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1. Lipid-associated macrophages transition to an inflammatory state in human atherosclerosis, increasing the risk of cerebrovascular complications

Author

Dib, L, Koneva, LA, Edsfeldt, A, Zurke, Y-X, Sun, J, Nitulescu, M, Attar, M, Lutgens, E, Schmidt, S, Lindholm, MW, Choudhury, RP, Cassimjee, I, Lee, R, Handa, A, Goncalves, I, Sansom, SN, and Monaco, C

Abstract

The immune system is integral to cardiovascular health and disease. Targeting inflammation ameliorates adverse cardiovascular outcomes. Atherosclerosis, a major underlying cause of cardiovascular disease, is conceptualized as lipid-driven inflammation in which macrophages play a nonredundant role. However, evidence emerging so far from single-cell atlases suggests a dichotomy between lipid-associated and inflammatory macrophage states. Here, we present an inclusive reference atlas of human intraplaque immune cell communities. Combining single-cell RNA sequencing (scRNA-seq) of human surgical carotid endarterectomies in a discovery cohort with bulk RNA-seq and immunohistochemistry in a validation cohort (the Carotid Plaque Imaging Project), we reveal the existence of PLIN2hi/TREM1himacrophages as a Toll-like receptor (TLR)-dependent inflammatory lipid-associated macrophage state linked to cerebrovascular events. Our study shifts the current paradigm of lipid-driven inflammation by providing biological evidence for a pathogenic macrophage transition to an inflammatory lipid-associated phenotype and for its targeting as a new treatment strategy for cardiovascular disease.

Published
2023
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2. Rapid neutrophil mobilization by VCAM-1+ endothelial cell-derived extracellular vesicles

Author

Akbar, N, Braithwaite, AT, Corr, EM, Koelwyn, GJ, van Solingen, C, Cochain, C, Saliba, A-E, Corbin, A, Pezzolla, D, Møller Jørgensen, M, Bæk, R, Edgar, L, De Villiers, C, Gunadasa-Rohling, M, Banerjee, A, Paget, D, Lee, C, Hogg, E, Costin, A, Dhaliwal, R, Johnson, E, Krausgruber, T, Riepsaame, J, Melling, GE, Shanmuganathan, M, Bock, C, Carter, DRF, Channon, KM, Riley, PR, Udalova, IA, Moore, KJ, Anthony, D, Choudhury, RP, and (OxAMI), Oxford Acute Myocardial Infarction Study

Subjects
Exosome, Myocardial infarction, Physiology, Physiology (medical), Programming, Cardiology and Cardiovascular Medicine, Spleen
Abstract

Aims Acute myocardial infarction rapidly increases blood neutrophils ( Methods and results Here, we show that injury to the myocardium rapidly mobilizes neutrophils from the spleen to peripheral blood and induces their transcriptional activation prior to arrival at the injured tissue. Time course analysis of plasma-EV composition revealed a rapid and selective increase in EVs bearing VCAM-1. These EVs, which were also enriched for miRNA-126, accumulated preferentially in the spleen where they induced local inflammatory gene and chemokine protein expression, and mobilized splenic-neutrophils to peripheral blood. Using CRISPR/Cas9 genome editing, we generated VCAM-1-deficient EC-EVs and showed that its deletion removed the ability of EC-EVs to provoke the mobilization of neutrophils. Furthermore, inhibition of miRNA-126 in vivo reduced myocardial infarction size in a mouse model. Conclusions Our findings show a novel EV-dependent mechanism for the rapid mobilization of neutrophils to peripheral blood from a splenic reserve and establish a proof of concept for functional manipulation of EV-communications through genetic alteration of parent cells.

Published
2023
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3. Comparative and integrated analysis of plasma extracellular vesicle isolation methods in healthy volunteers and patients following myocardial infarction

Author

Paget, D, Checa, A, Zöhrer, B, Heilig, R, Shanmuganathan, M, Dhaliwal, R, Johnson, E, Jørgensen, MM, Bæk, R, Wheelock, CE, Channon, KM, Fischer, R, Anthony, DC, Choudhury, RP, Akbar, N, and (OxAMI), Oxford Acute Myocardial Infarction Study

Subjects
ultracentrifugation, acoustic trapping, immunoaffinity capture, size exclusion chromatography, human, precipitation, plasma, omics
Abstract

