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Wireless, customizable coaxially shielded coils for magnetic resonance imaging

Ke Wu, Xia Zhu, Stephan W. Anderson, Xin Zhang

2024Science Advances17 citationsDOIOpen Access PDF

Abstract

Anatomy-specific radio frequency receive coil arrays routinely adopted in magnetic resonance imaging (MRI) for signal acquisition are commonly burdened by their bulky, fixed, and rigid configurations, which may impose patient discomfort, bothersome positioning, and suboptimal sensitivity in certain situations. Herein, leveraging coaxial cables' inherent flexibility and electric field confining property, we present wireless, ultralightweight, coaxially shielded, passive detuning MRI coils achieving a signal-to-noise ratio comparable to or surpassing that of commercially available cutting-edge receive coil arrays with the potential for improved patient comfort, ease of implementation, and substantially reduced costs. The proposed coils demonstrate versatility by functioning both independently in form-fitting configurations, closely adapting to relatively small anatomical sites, and collectively by inductively coupling together as metamaterials, allowing for extension of the field of view of their coverage to encompass larger anatomical regions without compromising coil sensitivity. The wireless, coaxially shielded MRI coils reported herein pave the way toward next-generation MRI coils.

Topics & Concepts

Shielded cableElectromagnetic coilElectromagnetic shieldingSensitivity (control systems)WirelessMagnetic resonance imagingComputer scienceRadiofrequency coilSIGNAL (programming language)Flexibility (engineering)AcousticsMaterials scienceElectrical engineeringElectronic engineeringPhysicsTelecommunicationsEngineeringRadiologyMedicineMathematicsStatisticsProgramming languageAdvanced MRI Techniques and ApplicationsWireless Power Transfer SystemsEnergy Harvesting in Wireless Networks
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