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How AI is driving the future of cardiac MR

March 10, 2020
Cardiology
Itamar Kandel
From the March 2020 issue of HealthCare Business News magazine

By Itamar Kandel

Last September, a study published in the journal, Circulation: Cardiovascular Imaging, reported that analysis of cardiac MR scans using automated machine learning was significantly faster and had comparable accuracy to human interpretation by trained cardiologists. In other words, an AI algorithm could read a cardiac MR in four seconds!


It is no surprise that cardiovascular magnetic resonance (CMR) has emerged as the new gold standard to diagnose many cardiac diseases. Multiple studies have shown that CMR is superior in its ability to evaluate cardiovascular structure and function, and to quantitatively assess blood flow and perfusion without the use of radiation or the need for invasive catheterization.

Most recently, MR-INFORM (Nagel et al.) proved the superiority of CMR to the previous gold standard FFR for diagnosing ischemia. Similarly, CE-MARC (Greenwood et al.) proved the superiority of CMR to CT for diagnosing CAD, and other studies proved the superiority of CMR to echocardiography for assessing mitral valve, and that CMR is the best predictor of major adverse cardiovascular events (MACE).

So why does cardiac MR only account for 8% of cardiac scans? The problem is the actual CMR scan itself is very complex, takes a lot of time, and a very high level of skill to even perform.

What will it take for this best-in-class, lifesaving diagnostic technology to leave the few ivory towers where it currently resides and become ubiquitous? How do we ensure that if a patient needs a CMR, she will get a CMR, regardless of location or cost? In other words, how do we democratize this technology and bring CMR for All?

By some estimates, creating diagnostic-quality CMR images requires up to 300 different runtime decisions to perfect the signal output. To make these decisions, the MR technicians executing the exams must be well-versed in the anatomy of the heart, as well as in the physics of the machines.

This complexity begets three key challenges that together explain the scarcity of CMRs, despite its obvious diagnostic superiority. First, hiring, training, and retaining these highly paid CMR technicians is a daunting task. One estimate, from a leading U.S. cardiology center, estimated that training a $200k/year salaried technician takes 1.5 years, assuming you can even find one to train. Second, even trained technicians need up to 90 minutes to perform a single CMR exam. Beyond the obvious patient discomfort of a lengthy MR exam, it can also be cost prohibitive to tie up the scanner and put off MR exams for other patients needing shorter scans. Third, given the massive variability when performing these exams, image inconsistency can make interpretation difficult.

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