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Cody Doyle

Explore the profile of Cody Doyle including associated specialties, affiliations and a list of published articles. Areas
Snapshot
Articles 8
Citations 61
Followers 0
Related Specialties
Biology
Radiology
Biophysics
Top 10 Co-Authors
Niall Holmes
James Osborne
Matthew J Brookes
Elena Boto
Vishal Shah
Ryan M Hill
Natalie Rhodes
Richard Bowtell
Lukas Rier
Molly Rea
Published In
Neuroimage
Elife
bioRxiv
Imaging Neurosci (Camb)
Contemp Phys
Affiliations
Soon will be listed here.
Recent Articles
1.
A novel, robust, and portable platform for magnetoencephalography using optically-pumped magnetometers
Schofield H, Hill R, Feys O, Holmes N, Osborne J, Doyle C, et al.
Imaging Neurosci (Camb) . 2024 Nov; 2:1-22. PMID: 39502465
Magnetoencephalography (MEG) measures brain function via assessment of magnetic fields generated by neural currents. Conventional MEG uses superconducting sensors, which place significant limitations on performance, practicality, and deployment; however, the...
2.
Correction: Tracking the neurodevelopmental trajectory of beta band oscillations with optically pumped magnetometer-based magnetoencephalography
Rier L, Rhodes N, Pakenham D, Boto E, Holmes N, Hill R, et al.
Elife . 2024 Oct; 13. PMID: 39360938
No abstract available.
3.
Tracking the neurodevelopmental trajectory of beta band oscillations with optically pumped magnetometer-based magnetoencephalography
Rier L, Rhodes N, Pakenham D, Boto E, Holmes N, Hill R, et al.
Elife . 2024 Jun; 13. PMID: 38831699
Neural oscillations mediate the coordination of activity within and between brain networks, supporting cognition and behaviour. How these processes develop throughout childhood is not only an important neuroscientific question but...
4.
A Novel, Robust, and Portable Platform for Magnetoencephalography using Optically Pumped Magnetometers
Schofield H, Hill R, Feys O, Holmes N, Osborne J, Doyle C, et al.
bioRxiv . 2024 Apr; PMID: 38558964
Magnetoencephalography (MEG) measures brain function via assessment of magnetic fields generated by neural currents. Conventional MEG uses superconducting sensors, which place significant limitations on performance, practicality, and deployment; however, the...
5.
Quantum enabled functional neuroimaging: the why and how of magnetoencephalography using optically pumped magnetometers
Schofield H, Boto E, Shah V, Hill R, Osborne J, Rea M, et al.
Contemp Phys . 2024 Mar; 63(3):161-179. PMID: 38463461
Non-invasive imaging has transformed neuroscientific discovery and clinical practice, providing a non-invasive window into the human brain. However, whilst techniques like MRI generate ever more precise images of brain structure,...
6.
The neurodevelopmental trajectory of beta band oscillations: an OPM-MEG study
Rier L, Rhodes N, Pakenham D, Boto E, Holmes N, Hill R, et al.
bioRxiv . 2024 Jan; PMID: 38260246
Neural oscillations mediate the coordination of activity within and between brain networks, supporting cognition and behaviour. How these processes develop throughout childhood is not only an important neuroscientific question but...
7.
Measurement of Frontal Midline Theta Oscillations using OPM-MEG
Rhodes N, Rea M, Boto E, Rier L, Shah V, Hill R, et al.
Neuroimage . 2023 Mar; 271:120024. PMID: 36918138
Optically pumped magnetometers (OPMs) are an emerging lightweight and compact sensor that can measure magnetic fields generated by the human brain. OPMs enable construction of wearable magnetoencephalography (MEG) systems, which...
8.
Triaxial detection of the neuromagnetic field using optically-pumped magnetometry: feasibility and application in children
Boto E, Shah V, Hill R, Rhodes N, Osborne J, Doyle C, et al.
Neuroimage . 2022 Feb; 252:119027. PMID: 35217205
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...