Plasma extracellular vesicle (EV) number and composition are altered following myocardial infarction (MI), but to properly understand the significance of these changes it is essential to appreciate how the different isolation methods affect EV characteristics, proteome and sphingolipidome. Here, we compared plasma EV isolated from platelet-poor plasma from four healthy donors and six MI patients at presentation and 1-month post-MI using ultracentrifugation (UC), polyethylene glycol precipitation, acoustic trapping, size-exclusion chromatography (SEC) and immunoaffinity capture. The isolated EV were evaluated by Nanoparticle Tracking Analysis (NTA), Western blot, transmission electron microscopy (TEM), an EV-protein array, untargeted proteomics (LC-MS/MS) and targeted sphingolipidomics (LC-MS/MS). The application of the five different plasma EV isolation methods in patients presenting with MI showed that the choice of plasma EV isolation method influenced the ability to distinguish elevations in plasma EV concentration following MI, enrichment of EV-cargo (EV-proteins and sphingolipidomics) and associations with the size of the infarct determined by cardiac magnetic resonance imaging 6 months post-MI. Despite the selection bias imposed by each method, a core of EV-associated proteins and lipids was detectable using all approaches. However, this study highlights how each isolation method comes with its own idiosyncrasies and makes the comparison of data acquired by different techniques in clinical studies problematic.

Published
2022
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4. Automated 3D Whole-Heart Mesh Reconstruction From 2D Cine MR Slices Using Statistical Shape Model

Author

Banerjee, A, Zacur, E, Choudhury, RP, and Grau, V

Subjects
Imaging, Three-Dimensional, Models, Statistical, Humans, Heart, Magnetic Resonance Imaging, Algorithms
Abstract

Cardiac magnetic resonance (CMR) imaging is the one of the gold standard imaging modalities for the diagnosis and characterization of cardiovascular diseases. The clinical cine protocol of the CMR typically generates high-resolution 2D images of heart tissues in a finite number of separated and independent 2D planes, which are appropriate for the 3D reconstruction of biventricular heart surfaces. However, they are usually inadequate for the whole-heart reconstruction, specifically for both atria. In this regard, the paper presents a novel approach for automated patient-specific 3D whole-heart mesh reconstruction from limited number of 2D cine CMR slices with the help of a statistical shape model (SSM). After extracting the heart contours from 2D cine slices, the SSM is first optimally fitted over the sparse heart contours in 3D space to provide the initial representation of the 3D whole-heart mesh, which is further deformed to minimize the distance from the heart contours for generating the final reconstructed mesh. The reconstruction performance of the proposed approach is evaluated on a cohort of 30 subjects randomly selected from the UK Biobank study, demonstrating the generation of high-quality 3D whole-heart meshes with average contours to surface distance less than the underlying image resolution and the clinical metrics within acceptable ranges reported in previous literature. Clinical Relevance- Automated patient-specific 3D whole-heart mesh reconstruction has numerous applications in car-diac diagnosis and multimodal visualization, including treatment planning, virtual surgery, and biomedical simulations.

Published
2022

5. Long-term prognosis after acute ST-segment elevation myocardial infarction is determined by characteristics in both non-infarcted and infarcted myocardium on cardiovascular magnetic resonance imaging

Author

Shanmuganathan, M, Masi, A, Burrage, MK, Kotronias, RA, Borlotti, A, Scarsini, R, Banerjee, A, Terentes-Printzios, D, Zhang, Q, Hann, E, Tunnicliffe, E, Lucking, A, Langrish, J, Kharbanda, R, de Maria, GL, Banning, AP, Choudhury, RP, Channon, KM, Piechnik, SK, Ferreira, VM, and investigators, Oxford Acute Myocardial Infarction (OxAMI) Study

Published
2022

6. Automated Torso Contour Extraction from Clinical Cardiac MR Slices for 3D Torso Reconstruction

Author

Smith, HJ, Banerjee, A, Choudhury, RP, and Grau, V

Subjects
Electrocardiography, Heart, Plastic Surgery Procedures, Thorax, Magnetic Resonance Imaging
Abstract

Whilst the electrocardiogram (ECG) is an essential tool for diagnosing cardiac electrical abnormalities, its characteristics are dependent on anatomical variability. Specifically variation in torso geometry affects relative positions of the leads with respect to the heart. We propose a novel pipeline that uses standard cardiac magnetic resonance images to reconstruct the torso and heart, and recreate the ECG considering torso and cardiac anatomy. This requires automated extraction of the torso contours. Our method combines an initial u-net segmenter with a second network that refines contours and removes spurious segments. The networks were evaluated on a cross validation study dataset and an independent test set. The use of two-channel input, including both original image and initial segmentation, in the refinement network significantly improved performance on the independent test set, reducing the Hausdorff distance from 9.1 pixels to 4.3 pixels and increasing Dice coefficient from 0.75 to 0.93. Clinical Relevance- This method can be utilized to allow ECG simulations with personalized torso geometry which has previously been demonstrated to significantly effect QRS parameters. A clinical tool can be developed using this method that accounts for torso geometry in ECG interpretation.

