John V.M. McGinley scite author profile

John V.M. McGinley

4Publications

31Citation Statements Received

69Citation Statements Given

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Affiliations

Imperial College London, Royal Hallamshire Hospital, University of Sheffield

Publications

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Supercapacitor Energy Storage for Magnetic Resonance Imaging Systems

Ristić

Gryska

McGinley

et al. 2014

IEEE Trans. Ind. Electron.

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Magnetic resonance imaging (MRI) involves very short pulses of very high current. Substantial savings in the high cost of MRI installations may be realized by employing suitable electrical energy storage, for which supercapacitors are strong candidates in view of high specific power and long cycle life. A key question is whether the well-known capacitance degradation with increased frequency is compatible with the complex and highly variable duty cycles of various MRI sequences. Compatibility of the supercapacitor voltage range with the MRI system must also be considered. We present a detailed analysis of power duty profiles in MRI, using actual imaging sequences, that has not been reported previously. We also propose and validate a simplified supercapacitor model that can accurately simulate its performance in the MRI system, involving pulses that are several orders of magnitude shorter than those considered previously. Results of equivalent experiments involving lithium-ion iron phosphate (LiFePO 4 ) batteries are also reported. Finally, we present a detailed analysis of the overall energy storage performance in a realistic neurological examination. The study is based on a specific system of our own design, and we fully disclose its relevant parameters, so that the results would be of direct practical value to the wider community, including developers of MRI.

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A permanent MRI magnet for magic angle imaging having its field parallel to the poles

McGinley

Ristić

Young

2016

Journal of Magnetic Resonance

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Numerical Study of Quench Protection Schemes for a $ \hbox{MgB}_{2}$ Superconducting Magnet

Ristić

McGinley

Lorenzoni

2011

IEEE Trans. Appl. Supercond.

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Abstract-Thermal stability and protection in the event of quench are key issues in the design of superconducting magnets. Quench development and propagation strongly depend on the conductor characteristics and the magnet configuration. An adequate quench protection method must maintain both the peak temperature and the peak voltage during the event within acceptable limits. This paper presents quench modelling and evaluation of candidate protection schemes for a superconducting coil based on Magnesium Diboride (MgB 2 ) wire, designed for use in a new, cryogen-free, magnetic resonance imaging (MRI) scanner. The wire properties are different and the current density significantly higher from those previously reported. In contrast to previous studies it is concluded that the coil cannot be considered self-protecting and that protection using external resistance provides a practically acceptable solution.

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Design and initial evaluation of a low‐cost 3‐Tesla research system for combined optical and functional MR imaging with interventional capability

Paley

Mayhew

Martindale

et al. 2001

J. Magn. Reson. Imaging

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A 3-Tesla research system has been developed for functional and interventional magnetic resonance imaging (MRI) procedures on animal models based on a low field niche spectrometer. Use of two stages of fourth harmonic frequency multiplication has allowed us to produce a highfrequency spectrometer with good frequency stability based on a low-frequency direct digital synthesizer. The system has been designed with the ability to introduce interventional tools such as biopsy needles, radiofrequency (RF) electrodes, and fiber optics for optical spectroscopy and thermal ablation as well as drug infusions to allow function to be studied in the presence of external challenges. Full MR-compatible physiologic support capability allows animals to be maintained in a stable condition over extended periods of study. Functional MR images have been acquired by using gradient echoes (TR/TE ‫؍‬ 40/12 msec) from the rat whisker barrel cortex using electrical stimulation (5-V, 1.5-mA, 1-msec pulses at 5 Hz via two needle electrodes inserted into the rat whisker pad). Initial results using respiratory gas challenges of 100% N 2 , 100% O 2 , and 10% CO 2 have shown excellent agreement between single wavelength (633 nm) optical and functional MR time series with subsecond time resolution. The 1-mm copper electrodes for interventional radiofrequency ablation procedures were easily visualized in the superior colliculus by using gradient echo sequences. This novel, lowcost, high field system appears to be a useful research tool for functional and interventional studies of rat brain and allows concurrent optical spectroscopy. J. Magn. Reson. Imaging 2001;13:87-92.MOST INTERVENTIONAL STUDIES to date have focused on use of low-field systems because of availability of open magnets, which provide good access to patients. However, many new techniques that could be of advantage for monitoring the effects of interventional MR require high-field systems and fast imaging techniques. Interventional MRI research at high field (Ն3 Tesla) in humans should really be preceded by careful animal experimentation in, for example, the rodent model.Research into interventional and functional MRI (fMRI) in rodents is more challenging than that in humans because of the much smaller volume of the rodent brain (1-2 mL compared with 1500 mL for the human brain), requiring use of very small voxels and hence high field strengths to achieve adequate signal-to-noise ratio.We have previously developed low field-dedicated MR systems for extremity and neonatal research, which have proved to be both cost effective and clinically useful (1). The objective of this project was to adapt this dedicated low-frequency MR technology for use with high-field magnets and high-performance gradients. This simple modular add-on design may be of use for converting older low-frequency spectrometers for use with higher field magnets as interest grows in applications of fMRI. Our overall aim is to compare high temporal and spatial resolution optical and fMRI and spectroscopic studies of the...

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John V.M. McGinley

Supercapacitor Energy Storage for Magnetic Resonance Imaging Systems

A permanent MRI magnet for magic angle imaging having its field parallel to the poles

Numerical Study of Quench Protection Schemes for a $ \hbox{MgB}_{2}$ Superconducting Magnet

Design and initial evaluation of a low‐cost 3‐Tesla research system for combined optical and functional MR imaging with interventional capability

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