Chair in Biomed Physics & Bio Eng
Professor Lurie graduated in Natural Philosophy (physics) at the University of Aberdeen in 1979. He then went to the University of London where he completed an MSc in Radiation Physics and a PhD in Medical Physics at St. Bartholomew's Medical College.
He joined the staff of the University of Aberdeen in 1983 as a research assistant, working with Jim Hutchison on low-field MRI. He was appointed Lecturer in 1985, and soon afterwards began working on methods for detecting free radicals using double magnetic resonance imaging. He was appointed Senior Lecturer in 1992, and to a Personal Chair in Biomedical Physics in 2002.
His research is concerned with the development of magnetic resonance imaging (MRI) technology and its applications, primarily in bio-medicine. Previous work by Lurie and his team included Proton-Electron Double-Resonance Imaging ("PEDRI") imaging of free radicals, and continuous-wave MRI of solid materials. His current research is focussed on the development and use of Fast Field-Cycling magnetic resonance imaging (FFC-MRI). Professor Lurie was the Coordinator of an EU-funded research project, "IDentIFY" (2016-19) with 9 teams in 6 countries working to improve FFC-MRI; the IDentIFY project web site is here.
In September 2017, Prof. Lurie was awarded the Academic Gold Medal of the Institute of Physics and Engineering in Medicine, for "substantial and sustained track record at an outstanding level of contribution to the advancement of academic practice related to physics and engineering applied to medicine and biology."
Prof. Lurie has been a Visiting Scientist at the Johns Hopkins University School of Medicine, and a Visiting International Scholar at Ohio State University. He is author of 78 peer-reviewed publications, 8 book chapters, 5 patents and over 280 conference abstracts. He has given 93 invited, keynote and plenary lectures at conferences and workshops around the world, as well as many invited seminars. In June 2019 he was invited to give the annual "IPEM John Mallard Lecture" at the UK Imaging and Oncology Congress in Liverpool, UK. He delivered three lectures at the Mayo Clinic (Rochester, Minnesota, USA) in August 2019, having been invited there as Visiting Faculty.
He is Vice-Chair of the EU COST Action scientific networking initiative, "European Network on NMR Relaxometry" (2016-20). He is Chair of the Publications and Communications Committee of the European Federation of Organisations for Medical Physics (EFOMP) and is Vice-Chair of the Course Accreditation Committee of the Institute of Physics and Engineering in Medicine (IPEM). Prof. Lurie is an Associate Editor of the European Journal of Medical Physics (2019-21).
In this video, Prof. David Lurie explains the rationale behind FFC-MRI and its potential benefits. David Lurie and post-doctoral Fellow Lionel Broche are seen with the team's experimental FFC-MRI scanners.
The research conducted by Professor Lurie and his team concerns the development and use of novel magnetic resonance imaging (MRI) methods, in order to extend the range of applications of MRI.
Fast field-cycling MRI
The research group's most recent research project is on Fast Field-Cycling MRI (FFC-MRI). Instead of keeping the applied magnetic field absolutely constant - as is usual in MRI - in FFC-MRI the magnetic field is deliberately switched rapidly, during the acquisition of image data. In this way it is possible to measure the NMR relaxation times (for example) of tissues as a function of magnetic field, thereby gaining access to new, and potentially very valuable, contrast mechanisms to highlight differences between normal and diseased tissues.
The project was featured in an article in Issue 6 (Autumn 2007, p21) of the magazine ScienceScotland, published by the Royal Society of Edinburgh. An article on the FFC-MRI work was published in the Spring-Summer 2008 issue of Aberdeen University's Innovate magazine.
In 2007 we received £2.4M from the RCUK's Basic Technology grant scheme for a project (2007-2011) to build new FFC-MRI imagers and to investigate potential applications of FFC-MRI in bio-medical research. In 2011 we received a further year's funding of £200k from EPSRC to investigate the feasibility of performing FFC-MRI on clinical MRI scanners using add-on hardware and software. In 2012 we secured funding from EPSRC to further develop FFC-MRI to work at zero magnetic field, with applications focussed on enhanced diagnosis of neurodegenerative conditions.