Published
2022
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8. Semi-Supervised Coronary Vessels Segmentation from Invasive Coronary Angiography with Connectivity-Preserving Loss Function

Author

He, H, Banerjee, A, Beetz, M, Choudhury, RP, Grau, V, and Ieee

Abstract

The segmentation of arteries in invasive coronary angiography is necessary to build quantitative models and eventually improve the diagnosis of cardiovascular diseases. Standard segmentation algorithms suffer due to the lack of fully annotated datasets and tend to return disconnected vessels. Thus, we explore a semi-supervised segmentation framework to address these issues. Specifically, we use a student model and a teacher model as the main framework with Nested U-Nets (UNet++) as their backbones. The student model learns by minimizing a segmentation loss between the output and the ground truth, and a consistency loss guided by the uncertainty information. Additionally, a special loss function based on elastic interaction is used to improve the connectivity of arterial branches. We demonstrate the effectiveness of our proposed techniques over 42 labeled and 60 unlabeled samples and find relative improvement of 5.59% for Dice score and 69.99% for Betti number compared to a U-Net.

Published
2022
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9. Angiography-derived index of microcirculatory resistance as a novel, pressure-wire-free tool to assess coronary microcirculation in ST elevation myocardial infarction

Author

De Maria, GL, Scarsini, R, Shanmuganathan, M, Kotronias, RA, Terentes-Printzios, D, Borlotti, A, Langrish, JP, Lucking, AJ, Choudhury, RP, Kharbanda, R, Ferreira, VM, Investigators, Oxford Acute Myocardial Infarction (OXAMI) Study, Channon, KM, Garcia-Garcia, HM, and Banning, AP

Subjects
Male, Cardiac Catheterization, medicine.medical_specialty, medicine.medical_treatment, Coronary Artery Disease, Coronary microcirculation, Coronary Angiography, Cardiac Catheters, STEMI, Hyperaemia, Index of microcirculatory resistance, Predictive Value of Tests, St elevation myocardial infarction, Coronary Circulation, Internal medicine, Transducers, Pressure, medicine, Humans, Radiology, Nuclear Medicine and imaging, Prospective Studies, Angioplasty, Balloon, Coronary, Cardiac imaging, Aged, Original Paper, medicine.diagnostic_test, business.industry, Microcirculation, Area under the curve, Reproducibility of Results, Percutaneous coronary intervention, Magnetic resonance imaging, Middle Aged, Microvascular obstruction, Coronary Vessels, Magnetic Resonance Imaging, Quantitative flow ratio, Microvascular dysfunction, Angiography, Cardiology, Radiographic Image Interpretation, Computer-Assisted, ST Elevation Myocardial Infarction, Female, Stents, Vascular Resistance, medicine.symptom, Cardiology and Cardiovascular Medicine, business, Blood Flow Velocity
Abstract

Immediate assessment of coronary microcirculation during treatment of ST elevation myocardial infarction (STEMI) may facilitate patient stratification for targeted treatment algorithms. Use of pressure-wire to measure the index of microcirculatory resistance (IMR) is possible but has inevitable practical restrictions. We aimed to develop and validate angiography-derived index of microcirculatory resistance (IMRangio) as a novel and pressure-wire-free index to facilitate assessment of the coronary microcirculation. 45 STEMI patients treated with primary percutaneous coronary intervention (pPCI) were enrolled. Immediately before stenting and at completion of pPCI, IMR was measured within the infarct related artery (IRA). At the same time points, 2 angiographic views were acquired during hyperaemia to measure quantitative flow ratio (QFR) from which IMRangio was derived. In a subset of 15 patients both IMR and IMRangio were also measured in the non-IRA. Patients underwent cardiovascular magnetic resonance imaging (CMR) at 48 h for assessment of microvascular obstruction (MVO). IMRangio and IMR were significantly correlated (ρ: 0.85, p 1.55% of left ventricular mass) (p = 0.03 and p = 0.005, respectively). Post-pPCI IMRangio presented and area under the curve (AUC) of 0.96 (CI95% 0.92–1.00, p 40U and of 0.81 (CI95% 0.65–0.97, p 1.55%. IMRangio is a promising tool for the assessment of coronary microcirculation. Assessment of IMR without the use of a pressure-wire may enable more rapid, convenient and cost-effective assessment of coronary microvascular function. Electronic supplementary material The online version of this article (10.1007/s10554-020-01831-7) contains supplementary material, which is available to authorized users.

