4.7 Article

Triaxial detection of the neuromagnetic field using optically-pumped magnetometry: feasibility and application in children

Journal

NEUROIMAGE
Volume 252, Issue -, Pages -

Publisher

ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.neuroimage.2022.119027

Keywords

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Funding

  1. Engineering and Physical Sciences Research Council (EPSRC) Healthcare Impact Partnership Grant [EP/V047264/1]
  2. Innovate UK germinator award [1003346]
  3. UK Quantum Technology Hub in Sensing and Timing - EPSRC [EP/T001046/1]
  4. National Institutes of Health [R44MH110288]

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Optically-pumped magnetometers (OPMs) are a viable alternative to superconducting sensors for magnetoencephalography (MEG), with advantages such as flexibility, uniform coverage, better data quality, and lower cost. This study introduces a novel triaxial OPM sensor that can accurately and sensitively measure magnetic fields, showing comparable performance to conventional OPMs. A child-friendly 3D-printed OPM-helmet is also proposed, demonstrating the feasibility of triaxial measurement in pediatric populations.
Optically-pumped magnetometers (OPMs) are an established alternative to superconducting sensors for magnetoencephalography (MEG), offering significant advantages including flexibility to accommodate any head size, uniform coverage, free movement during scanning, better data quality and lower cost. However, OPM sensor technology remains under development; there is flexibility regarding OPM design and it is not yet clear which variant will prove most effective for MEG. Most OPM-MEG implementations have either used single-axis (equivalent to conventional MEG) or dual-axis magnetic field measurements. Here we demonstrate use of a triaxial OPM formulation, able to characterise the full 3D neuromagnetic field vector. We show that this novel sensor is able to characterise magnetic fields with high accuracy and sensitivity that matches conventional (dual-axis) OPMs. We show practicality via measurement of biomagnetic fields from both the heart and the brain. Using simulations, we demonstrate how triaxial measurement offers improved cortical coverage, especially in infants. Finally, we introduce a new 3D-printed child-friendly OPM-helmet and demonstrate feasibility of triaxial measurement in a five-year-old. In sum, the data presented demonstrate that triaxial OPMs offer a significant improvement over dual-axis variants and are likely to become the sensor of choice for future MEG systems, particularly for deployment in paediatric populations.

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