Research Output per year
Personal profile
Research Interests:
My current research focuses on medical applications for Fast Field-Cycling MRI (FFC MRI).
FFC MRI is a new technology of MRI scanners that provides the ability to change the main magnetic field during a scan. This seemingly simple modification can actually be used in a great variety of applications and brings much information that is otherwise unaccessible from conventional scanners.
At the moment I am working on applying FFC MRI for the detection or characterisation of several pathologies, from osteoarthritis to cancer or thrombosis. I am interested in any medical problem that involves detection or chearacterisation.
Research Keywords:
MRI, FFC MRI, double resonance, medical applications, osteoarthritis, cancer, liver fibrosis, thrombosis, muscle injury, sarcopenia, spin relaxation mechanisms
Fingerprint Fingerprint is based on mining the text of the person's scientific documents to create an index of weighted terms, which defines the key subjects of each individual researcher.
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Physics & Astronomy
Magnetic resonance
Chemical Compounds
Magnetic Resonance Spectroscopy
Medicine & Life Sciences
magnetic resonance
Physics & Astronomy
field strength
Physics & Astronomy
Magnetic Fields
Medicine & Life Sciences
Magnetic relaxation
Chemical Compounds
magnetic fields
Physics & Astronomy
Network
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Research Output 2010 2019
Techniques and Applications of Field-cycling Magnetic Resonance in Medicine
Lurie, D. J., Ross, P. J. & Broche, L. M. 2019 Field-cycling NMR Relaxometry: Instrumentation, Model Theories and Applications. Kimmich, R. (ed.). Royal Society of Chemistry, p. 358-384 27 p. (New Developments in NMR; vol. 2019-January, no. 18)Research output: Chapter in Book/Report/Conference proceeding › Chapter (peer-reviewed)
Magnetic resonance
Medicine
Magnetic Resonance Spectroscopy
Magnetic Resonance Imaging
Imaging techniques
A novel imaging modality (Fast Field-Cycling MRI) identifies ischaemic stroke at ultra-low magnetic field strength
Macleod, M. J., Broche, L., Ross, J., Guzman-Guttierez, G. & Lurie, D. Dec 2018 In : International Journal of Stroke. 13, 3_Suppl, p. 62-63 2 p.Research output: Contribution to journal › Abstract
Comparison of fast field-cycling magnetic resonance imaging methods and future perspectives
Bödenler, M., de Rochefort, L., Ross, P. J., Chanet, N., Guillot, G., Davies, G. R., Gösweiner, C., Scharfetter, H., Lurie, D. J. & Broche, L. M. 18 Dec 2018 In : Molecular Physics. 17 p.Research output: Contribution to journal › Article
Open Access
File
Magnetic resonance
magnetic resonance
Molecular Dynamics Simulation
Magnetic Resonance Imaging
Molecular dynamics
Fast-field cycling magnetic resonance imaging – developing a new biomarker for early osteoarthritis of the knee
Ashcroft, G. P., Myint, P. K., Broche, L. & Lurie, D. J. 16 Apr 2018 In : Osteoarthritis and Cartilage. 26, Supplement 1, p. S467 1 p.Research output: Contribution to journal › Abstract
Simple algorithm for the correction of MRI image artefacts due to random phase fluctuations
Ross, P. J., Broche, L. & Lurie, D. J. 2018 p. 2710 1 p.Research output: Contribution to conference › Abstract
Open Access
File
Datasets
Two-point method for faster acquisition of FFC-MRI images
Broche, L. (Producer), University of Aberdeen, 1 Mar 2016
Dataset
Pilot study for the determination of FFC NMR biomarkers of osteoarthritis in human cartilage
Broche, L. (Creator), University of Aberdeen, 1 Mar 2016
DOI: 10.20392/7b8b6cf8-ef29-434c-98dc-cfacd83c36b8
Dataset