Published
2020
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11. Discordant Genome Assemblies Drastically Alter the Interpretation of Single-Cell RNA Sequencing Data Which Can Be Mitigated by a Novel Integration Method

Author

Potts, HG, Lemieux, ME, Rice, ES, Warren, W, Choudhury, RP, and Mommersteeg, MTM

Subjects
Genome, Base Sequence, Sequence Analysis, RNA, Exome Sequencing, Sequence Analysis, DNA, General Medicine, genome assembly, Astyanax mexicanus, integration, seurat, read alignment, non-model organisms, scRNAseq
Abstract

Advances in sequencing and assembly technology have led to the creation of genome assemblies for a wide variety of non-model organisms. The rapid production and proliferation of updated, novel assembly versions can create vexing problems for researchers when multiple-genome assembly versions are available at once, requiring researchers to work with more than one reference genome. Multiple-genome assemblies are especially problematic for researchers studying the genetic makeup of individual cells, as single-cell RNA sequencing (scRNAseq) requires sequenced reads to be mapped and aligned to a single reference genome. Using the Astyanax mexicanus, this study highlights how the interpretation of a single-cell dataset from the same sample changes when aligned to its two different available genome assemblies. We found that the number of cells and expressed genes detected were drastically different when aligning to the different assemblies. When the genome assemblies were used in isolation with their respective annotations, cell-type identification was confounded, as some classic cell-type markers were assembly-specific, whilst other genes showed differential patterns of expression between the two assemblies. To overcome the problems posed by multiple-genome assemblies, we propose that researchers align to each available assembly and then integrate the resultant datasets to produce a final dataset in which all genome alignments can be used simultaneously. We found that this approach increased the accuracy of cell-type identification and maximised the amount of data that could be extracted from our single-cell sample by capturing all possible cells and transcripts. As scRNAseq becomes more widely available, it is imperative that the single-cell community is aware of how genome assembly alignment can alter single-cell data and their interpretation, especially when reviewing studies on non-model organisms.

Published
2022
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12. Society for Cardiovascular Magnetic Resonance (SCMR) expert consensus for CMR imaging endpoints in clinical research: part I - analytical validation and clinical qualification

Author

Puntmann, VO, Valbuena, S, Hinojar, R, Petersen, SE, Greenwood, JP, Kramer, CM, Kwong, RY, McCann, GP, Berry, C, Nagel, E, Bluemke, D, Bremerich, J, Botnar, R, Bucciarelli-Ducci, C, Choudhury, RP, Dweck, M, Eitel, I, Ferrari, V, Friedrich, M, Hundley, G, Lombardi, M, Lopez Fernandez, T, Marwick, T, Narula, J, Neubauer, S, Patel, A, Pennell, D, Plein, S, Prasad, S, Rademakers, F, Raman, S, Sakuma, H, Sanz, J, Schulz-Menger, J, Simonetti, O, Swift, A, Taylor, AJ, Teixeira, T, Thiele, H, Ugander, M, Westenberg, JJ, and Young, AA

Subjects
Population ageing, medicine.medical_specialty, lcsh:Diseases of the circulatory (Cardiovascular) system, Consensus, Cardiac magnetic resonance, SCMR, Context (language use), Disease, 030204 cardiovascular system & hematology, 1102 Cardiovascular Medicine And Haematology, 030218 nuclear medicine & medical imaging, Imaging, 03 medical and health sciences, 0302 clinical medicine, Predictive Value of Tests, Medicine, Humans, Radiology, Nuclear Medicine and imaging, Medical physics, Position paper, Evidence-Based Medicine, Radiological and Ultrasound Technology, business.industry, Reproducibility of Results, Biomarker, Prognosis, Magnetic Resonance Imaging, Clinical trial, Nuclear Medicine & Medical Imaging, Clinical research, Software deployment, lcsh:RC666-701, Cardiovascular Diseases, Cardiology and Cardiovascular Medicine, business, Strengths and weaknesses
Abstract

