SQUID-Based Magnetic Resonance Imaging at Ultra-Low Field Using the Backprojection Method

Guo, Qingqian; Ma, Changyu; Zhang, Xin; Xu, Yanliang; Fan, Meisheng; Yu, Peng; Hu, Tao; Chang, Yan; Yang, Xiaodong

doi:10.1155/2020/8882329

Concepts in Magnetic Resonance Part B, Magnetic Resonance Engin

2020

DOI: 10.1155/2020/8882329

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SQUID-Based Magnetic Resonance Imaging at Ultra-Low Field Using the Backprojection Method

Qingqian Guo

Changyu Ma

Xin Zhang

et al.

Abstract: Ultra-low field magnetic resonance imaging (ULF MRI) is an effective imaging technique that applies the ultrasensitive detector of superconducting quantum interference device (SQUID) sensor to detect the MR signal at a microtesla field range. In this work, we designed and developed a SQUID-based ULF MRI system with a frequency-adjustable measurement field, the performance of which was characterized via water phantoms. In order to enhance the MR signals, a 500 mT Halbach magnet was used to prepolarize the magne… Show more

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2024

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Applications, limitations and advancements of ultra-low-field magnetic resonance imaging: A scoping review

Altaf,

Shakir,

Irshad

et al. 2024

Surgical Neurology International

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Background: Ultra-low-field magnetic resonance imaging (ULF-MRI) has emerged as an alternative with several portable clinical applications. This review aims to comprehensively explore its applications, potential limitations, technological advancements, and expert recommendations. Methods: A review of the literature was conducted across medical databases to identify relevant studies. Articles on clinical usage of ULF-MRI were included, and data regarding applications, limitations, and advancements were extracted. A total of 25 articles were included for qualitative analysis. Results: The review reveals ULF-MRI efficacy in intensive care settings and intraoperatively. Technological strides are evident through innovative reconstruction techniques and integration with machine learning approaches. Additional advantages include features such as portability, cost-effectiveness, reduced power requirements, and improved patient comfort. However, alongside these strengths, certain limitations of ULF-MRI were identified, including low signal-to-noise ratio, limited resolution and length of scanning sequences, as well as variety and absence of regulatory-approved contrast-enhanced imaging. Recommendations from experts emphasize optimizing imaging quality, including addressing signal-to-noise ratio (SNR) and resolution, decreasing the length of scan time, and expanding point-of-care magnetic resonance imaging availability. Conclusion: This review summarizes the potential of ULF-MRI. The technology’s adaptability in intensive care unit settings and its diverse clinical and surgical applications, while accounting for SNR and resolution limitations, highlight its significance, especially in resource-limited settings. Technological advancements, alongside expert recommendations, pave the way for refining and expanding ULF-MRI’s utility. However, adequate training is crucial for widespread utilization.

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Applications, limitations and advancements of ultra-low-field magnetic resonance imaging: A scoping review

Altaf,

Shakir,

Irshad

et al. 2024

Surgical Neurology International

View full text Add to dashboard Cite

show abstract

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SQUID-Based Magnetic Resonance Imaging at Ultra-Low Field Using the Backprojection Method

Cited by 1 publication

References 38 publications

Applications, limitations and advancements of ultra-low-field magnetic resonance imaging: A scoping review

Applications, limitations and advancements of ultra-low-field magnetic resonance imaging: A scoping review

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