AMIIC Publications
2021
Left atrial 4D flow cardiovascular magnetic resonance: a reproducibility study in sinus rhythm and atrial fibrillation.
Spartera M. et al, (2021), J Cardiovasc Magn Reson, 23
The year in cardiovascular medicine 2020: digital health and innovation.
Antoniades C. et al, (2021), Eur Heart J, 42, 732 - 739
2020
Hyper-acute cardiovascular magnetic resonance T1 mapping predicts infarct characteristics in patients with ST elevation myocardial infarction.
Alkhalil M. et al, (2020), J Cardiovasc Magn Reson, 22
Perivascular Fat Attenuation Index Stratifies Cardiac Risk Associated With High-Risk Plaques in the CRISP-CT Study.
Oikonomou EK. et al, (2020), J Am Coll Cardiol, 76, 755 - 757
Artificial intelligence in medical imaging: A radiomic guide to precision phenotyping of cardiovascular disease.
Oikonomou EK. et al, (2020), Cardiovasc Res, 116, 2040 - 2054
Imaging residual inflammatory cardiovascular risk.
Antoniades C. et al, (2020), Eur Heart J, 41, 748 - 758
2019
Acute Microvascular Impairment Post-Reperfused STEMI Is Reversible and Has Additional Clinical Predictive Value: A CMR OxAMI Study.
Borlotti A. et al, (2019), JACC Cardiovasc Imaging
Combined T1-mapping and tissue tracking analysis predicts severity of ischemic injury following acute STEMI-an Oxford Acute Myocardial Infarction (OxAMI) study.
Wamil M. et al, (2019), Int J Cardiovasc Imaging, 35, 1297 - 1308
Prognostic value of "tissue-based" definitions of TIA and minor stroke: Population-based study.
Hurford R. et al, (2019), Neurology, 92, e2455 - e2461
Measurement of collateral perfusion in acute stroke: a vessel-encoded arterial spin labeling study.
Okell TW. et al, (2019), Sci Rep, 9
A novel machine learning-derived radiotranscriptomic signature of perivascular fat improves cardiac risk prediction using coronary CT angiography.
Oikonomou EK. et al, (2019), Eur Heart J, 40, 3529 - 3543
Prospects for investigating brain oxygenation in acute stroke: Experience with a non-contrast quantitative BOLD based approach.
Stone AJ. et al, (2019), Hum Brain Mapp, 40, 2853 - 2866
Quantifying T 2 relaxation time changes within lesions defined by apparent diffusion coefficient in grey and white matter in acute stroke patients.
Damion RA. et al, (2019), Phys Med Biol, 64
Intraplaque Hemorrhage as a Marker of Stroke Risk.
Alkhalil M. and Choudhury RP., (2019), JACC Cardiovasc Imaging
Neuropeptide-Y causes coronary microvascular constriction and is associated with reduced ejection fraction following ST-elevation myocardial infarction.
Herring N. et al, (2019), Eur Heart J
Incremental Value of Coronary Microcirculation Resistive Reserve Ratio in Predicting the Extent of Myocardial Infarction in Patients with STEMI. Insights from the Oxford Acute Myocardial Infarction (OxAMI) Study.
Scarsini R. et al, (2019), Cardiovasc Revasc Med, 20, 1148 - 1155
Navigator-based reacquisition and estimation of motion-corrupted data: Application to multi-echo spin echo for carotid wall MRI.
Frost R. et al, (2019), Magn Reson Med
Point-Cloud Method for Automated 3D Coronary Tree Reconstruction From Multiple Non-Simultaneous Angiographic Projections
Banerjee A. et al, (2020), IEEE Transactions on Medical Imaging, 39, 1278 - 1290
2018
Age-Specific Associations of Renal Impairment With Magnetic Resonance Imaging Markers of Cerebral Small Vessel Disease in Transient Ischemic Attack and Stroke.