Cardiovascular disease remains a leading cause of morbidity and mortality globally. Changing natural history of the disease due to improved care of acute conditions and ageing population necessitates new strategies to tackle conditions which have more chronic and indolent course. These include an increased deployment of safe screening methods, life-long surveillance, and monitoring of both disease activity and tailored-treatment, by way of increasingly personalized medical care. Cardiovascular magnetic resonance (CMR) is a non-invasive, ionising radiation-free method, which can support a significant number of clinically relevant measurements and offers new opportunities to advance the state of art of diagnosis, prognosis and treatment. The objective of the SCMR Clinical Trial Taskforce was to summarizes the evidence to emphasize where currently CMR-guided clinical care can indeed translate into meaningful use and efficient deployment of resources results in meaningful and efficient use. The objective of the present initiative was to provide an appraisal of evidence on analytical validation, including the accuracy and precision, and clinical qualification of parameters in disease context, clarifying the strengths and weaknesses of the state of art, as well as the gaps in the current evidence This paper is complementary to the existing position papers on standardized acquisition and post-processing ensuring robustness and transferability for widespread use. Themed imaging-endpoint guidance on trial design to support drug-discovery or change in clinical practice (part II), will be presented in a follow-up paper in due course. As CMR continues to undergo rapid development, regular updates of the present recommendations are foreseen. ispartof: J Cardiovasc Magn Reson vol:20 issue:1 pages:67- ispartof: location:England status: Published online

Published
2018

13. Endothelium-derived extracellular vesicles promote splenic monocyte mobilization in myocardial infarction

Author

Akbar, N, Digby, JE, Cahill, TJ, Tavare, AN, Corbin, AL, Saluja, S, Dawkins, S, Edgar, L, Rawlings, N, Ziberna, K, McNeill, E, Johnson, E, Aljabali, AA, Dragovic, RA, Rohling, M, Belgard, TG, Udalova, IA, Greaves, DR, Channon, KM, Riley, PR, Anthony, DC, and Choudhury, RP

Subjects
Myocardial Infarction, Cardiology, Down-Regulation, Gene Expression, Nerve Tissue Proteins, Monocytes, Extracellular Vesicles, Mice, Cell migration/adhesion, Vascular Biology, Cell Adhesion, Human Umbilical Vein Endothelial Cells, Animals, Humans, RNA, Messenger, Endothelial Cells, Up-Regulation, Mice, Inbred C57BL, Chemotaxis, Leukocyte, MicroRNAs, Gene Ontology, RAW 264.7 Cells, CD18 Antigens, Female, Spleen, Research Article
Abstract

Transcriptionally activated monocytes are recruited to the heart after acute myocardial infarction (AMI). After AMI in mice and humans, the number of extracellular vesicles (EVs) increased acutely. In humans, EV number correlated closely with the extent of myocardial injury. We hypothesized that EVs mediate splenic monocyte mobilization and program transcription following AMI. Some plasma EVs bear endothelial cell (EC) integrins, and both proinflammatory stimulation of ECs and AMI significantly increased VCAM-1–positive EV release. Injected EC-EVs localized to the spleen and interacted with, and mobilized, splenic monocytes in otherwise naive, healthy animals. Analysis of human plasma EV-associated miRNA showed 12 markedly enriched miRNAs after AMI; functional enrichment analyses identified 1,869 putative mRNA targets, which regulate relevant cellular functions (e.g., proliferation and cell movement). Furthermore, gene ontology termed positive chemotaxis as the most enriched pathway for the miRNA-mRNA targets. Among the identified EV miRNAs, EC-associated miRNA-126-3p and -5p were highly regulated after AMI. miRNA-126-3p and -5p regulate cell adhesion– and chemotaxis-associated genes, including the negative regulator of cell motility, plexin-B2. EC-EV exposure significantly downregulated plexin-B2 mRNA in monocytes and upregulated motility integrin ITGB2. These findings identify EVs as a possible novel signaling pathway by linking ischemic myocardium with monocyte mobilization and transcriptional activation following AMI., Acute myocardial infarction elevates circulating endothelial cell–derived extracellular vesicles, which can mobilize monocytes from the spleen and alter transcription.

