeking to transform the way cardiovascular disease is diagnosed and treated. The company's HeartFlow FFRCT Analysis is the first available non-invasive solution that enables a physician to more accurately evaluate whether a patient has significant coronary artery disease (CAD) based on both anatomy and physiology. The solution, which produces a model of the patient's coronary arteries, is well positioned to become an integral part of the standard of care for patients who are at risk for CAD because of its potential to improve clinical outcomes, improve the patient experience and reduce the cost of care. The HeartFlow Analysis is available in the United States, Canada, Europe and Japan. For more information visit www.heartflow.com.

1. Kumar A, Cannon CP. Acute coronary syndromes: diagnosis and management, part I. Mayo Clin Proc. 2009;84:917-938.
2. Wachira JK, Stys TP. Cardiovascular disease and bridging the diagnostic gap. S D Med. 2013;66:366-369.
Contacts

HeartFlow, Inc.
Chris Ernst, 415-710-9445
cernst@heartflow.com
or
Nobles Global Communications
Diana Soltesz, 818-618-5634
diana@noblesgc.com