In 2015 we succeeded in securing funds from the European Union's Horizon 2020 scheme for a multi-centre collaborative research project on FFC-MRI (48 months from January 2016). The project, entitled "Improving Diagnosis by Fast Field-Cycling MRI" (acronym "IDentIFY") was led and coordinated by the University of Aberdeen, with Lurie as PI, and comprised a consortium of nine teams in six EU countries, with eight academic partners and two industrial SMEs. The total budget for the four-year project was €6.60m.
Free radical imaging
A major interest over the years has been the development and use of MRI techniques for imaging the distribution of free radicals. Free radicals are defined as molecules with one or more unpaired electron in their outer orbitals. They are known to be involved in normal metabolism, and it is widely believed that changes in their concentration can occur during the early stages of many diseases, including most inflammatory diseases, ischaemic heart disease, and possibly cancer. However, the evidence for free radical involvement has been mainly indirect, so there is a need for a method that can detect and image the distribution of free radicals in the body. This would greatly benefit research into the pathogenesis of many diseases, and would allow comparison of treatment regimes in animal models of human disease. If the imaging techniques can be made sufficiently sensitive, it may be possible to monitor the progress of free radical-generating diseases in humans.
In 1987 Prof. Lurie's group pioneered a new method of imaging free radicals called Proton-Electron Double-Resonance Imaging (PEDRI). This combines electron spin resonance (ESR) with MRI and enables high-resolution images of free radical distributions to be generated. Our research is aimed at improving the sensitivity of PEDRI, so that lower concentrations of free radicals can be detected, and also at speeding up the imaging process. This involves designing and building new hardware (magnets, radiofrequency coils, etc.) and developing new "pulse sequences" (control software).
MRI of solid materials
Another project is concerned with imaging solid materials by MRI. Most rigid solids exhibit extremely short NMR relaxation times (specifically, T2), making them impossible to image by conventional MRI. For example, the rigid polymer Perspex (polymethylmethacrylate) has a T2 relaxation time of about 15 µs. The problem with conventional MRI is that it uses pulsed excitation and pulsed magnetic field gradients - if the sample's T2 is very short, the NMR signal will have disappeared before it can be detected. Our approach is to use continuous-wave (CW) detection, so we call our method continuous-wave MRI (CW-MRI). Instead of applying pulses of radiowaves to excite the nuclear spins, we continuously bathe the sample with very low-power radiowaves, and continuously "listen" for a response. In this way, images can be obtained, even from samples like Perspex with extremely short relaxation times.
- British Heart Foundation; "The Next Leap in Cardiac MRI: Cycling the Field"; £278k; 36 months from August 2020 (CI).
- Chief Scientist Office (Scottish Government); "Proving the Utility of Fast Field Cycling MRI in stroke and small vessel disease (PUFFINS)"; £300k; 24 months from April 2020 (CI).
- EU H2020 ATTRACT 3rd-part grant (held by Turin University); "Monitoring Tissue Implants by Field-Cycling MRI of Quadrupolar-Peak Contrast Agents (QP-MRI)"; £89k; 18 months from May 2019 (CI).
- EU H2020; "Improving Diagnosis by Fast Field-Cycling MRI (IDentIFY)"; €6.60M; 48 months from January 2016 (PI).
- EPSRC; "Zero-Field MRI to Enhance Diagnosis of Neurodegeneration"; £979k; 47 months from February 2013 (PI).
Prof. Lurie has visited Khon Kaen University, Thailand on numerous occasions, to lecture on MRI physics. He has also helped to organise, and lecture on, four one-week MRI Schools there (in 1996, 2003, 2006 and 2013).
- Further Info
Professor Lurie regularly reviews grant proposals for the UK Research Councils, Charities, the European Union, and other international bodies. He is a regular reviewer of manuscripts for a number of major journals in the field of MRI. He is an Associate Editor of the European Journal of Medical Physics (Physica Medica).
Prof. Lurie served as External Examiner for the MSc in Physical Sciences in Medicine, at Trinity College Dublin (2007-10). He was External Examiner for the Master of Medical Physics programme at the University of Malaya in Kuala Lumpur, Malaysia (2011-14) and subsequently served as an External Advisor for the degree programme (2014-19).
He is a member of the Fellowship Panel of the Institute of Physics.
He was a member of the Physics in Radiology Subcommittee of the European Congress of Radiology (ECR) (2014-2017), and served as Chair of that subcommittee for the 2017 conference. He was a member of the Programme Planning Committee of ECR for the 2018 and 2019 congresses.