Published
2017

14. The ATI score (age-thrombus burden-index of microcirculatory resistance) determined during primary percutaneous coronary intervention predicts final infarct size in patients with ST-elevation myocardial infarction: A cardiac magnetic resonance validation study

Author

De Maria, Giovanni Luigi, Alkhalil, M, Wolfrum, M, Fahrni, G, Borlotti, A, Gaughran, L, Dawkins, S, Langrish, Jp, Lucking, Aj, Choudhury, Rp, Porto, Italo, Crea, Filippo, Dall'Armellina, E, Channon, Km, Kharbanda, Rk, Banning, Ap., De Maria GL (ORCID:0000-0003-3572-1855), Porto I (ORCID:0000-0002-9854-5046), Crea F (ORCID:0000-0001-9404-8846), De Maria, Giovanni Luigi, Alkhalil, M, Wolfrum, M, Fahrni, G, Borlotti, A, Gaughran, L, Dawkins, S, Langrish, Jp, Lucking, Aj, Choudhury, Rp, Porto, Italo, Crea, Filippo, Dall'Armellina, E, Channon, Km, Kharbanda, Rk, Banning, Ap., De Maria GL (ORCID:0000-0003-3572-1855), Porto I (ORCID:0000-0002-9854-5046), and Crea F (ORCID:0000-0001-9404-8846)

Abstract

AIMS: The age-thrombus burden-index of microcirculatory resistance (ATI) score is a diagnostic tool able to predict suboptimal myocardial reperfusion before stenting, in patients with ST-elevation myocardial infarction (STEMI). We aimed to validate the ATI score against cardiac magnetic resonance imaging (cMRI). METHODS AND RESULTS: The ATI score was calculated prospectively in 80 STEMI patients. cMRI was performed within 48 hours in all patients and in 50 patients at six-month follow-up to assess the extent of infarct size (IS%) and microvascular obstruction (MVO%). The ATI score was calculated using age (>50=1 point), pre-stenting index of microcirculatory resistance (IMR) (>40 and <100=1 point; ≥100=2 points) and angiographic thrombus score (4=1 point; 5=3 points). ATI score was closely related to final IS% (ATI. Comment in Resistance to flow in the coronary microcirculation - we can measure it but what does it mean?

Published
2017

22. Chapter 4 - Applications of nanotechnology in molecular imaging of the brain

Author

McAteer, MA and Choudhury, RP

Abstract

Rapid advances in the field of nanotechnology promise revolutionary improvements in the diagnosis and therapy of neuroinflammatory disorders. An array of iron oxide nano- and microparticle agents have been developed for in vivo molecular magnetic resonance imaging (mMRI) of cerebrovascular endothelial targets, such as vascular cell adhesion molecule-1 (VCAM-1), E-selectin, and the glycoprotein receptor GP IIb/IIIa expressed on activated platelets. Molecular markers of glioma cells, such as matrix metalloproteinase-2 (MMP-2), and markers for brain tumor angiogenesis, such as alpha (v) beta (3) integrin (alpha(v)beta(3)), have also been successfully targeted using nanoparticle imaging probes. This chapter provides an overview of targeted, iron oxide nano- and microparticles that have been applied for in vivo mMRI of the brain in experimental models of multiple sclerosis (MS), brain ischemia, cerebral malaria (CM), brain cancer, and Alzheimer's disease. The potential of targeted nanoparticle agents for application in clinical imaging is also discussed, including multimodal and therapeutic approaches.

Published
2016
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31. Contemporary coronary imaging from patient to plaque: Part 4 magnetic resonance imaging

Author

Lindsay, AC, Murray, SW, and Choudhury, RP

Abstract

In recent years a large amount of research has focused on developing both invasive and non-invasive methods of assessing atherosclerosis. In this regard, magnetic resonance imaging (MRI) is safe, noninvasive, requires no ionising radiation, and is capable of giving high-resolution images of atherosclerotic plaque. As a result, MRI has been extensively applied to imaging of the vascular system - in particular, the carotid arteries - where it has been shown to have the ability to not only accurately quantify the extent of atherosclerotic plaque disease, but also to identify several compositional features suggestive of plaque vulnerability. Imaging of the relatively small coronary arteries has, until now, been limited by the problems of cardiac and respiratory motion, however, more recently, technological advancements have allowed more detailed plaque information to be acquired. This article will review the origins of MRI imaging of atherosclerotic disease, its current status, and its potential future applications.

Published
2016

44. 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

Author

Ruparelia, N, Godec, J, Lee, R, Chai, JT, Dall'Armellina, E, McAndrew, D, Digby, JE, Forfar, JC, Prendergast, BD, Kharbanda, RK, Banning, AP, Neubauer, S, Lygate, CA, Channon, KM, Haining, NW, and Choudhury, RP

Subjects
Inflammation, Male, Transcriptional Activation, Transcription, Genetic, Gene Expression Profiling, Myocardial Infarction, Mitosis, Acute myocardial infarction, Genomics, Middle Aged, Monocytes, Mice, Inbred C57BL, Phenotype, Basic Science, Case-Control Studies, Leukocytes, Mononuclear, Animals, Humans, Female, cardiovascular diseases, Ligation, Magnetic Resonance Angiography, Aged, Cell Proliferation
Abstract

