Gwangju Institute of Science and Technology Researchers Improve the Scanning Capability of Magnetic Particle Imaging Systems Used for Medical Imaging
The low-cost, rabbit-sized scanner has a higher resolution and field-of-view than commercially available scanners
GWANGJU, South Korea, July 22, 2022 /PRNewswire/ -- Magnetic particle imaging (MPI) is an emerging imaging modality that is based on the detection of superparamagnetic iron oxide nanoparticles that have been injected into the body. The magnetic particles act like tracers and are detected in response to a moving magnetic field free point (FFP), which changes their magnetic direction. As these particles do not naturally exist in the human body, it makes MPI highly sensitive and free from background noise. MPI could potentially transform medical imaging. However, currently available commercial scanners often compromise between coverage volume and imaging resolution.
In a new study published online on 29 April 2022 in IEEE Transactions on Industrial Electronics, researchers from Gwangju Institute of Science and Technology (GIST) in South Korea have now addressed this issue. They have developed a rabbit-scale three-dimensional (3D) MPI system that can scan a large volume at a high resolution. "For a large bore size of MPI, it is important to achieve a high magnetic gradient for high image resolution along with a large field-of-view (FOV), while allowing fast scanning and high sensitivity," explains Prof. Jungwon Yoon, the corresponding author of the study.
This had to be done without increasing the magnetic field strength or the size of the system, since high magnetic fields can cause undesirable peripheral nerve stimulation in the patient's body and large systems incur higher cooling expenses. To realize this feat, the researchers turned to a technique called "amplitude modulation" (AM), which uses low-amplitude, high-frequency excitation fields in combination with low-frequency, high-amplitude drive fields to quickly scan the FFP and detect the magnetic nanoparticles. "The AM MPI can enable a large FOV and good resolution while minimizing the peripheral nerve stimulation constraint and hardware requirements," says Tuan-Anh Le, a postdoctoral researcher at GIST who was involved in the study.
To this end, they developed an AM MPI system with a bore size of 90 mm and seven coils that included selection coils, drive coils (along x, y, z), excitation coil, receiver coil, copy of drive-z coil, copy of the excitation coil, and a cancellation coil. In this configuration, the selection coils generate magnetic fields that produce an FFP, while the drive and excitation coils produce the drive and excitation fields that scan the FFP and generate signals from the magnetic tracer, which are then measured by the receiver coil. A 3D image is created by converting the 3D slice images obtained from scanning the FFP to MPI images using the AM technique.
By testing the imaging capabilities of their system with a 3D phantom, the researchers demonstrated that it had a higher magnetic gradient scanner (4 T/m/µ0 vs 2.5 T/m/µ0) and a larger coverage volume (175,616 mm3 vs 117,440 mm3) than commercially available MPI scanners. Using the AM technique, they developed a low-cost, small MPI scanner to demonstrate the method's potential for enabling high-resolution 3D human-scale scanners.
Hopefully, it won't be long before such MPI scanners are realized in practice!
Authors: Tuan-Anh Le*, Minh Phu Bui, and Jungwon Yoon*
Title of original paper: Development of Small Rabbit-scale Three-dimensional Magnetic Particle Imaging System with Amplitude Modulation Based Reconstruction
Journal: IEEE Transactions on Industrial Electronics
Affiliations: Gwangju Institute of Science and Technology, the Republic of Korea
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SOURCE Gwangju Institute of Science and Technology (GIST)
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