Liu B. et al, (2018), Stroke, 49, 899 - 904
Antiplatelet Treatment After Transient Ischemic Attack and Ischemic Stroke in Patients With Cerebral Microbleeds in 2 Large Cohorts and an Updated Systematic Review.
Lau KK. et al, (2018), Stroke, 49, 1434 - 1442
Quantifying Infarct Growth and Secondary Injury Volumes: Comparing Multimodal Image Registration Measures.
Harston GWJ. et al, (2018), Stroke, 49, 1647 - 1655
Complications of endovascular treatment for acute ischemic stroke: Prevention and management.
Balami JS. et al, (2018), Int J Stroke, 13, 348 - 361
T2 mapping MRI technique quantifies carotid plaque lipid, and its depletion after statin initiation, following acute myocardial infarction.
Alkhalil M. et al, (2018), Atherosclerosis, 279, 100 - 106
Index of Microcirculatory Resistance as a Tool to Characterize Microvascular Obstruction and to Predict Infarct Size Regression in Patients With STEMI Undergoing Primary PCI.
De Maria GL. et al, (2019), JACC Cardiovasc Imaging, 12, 837 - 848
Medical Attention Seeking After Transient Ischemic Attack and Minor Stroke Before and After the UK Face, Arm, Speech, Time (FAST) Public Education Campaign
Wolters FJ. et al, (2018), JAMA Neurology
Late functional improvement after lacunar stroke: a population-based study.
Ganesh A. et al, (2018), J Neurol Neurosurg Psychiatry, 89, 1301 - 1307
Time course of blood pressure control prior to lacunar TIA and stroke: Population-based study.
Li L. et al, (2018), Neurology, 90, e1732 - e1741
The relationship of perivascular adipose tissue and atherosclerosis in the aorta and carotid arteries, determined by magnetic resonance imaging.
Alkhalil M. et al, (2018), Diab Vasc Dis Res, 15, 286 - 293
Differential Gene Expression in Macrophages From Human Atherosclerotic Plaques Shows Convergence on Pathways Implicated by Genome-Wide Association Study Risk Variants.
Chai JT. et al, (2018), Arterioscler Thromb Vasc Biol, 38, 2718 - 2730
Index of microcirculatory resistance-guided therapy with pressure-controlled intermittent coronary sinus occlusion improves coronary microvascular function and reduces infarct size in patients with ST-elevation myocardial infarction: the Oxford Acute Myocardial Infarction - Pressure-controlled Intermittent Coronary Sinus Occlusion study (OxAMI-PICSO study).
De Maria GL. et al, (2018), EuroIntervention, 14, e352 - e359
Dynamic changes in injured myocardium, very early after acute myocardial infarction, quantified using T1 mapping cardiovascular magnetic resonance.
Alkhalil M. et al, (2018), J Cardiovasc Magn Reson, 20
2017
Endothelium-derived extracellular vesicles promote splenic monocyte mobilization in myocardial infarction.
Akbar N. et al, (2017), JCI Insight, 2
Quantification of carotid plaque lipid content with magnetic resonance T2 mapping in patients undergoing carotid endarterectomy.
Alkhalil M. et al, (2017), PLoS One, 12
Impact of automated ICA-based denoising of fMRI data in acute stroke patients.
Carone D. et al, (2017), Neuroimage Clin, 16, 23 - 31
Optimizing image registration and infarct definition in stroke research.
Harston GWJ. et al, (2017), Ann Clin Transl Neurol, 4, 166 - 174
Heart regeneration and repair after myocardial infarction: translational opportunities for novel therapeutics.
Cahill TJ. et al, (2017), Nat Rev Drug Discov, 16, 699 - 717
Calcium channel blockade with nimodipine reverses MRI evidence of cerebral oedema following acute hypoxia.
Rowland MJ. et al, (2019), J Cereb Blood Flow Metab, 39, 285 - 301
CMR Native T1 Mapping Allows Differentiation of Reversible Versus Irreversible Myocardial Damage in ST-Segment-Elevation Myocardial Infarction: An OxAMI Study (Oxford Acute Myocardial Infarction).