The immune system plays critical roles in myocardial injury and repair following acute myocardial infarction (AMI). Evidence from experimental models strongly implicates monocytes as critical to these processes and their specific targeting results in a significant reduction in infarct size and improved healing. It is currently unclear if monocytes play a similarly important role in humans. Examining changes in the patterns of gene expression can address this question. Here, we show that the peripheral blood monocyte response following AMI is conserved between species and that monocytes appear to be ‘programmed’ prior to their arrival at sites of myocardial injury. This investigation may translate to the future development of therapeutics to treat patients presenting with AMI that importantly would be effective in the hours after the onset of ischaemia., Aims Monocytes play critical roles in tissue injury and repair following acute myocardial infarction (AMI). Specifically targeting inflammatory monocytes in experimental models leads to reduced infarct size and improved healing. However, data from humans are sparse, and it remains unclear whether monocytes play an equally important role in humans. The aim of this study was to investigate whether the monocyte response following AMI is conserved between humans and mice and interrogate patterns of gene expression to identify regulated functions. Methods and results Thirty patients (AMI) and 24 control patients (stable coronary atherosclerosis) were enrolled. Female C57BL/6J mice (n = 6/group) underwent AMI by surgical coronary ligation. Myocardial injury was quantified by magnetic resonance imaging (human) and echocardiography (mice). Peripheral monocytes were isolated at presentation and at 48 h. RNA from separated monocytes was hybridized to Illumina beadchips. Acute myocardial infarction resulted in a significant peripheral monocytosis in both species that positively correlated with the extent of myocardial injury. Analysis of the monocyte transcriptome following AMI demonstrated significant conservation and identified inflammation and mitosis as central processes to this response. These findings were validated in both species. Conclusions Our findings show that the monocyte transcriptome is conserved between mice and humans following AMI. Patterns of gene expression associated with inflammation and proliferation appear to be switched on prior to their infiltration of injured myocardium suggesting that the specific targeting of inflammatory and proliferative processes in these immune cells in humans are possible therapeutic strategies. Importantly, they could be effective in the hours after AMI.

Published
2015

45. T1 Mapping for the Diagnosis of Acute Myocarditis Using CMR: Comparison to T2-Weighted and Late Gadolinium Enhanced Imaging

Author

Ferreira, VM, Piechnik, SK, Dall'Armellina, E, Karamitsos, TD, Francis, JM, Ntusi, N, Holloway, C, Choudhury, RP, Kardos, A, Robson, MD, Friedrich, MG, and Neubauer, S

Subjects
T2-weighted CMR, ShMOLLI, cardiovascular diseases, myocarditis, T1 mapping, cardiac magnetic resonance
Abstract

Objectives This study sought to test the diagnostic performance of native T1 mapping in acute myocarditis compared with cardiac magnetic resonance (CMR) techniques such as dark-blood T2-weighted (T2W)-CMR, bright-blood T2W-CMR, and late gadolinium enhancement (LGE) imaging. Background The diagnosis of acute myocarditis on CMR often requires multiple techniques, including T2W, early gadolinium enhancement, and LGE imaging. Novel techniques such as T1 mapping and bright-blood T2W-CMR are also sensitive to changes in free water content. We hypothesized that these techniques can serve as new and potentially superior diagnostic criteria for myocarditis. Methods We investigated 50 patients with suspected acute myocarditis (age 42 ± 16 years; 22% women) and 45 controls (age 42 ± 14 years; 22% women). CMR at 1.5-T (median 3 days from presentation) included: 1) dark-blood T2W-CMR (short-tau inversion recovery); 2) bright-blood T2W-CMR (acquisition for cardiac unified T2 edema); 3) native T1 mapping (shortened modified look-locker inversion recovery); and 4) LGE. Image analysis included: 1) global T2 signal intensity ratio of myocardium compared with skeletal muscle; 2) myocardial T1 relaxation times; and 3) areas of LGE. Results Compared with controls, patients had significantly higher global T2 signal intensity ratios by dark-blood T2W-CMR (1.73 ± 0.27 vs. 1.56 ± 0.15, p < 0.01), bright-blood T2W-CMR (2.02 ± 0.33 vs. 1.84 ± 0.17, p < 0.01), and mean myocardial T1 (1,010 ± 65 ms vs. 941 ± 18 ms, p < 0.01). Receiver-operating characteristic analysis showed clear differences in diagnostic performance. The areas under the curve for each method were: T1 mapping (0.95), LGE (0.96), dark-blood T2 (0.78), and bright-blood T2 (0.76). A T1 cutoff of 990 ms had a sensitivity, specificity, and diagnostic accuracy of 90%, 91%, and 91%, respectively. Conclusions Native T1 mapping as a novel criterion for the detection of acute myocarditis showed excellent and superior diagnostic performance compared with T2W-CMR. It also has a higher sensitivity compared with T2W and LGE techniques, which may be especially useful in detecting subtle focal disease and when gadolinium contrast imaging is not feasible. © 2013 by the American College of Cardiology Foundation.

