AUTHOR=Spedden Meaghan E. , O’Neill George C. , Tierney Tim M. , West Timothy O. , Schmidt Maike , Mellor Stephanie , Farmer Simon F. , Bestmann Sven , Barnes Gareth R. TITLE=Towards non-invasive imaging through spinal-cord generated magnetic fields JOURNAL=Frontiers in Medical Technology VOLUME=6 YEAR=2024 URL=https://www.frontiersin.org/journals/medical-technology/articles/10.3389/fmedt.2024.1470970 DOI=10.3389/fmedt.2024.1470970 ISSN=2673-3129 ABSTRACT=
Non-invasive imaging of the human spinal cord is a vital tool for understanding the mechanisms underlying its functions in both healthy and pathological conditions. However, non-invasive imaging presents a significant methodological challenge because the spinal cord is difficult to access with conventional neurophysiological approaches, due to its proximity to other organs and muscles, as well as the physiological movements caused by respiration, heartbeats, and cerebrospinal fluid (CSF) flow. Here, we discuss the present state and future directions of spinal cord imaging, with a focus on the estimation of current flow through magnetic field measurements. We discuss existing cryogenic (superconducting) and non-cryogenic (optically-pumped magnetometer-based, OPM) systems, and highlight their strengths and limitations for studying human spinal cord function. While significant challenges remain, particularly in source imaging and interference rejection, magnetic field-based neuroimaging offers a novel avenue for advancing research in various areas. These include sensorimotor processing, cortico-spinal interplay, brain and spinal cord plasticity during learning and recovery from injury, and pain perception. Additionally, this technology holds promise for diagnosing and optimizing the treatment of spinal cord disorders.