9 Apr 2018
Using 2D imaging techniques to diagnose problems with the heart can be challenging due to the constant movement of the cardiac system. Currently, when a patient undergoes a cardiac MRI scan they have to hold their breath while the scan takes snapshots in time with their heartbeat.
Still images are difficult to obtain with this traditional technique as a beating heart and blood flow can blur the picture. This method becomes trickier if the individual has existing breathing problems or an irregular heartbeat.
These problems can lead to trouble in acquiring accurate diagnostics.
Now, a team based at the Cedars-Sinai Medical Center in California, US, have detailed a new technique – MR Multitasking – that can resolve these issues by improving patient comfort and shortening testing time.
‘It is challenging to obtain good cardiac magnetic resonance images because the heart is beating incessantly, and the patient is breathing, so the motion makes the test vulnerable to errors,’ said Shlomo Melmed, Dean of the Cedars-Sinai Center faculty.
‘By novel approaches to this longstanding problem, this research team has found a unique solution to improve cardiac care for patients around the world for years to come.’
By developing what the team consider a six-dimensional imaging technique, the Center has embraced the motion of a heartbeat by capturing image data continuously – creating a product similar to a video.
‘MR Multitasking continuously acquires image data and then, when the test is completed, the program separates out the overlapping sources of motion and other changes into multiple time dimensions,’ said Anthony Christodoulou, first author and PhD researcher at the Center’s Biomedical Imaging Research Institute.
‘If a picture is 2D, then a video is 3D because it adds the passage of time,’ said Christodoulou. ‘Our videos are 6D because we can play them back four different ways: We can playback cardiac motion, respiratory motion, and two different tissue processes that reveal cardiac health.’
Testing ten healthy volunteers and ten cardiac patients, the team said the group found that the method was more comfortable for patients and took just 90 seconds – significantly quicker than the conventional MRI scan used in hospitals. For each of the participants, the scan produced accurate results.
The team are now looking to extend its work into MR Multitasking by focusing on other disease areas, such as cancer.
By Georgina Hines