Professor Lurie was the Chair of the Organising Committee and host of the 9th Conference on Fast Field-Cycling NMR Relaxometry, which was held at the University of Aberdeen in July 2015.
Prof. Lurie is Vice-Chair of the EU COST scientific networking initiative "European Network on NMR Relaxometry" (2016-2020).
He is Vice-Chair of the Course Accreditation Committee of the Institute of Physics and Engineering in Medicine (IPEM) (2019-)
He is Chair of the Communications and Publications Committee of the European Federation of Organisations for Medical Physics (EFOMP) (2020-)
Prof. Lurie is a member of the University's Quality Assurance Committee and acts as one of its Officers, with responsibilities for overseeing and monitoring undergraduate and postgraduate degree programmes.
A complete list of publications can be found here.
Prof. Lurie's CV can be found here.
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- Kishimoto, S, Krishna, MC, Khramtsov, VV, Utsumi, H & Lurie, DJ 2018, 'In Vivo Application of Proton-Electron Double-Resonance Imaging', Antioxidants & Redox Signaling, vol. 28, no. 15, pp. 1345-1364. [Online] DOI: https://doi.org/10.1089/ars.2017.7341
- Ross, PJ, Broche, L, Davies, GR & Lurie, DJ 2018, 'A Fast Field-Cycling MRI system for clinical applications', 2018 ISMRM British Chapter Annual meeting, 1/09/18. <> [Online] DOI: https://www.abdn.ac.uk/research/ffc-mri/documents/pdf/abstract_Ross_BCISMRM_2018.pdf
- Macleod, MJ, Broche, L, Ross, J, Guzman-Guttierez, G & Lurie, D 2018, 'A novel imaging modality (Fast Field-Cycling MRI) identifies ischaemic stroke at ultra-low magnetic field strength', International Journal of Stroke, vol. 13, no. 3_Suppl, pp. 62-63. [Online] DOI: https://doi.org/10.1177/1747493018801108
- Lurie, DJ, Broche, L, Davies, GR, Guzman Gutierrez, G, Macleod, M & Ross, PJ 2018, 'Fast Field-Cycling MRI technology: prototype human scanner and first clinical results', Radiological Society of North America Annual Meeting, Chicago, UNITED STATES, 25/11/18. <> [Online] DOI: https://www.abdn.ac.uk/research/ffc-mri/documents/pdf/abstract_Lurie_RSNA_2018.pdf
- Ashcroft, GP, Myint, PK, Broche, L & Lurie, DJ 2018, 'Fast-field cycling magnetic resonance imaging – developing a new biomarker for early osteoarthritis of the knee', Osteoarthritis and Cartilage, vol. 26, no. Supplement 1, pp. S467. [Online] DOI: https://doi.org/10.1016/j.joca.2018.02.881
- Ross, PJ, Broche, L & Lurie, DJ 2018, 'Simple algorithm for the correction of MRI image artefacts due to random phase fluctuations', The ISMRM 26th Annual Meeting & Exhibition, Paris, France, 16/06/18 pp. 2710.
- Ross, PJ, Broche, L, Davies, GR & Lurie, DJ 2017, 'A Fast Field-Cycling MRI system for clinical applications', SINAPSE Annual Scientific Meeting 2017, Glasgow, United Kingdom, 16/06/17.
- Ross, PJ, Broche, L, Davies, GR & Lurie, DJ 2017, 'A Fast Field-Cycling MRI system for clinical applications', 34th Annual Congress of the European Society for Magnetic Resonance in Medicine and Biology (ESMRMB), Barcelona, Spain, 19/10/17 - 21/10/17 pp. 56.
- Ross, PJ, Broche, L, Davies, GR & Lurie, DJ 2017, A new human-scale fast Field-cycling MRI system for clinical applications. in Proceedings of the 25th ISMRM Annual Meeting, Honolulu., 2677, The ISMRM 25th Annual Meeting & Exhibition, Honolulu, United States, 22/04/17.
- Ross, PJ, Broche, L, Davies, GR & Lurie, DJ 2017, 'A new human-scale fast Field-cycling MRI system for clinical applications', The ISMRM 25th Annual Meeting & Exhibition, Honolulu, United States, 22/04/17 - 27/04/17 pp. 2677.