Liu D. et al, (2017), Circ Cardiovasc Imaging, 10
A novel workflow combining plaque imaging, plaque and plasma proteomics identifies biomarkers of human coronary atherosclerotic plaque disruption.
Lee R. et al, (2017), Clin Proteomics, 14
2016
Quantification of Serial Cerebral Blood Flow in Acute Stroke Using Arterial Spin Labeling.
Harston GWJ. et al, (2017), Stroke, 48, 123 - 130
Arterial Effects of Canakinumab in Patients With Atherosclerosis and Type 2 Diabetes or Glucose Intolerance.
Choudhury RP. et al, (2016), J Am Coll Cardiol, 68, 1769 - 1780
Inflammatory processes in cardiovascular disease: a route to targeted therapies.
Ruparelia N. et al, (2017), Nat Rev Cardiol, 14, 133 - 144
Plaque imaging to refine indications for emerging lipid-lowering drugs.
Alkhalil M. et al, (2017), Eur Heart J Cardiovasc Pharmacother, 3, 58 - 67
Quantification of Lipid-Rich Core in Carotid Atherosclerosis Using Magnetic Resonance T2 Mapping: Relation to Clinical Presentation.
Chai JT. et al, (2017), JACC Cardiovasc Imaging, 10, 747 - 756
Hemodynamic correlates of transient cognitive impairment after transient ischemic attack and minor stroke: A transcranial Doppler study.
Mazzucco S. et al, (2016), Int J Stroke, 11, 978 - 986
BIANCA (Brain Intensity AbNormality Classification Algorithm): A new tool for automated segmentation of white matter hyperintensities.
Griffanti L. et al, (2016), Neuroimage, 141, 191 - 205
Magnetic Resonance Imaging Measurement of Transmission of Arterial Pulsation to the Brain on Propranolol Versus Amlodipine.
Webb AJS. and Rothwell PM., (2016), Stroke, 47, 1669 - 1672
Refining the Enrolment Process in Emergency Medicine Research.
Sahan KM. et al, (2016), Eur J Cardiovasc Med, 4, 506 - 510
2015
An Optimized Encoding Scheme for Planning Vessel-Encoded Pseudocontinuous Arterial Spin Labeling.
Berry ESK. et al, (2015), Magn Reson Med, 74, 1248 - 1256
Zero-Flow Pressure Measured Immediately After Primary Percutaneous Coronary Intervention for ST-Segment Elevation Myocardial Infarction Provides the Best Invasive Index for Predicting the Extent of Myocardial Infarction at 6 Months: An OxAMI Study (Oxford Acute Myocardial Infarction).
Patel N. et al, (2015), JACC Cardiovasc Interv, 8, 1410 - 1421
Incidence, risk factors, outcome and projected future burden of acute aortic dissection.
Howard DPJ. et al, (2014), Ann Cardiothorac Surg, 3, 278 - 284
Imaging biomarkers in acute ischemic stroke trials: a systematic review.
Harston GWJ. et al, (2015), AJNR Am J Neuroradiol, 36, 839 - 843
Identifying the ischaemic penumbra using pH-weighted magnetic resonance imaging.
Harston GWJ. et al, (2015), Brain, 138, 36 - 42
Prospective motion correction and selective reacquisition using volumetric navigators for vessel-encoded arterial spin labeling dynamic angiography.
Frost R. et al, (2016), Magn Reson Med, 76, 1420 - 1430
Acute myocardial infarction activates distinct inflammation and proliferation pathways in circulating monocytes, prior to recruitment, and identified through conserved transcriptional responses in mice and humans.
Ruparelia N. et al, (2015), Eur Heart J, 36, 1923 - 1934
Evidence of poor adherence to secondary prevention after acute coronary syndromes: possible remedies through the application of new technologies.
Cheng K. et al, (2015), Open Heart, 2