Making MR images more efficient, quieter and faster

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Making MR images more efficient, quieter and faster

Press releases may be edited for formatting or style | December 02, 2020 MRI
Magnetic resonance imaging has become an indispensable tool for medical diagnostics. Using metamaterials – printed circuit boards whose properties can be systematically adjusted – can increase measurement sensitivity by a factor of five. Metamaterials can also make scans faster and quieter. Researchers at the Fraunhofer Institutes for Digital Medicine MEVIS and for High Frequency Physics and Radar Techniques FHR are working together to make examinations more pleasant for patients.

Magnetic resonance imaging – MRI for short – lets doctors image and examine the brain, spinal cord, internal organs, muscles and joints layer by layer. This technology exploits the fact that certain nuclei in the body can be very slightly magnetized. It can even depict organ movements, such as the beating of the heart. But as impressive and revealing as this imaging may be, for patients, the procedure is often unpleasant – after all, it is loud in the bore.

Up to five times better measurement sensitivity

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Getting an MRI could soon become more pleasant for patients. Teams of researchers from the Fraunhofer Institutes MEVIS and FHR working on a Fraunhofer project succeeded in boosting the sensitivity of MRI machines under certain circumstances many times over. “If the MRI works with high-frequency coils that are placed on the patient’s body, depending on the question, we can improve the dynamics by up to 20 percent,” says Dr. Thomas Bertuch, the team leader at Fraunhofer FHR. “If the coils installed in the MRI machine are used, the measured signal can even be increased fivefold.” For doctors, this means that the structures on the MRI images can be discerned in far greater detail.

The research teams achieved this great increase in sensitivity with special metamaterial disks that are designed to be laid on the part of the body to be examined during an MRI scan. “These metamaterials are not materials in the traditional sense, but circuit boards populated with special structures and tracks that make it possible to design materials with effective properties – including materials that do not occur in nature,” says Bertuch.

While the electromagnetic field used to excite the atoms in the body needs to be quite strong, the signal these atoms send back – the basis for the MRI measurement – is extremely weak. If the metamaterial tracks are designed with this in mind, they can optimally concentrate the receive fields to increase measurement sensitivity.

One challenge the researchers faced here was that the reflected signals have the same wavelength and frequency as the excitation signals. Since the excitation signal is already very strong, it is not desirable to boost it even more. To circumvent this obstacle, the researchers devised a trick: they integrate non-linear components, such as diodes, into the metamaterials. If the field is strong, these components detune the disk’s resonance frequency in such a way that no amplification occurs. If, in contrast, the field is weak, the signal receives the desired boost. The researchers have already measured a variety of metamaterial disks in the Fraunhofer MEVIS MRI machine and established their amplifying effect. Additional measuring equipment is available at these two Fraunhofer Institutes – including a measurement system that enables them to precisely evaluate the ambient magnetic field and how it changes as a result of the metamaterial disks.

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