The use of MRI to determine heart function has been slow to catch on, but a study from Duke Health researchers shows that stress cardiac MRI not only diagnoses disease but can also predict which cases are potentially fatal. Results from a large, multi-center study suggest that Cardiac Magnetic Resonance, or CMR, has potential as a non-invasive, non-toxic alternative to stress echocardiograms, catheterizations and stress nuclear exams in identifying the severity of coronary artery disease. The study appears online Feb. 8 in JAMA Cardiology. “We’ve known for some time that CMR is effective at diagnosing coronary artery disease, but it’s still not commonly used and represents less than one percent of stress tests used in this country,” said senior author Robert Judd, Ph.D., co-director of the Duke Cardiovascular Magnetic Resonance Center.
“One of the impediments to broader use has been a lack of data on its predictive value — something competing technologies have,” Judd said. “Our study provides some clarity, although direct comparisons between CMR and other technologies would be definitive.” Judd and colleagues analyzed data from more than 9,000 patients who underwent CMR at seven U.S. hospitals, encompassing up to 10 years of follow-up.
For patients without any history of heart disease and at low risk based on traditional clinical criteria, those with an abnormal CMR scan were 3.4 times more likely to die compared to patients with a normal CMR scan. For the entire patient population, the researchers found a strong association between abnormal stress CMR and mortality, even after adjusting for patient age, sex, and cardiac risk factors.
“Non-invasive cardiac stress testing is a cornerstone in the clinical management of patients with known or suspected coronary artery disease,” Judd said, noting that CMR works as well or better than other exams at identifying heart wall motion, cell death and the presence of low blood flow. In addition, the technology does not require any radiation exposure, which is very essential in nuclear stress tests that are by far the most commonly used method to identify heart diseases in the U.S.
“There are a number of reasons for the limited use of stress CMR, including the availability of good quality laboratories, exclusion of patients who cannot undergo magnetization, and a lack of data on patient outcomes,” Judd said. “With the findings from this study suggesting that stress CMR is effective in predicting mortality, we provide a strong basis for a head-to-head study between stress CMR and other modalities.” Following the fact that MRI system has more health benefits potential than we originally thought, an MRI scan experience can never be described as comforting, instead, many would call it a nightmarish experience. In order to solve that problem, our engineers at Sound Imaging have created 6 new MRI Comfort Suite products, each specifically designed to secure patients’ safety & comfort. Please, feel free to visit our website to check all of our MRI Comfort Suite products and accessories including the MRI Visors, MRI Stereo, SAMM, SAMM MD, Magnet Watch, and Bi-Directional.
In addition to Judd, study authors at Duke include Raymond J. Kim, Han W. Kim, Igor Klem, Elizabeth Jenista, and Michele Parker. They were joined by John F. Heitner and Jean Ho of New York Presbyterian Brooklyn Methodist Hospital; Dipan J. Shah and Dany Debs of Houston Methodist DeBakey Heart & Vascular Center; Afshin Farzaneh-Far of the University of Illinois at Chicago; Venkateshwar Polsani of Piedmont Atlanta Hospital; Jiwon Kim and Jonathan Weinsaft of Weill Cornell Medical Center; Chetan Shenoy and Andrew Hughes of the University of Minnesota Medical Center; Preston Cargile of Heart Imaging Technologies; Robert O. Bonow of Northwestern University Feinberg School of Medicine. The study received funding support from the National Heart, Lung, and Blood Institute, (R42 HL080843, R42 HL106864, R42 HL117397, R01 HL128278, and K23 HL132011). Judd and Raymond J. Kim have an equity interest in Heart Imaging Technologies.
Materials provided by the Duke University Health Research Team.