Magnetoresistive Hybrid Sensors for Simultaneous Low-Field MRI and Biomagnetic Measurements

被引:0
|
作者
Sergeeva-Chollet, Natalia [1 ]
Dyvorne, Hadrien [1 ]
Polovy, Hedwige [1 ]
Pannetier-Lecoeur, Myriam [1 ]
Fermon, Claude [1 ]
机构
[1] CEA Saclay, DSM, IRAMIS, SPEC, F-91191 Gif Sur Yvette, France
来源
17TH INTERNATIONAL CONFERENCE ON BIOMAGNETISM ADVANCES IN BIOMAGNETISM - BIOMAG2010 | 2010年 / 28卷
关键词
GMR; NMR; low-field MRI; MEG;
D O I
暂无
中图分类号
R318 [生物医学工程];
学科分类号
0831 ;
摘要
Recently developed magnetoresistive hybrid sensors can detect magnetic signals in the femtotesla range. This sensor is a combination of a Giant Magnetoresistive (GMR) field sensor and flux-to-field superconducting transformer [1]. Hybrid sensors are the good candidates for Low-Field Magnetic Resonance Imaging (LF-MRI) and neural signal detection. The primary advantages of these sensors are their robustness against external static fields and fast recovery after RF-pulses. We present the first the results obtained on low-field NMR with static fields up to 8 mT. MRI images obtained at LF-MRI without pre-polarization will be presented. Finally the combination of low-field MRI based on hybrid sensors with neural signal detection (MEG) will be discussed.
引用
收藏
页码:70 / 73
页数:4
相关论文
共 50 条
  • [21] Low-Field MRI of Stroke: Challenges and Opportunities
    Bhat, Seema S.
    Fernandes, Tiago T.
    Poojar, Pavan
    Ferreira, Marta da Silva
    Rao, Padma Chennagiri
    Hanumantharaju, Madigondanahalli Chikkamaraiah
    Ogbole, Godwin
    Nunes, Rita G.
    Geethanath, Sairam
    JOURNAL OF MAGNETIC RESONANCE IMAGING, 2021, 54 (02) : 372 - 390
  • [22] The potential of low-field MRI in abdominal imaging
    Elmar M. Merkle
    European Radiology, 2023, 33 : 6981 - 6983
  • [23] Low-field MRI: Clinical promise and challenges
    Arnold, Thomas Campbell
    Freeman, Colbey W.
    Litt, Brian
    Stein, Joel M.
    JOURNAL OF MAGNETIC RESONANCE IMAGING, 2023, 57 (01) : 25 - 44
  • [24] Low-field MRI for use in neurological diseases
    Balaji, Sharada
    Wiley, Neale
    Poorman, Megan E.
    Kolind, Shannon H.
    CURRENT OPINION IN NEUROLOGY, 2024, 37 (04) : 381 - 391
  • [25] Development of a mobile low-field MRI scanner
    Deoni, Sean C. L.
    Medeiros, Paul
    Deoni, Alexandra T.
    Burton, Phoebe
    Beauchemin, Jennifer
    D'Sa, Viren
    Boskamp, Eddy
    By, Samantha
    McNulty, Chris
    Mileski, William
    Welch, Brian E.
    Huentelman, Matthew
    SCIENTIFIC REPORTS, 2022, 12 (01)
  • [26] Development of a mobile low-field MRI scanner
    Sean C. L. Deoni
    Paul Medeiros
    Alexandra T. Deoni
    Phoebe Burton
    Jennifer Beauchemin
    Viren D’Sa
    Eddy Boskamp
    Samantha By
    Chris McNulty
    William Mileski
    Brian E. Welch
    Matthew Huentelman
    Scientific Reports, 12
  • [27] New challenges and opportunities for low-field MRI
    Anoardo, Esteban
    Rodriguez, Gonzalo G.
    JOURNAL OF MAGNETIC RESONANCE OPEN, 2023, 14-15
  • [28] Accuracy of low-field MRI on meniscal tears
    Chen, H. N.
    Dong, Q. R.
    Wang, Y.
    GENETICS AND MOLECULAR RESEARCH, 2014, 13 (02) : 4267 - 4271
  • [29] Trabecular bone characterization with low-field MRI
    Remy, F
    Guillot, G
    MAGNETIC RESONANCE IMAGING, 1998, 16 (5-6) : 639 - 642
  • [30] Brain imaging with portable low-field MRI
    W. Taylor Kimberly
    Annabel J. Sorby-Adams
    Andrew G. Webb
    Ed X. Wu
    Rachel Beekman
    Ritvij Bowry
    Steven J. Schiff
    Adam de Havenon
    Francis X. Shen
    Gordon Sze
    Pamela Schaefer
    Juan Eugenio Iglesias
    Matthew S. Rosen
    Kevin N. Sheth
    Nature Reviews Bioengineering, 2023, 1 (9): : 617 - 630
12345