Boston University researchers have developed a new, "intelligent" metamaterial—which costs less than ten bucks to build—that could revolutionize magnetic resonance imaging (MRI), making the entire MRI process faster, safer, and more accessible to patients around the world. The technology, which builds on previous metamaterial work by the team, was described in a new paper in Advanced Materials.
MRI is used by clinicians to diagnose medical problems by spotting abnormalities that could indicate anything from a torn meniscus to muscular dystrophy. But MRIs are expensive, expose patients to radiation, and they take a long time—often the greater part of an hour for a single scan. Finding enough MRI time for waiting patients can be a problem, even in US hospitals, but in hospitals in countries like India, waiting periods of a year or more can put patients' lives at risk.
So how do we speed up the MRI process without jeopardizing the quality of imaging? Xin Zhang, a BU College of Engineering professor of mechanical engineering and a Photonics Center professor, and a team of researchers that includes Stephan Anderson, a Boston Medical Center radiologist and BU School of Medicine professor of radiology, and Xiaoguang Zhao, a MED assistant research professor of radiology, are getting creative with metamaterials to solve the problem.
MRI works by generating a powerful magnetic field and sending radio waves into a patient's body. "An MRI's magnetic field is many thousands of times stronger than the Earth's magnetic field," says Zhao. "A precisely orchestrated series of higher-energy radio waves are sent into the human body, and the tissues emit lower-energy radio waves that are received by the MRI to produce an image."
The quality of MRI images depends to a great extent on what's called "signal-to-noise ratio," or SNR. The higher the SNR, the better the image, and the most direct way to improve the SNR is to turn up the magnetic field. Unfortunately, any increase in the magnetic field also increases complexity and cost of the MRI, as well as potential risks to patients, whose tissue, and particularly, whose implanted medical devices, are literally heated up by the radiation. For that reason, radiologists who would like to get a better look inside a body cannot simply turn up the magnetic field strength.
So Zhang and her collaborators developed a new magnetic metamaterial that, when placed beside the body part that is the target of a scan, boosts the energy emitted by the patient's body, increasing SNR and improving MRI imaging. The magnetic metamaterial, which is made of simple copper wiring and plastic, was published in March 2019 in Nature's Communications Physics.
No comments:
Post a Comment