Published
2013

46. MYOCARDIAL INFARCTION CAUSES INFLAMMATION AND LEUKOCYTE RECRUITMENT AT REMOTE SITES IN THE MYOCARDIUM AND IN THE RENAL GLOMERULUS

Author

Ruparelia, N, Digby, JE, Jefferson, A, Medway, DJ, Neubauer, S, Lygate, CA, and Choudhury, RP

Subjects
Pharmacology, Inflammation, Myocardium, Immunology, Kidney Glomerulus, Myocardial Infarction, Vascular Cell Adhesion Molecule-1, Renal glomerulus, Original Research Paper, Mice, Inbred C57BL, Mice, Myocarditis, Glomerulonephritis, cardiovascular system, Leukocytes, Animals, Cytokines, Female, cardiovascular diseases, RNA, Messenger, Remote sites
Abstract

Rationale and Objective Acute myocardial infarction (AMI) results in the recruitment of leukocytes to injured myocardium. Additionally, myocardium remote to the infarct zone also becomes inflamed and is associated with adverse left ventricular remodelling. Renal ischaemic syndromes have been associated with remote organ inflammation and impaired function. Here, we tested the hypothesis that AMI results in remote organ (renal) inflammation. Methods Mice were subjected to either AMI, sham procedure or no procedure and the inflammatory response in peripheral blood, injured and remote myocardium, and kidneys was studied at 24 h. Results AMI resulted in increased circulating neutrophils (P

Published
2013

47. Myocardial Oxygenation in Coronary Artery Disease Insights From Blood Oxygen Level-Dependent Magnetic Resonance Imaging at 3 Tesla

Author

Arnold, JR, Karamitsos, TD, Bhamra-Ariza, P, Francis, JM, Searle, N, Robson, MD, Howells, RK, Choudhury, RP, Rimoldi, OE, Camici, PG, Banning, AP, Neubauer, S, Jerosch-Herold, M, Selvanayagam, JB, Arnold Jayanth, R., Karamitsos Theodoros, D., Bhamra Ariza, Paul, Francis Jane, M., Searle, Nick, Robson Matthew, D., Howells Ruairidh, K., Choudhury Robin, P., Rimoldi Ornella, E., Camici, Paolo, Banning Adrian, P., Neubauer, Stefan, Jerosch Herold, Michael, and Selvanayagam Joseph, B.

Subjects
Male, Myocardium, Magnetic Resonance Imaging, Cine, Reproducibility of Results, ischemia, Coronary Artery Disease, Equipment Design, Middle Aged, myocardial blood flow, Coronary Angiography, Prognosis, Severity of Illness Index, Oxygen, Electrocardiography, Oxygen Consumption, Regional Blood Flow, Coronary Circulation, Humans, Female, blood oxygen level–dependent, Oximetry, Follow-Up Studies
Abstract

Objectives The purpose of this study was to assess the diagnostic accuracy of blood oxygen-level dependent (BOLD) MRI in suspected coronary artery disease (CAD). Background By exploiting the paramagnetic properties of deoxyhemoglobin, BOLD magnetic resonance imaging can detect myocardial ischemia. We applied BOLD imaging and first-pass perfusion techniques to: 1) examine the pathophysiological relationship between coronary stenosis, perfusion, ventricular scar, and myocardial oxygenation; and 2) evaluate the diagnostic performance of BOLD imaging in the clinical setting. Methods BOLD and first-pass perfusion images were acquired at rest and stress (4 to 5 min intravenous adenosine, 140 mu g/kg/min) and assessed quantitatively (using a BOLD signal intensity index [stress/resting signal intensity], and absolute quantification of perfusion by model-independent deconvolution). A BOLD signal intensity index threshold to identify ischemic myocardium was first determined in a derivation arm (25 CAD patients and 20 healthy volunteers). To determine diagnostic performance, this was then applied in a separate group comprising 60 patients with suspected CAD referred for diagnostic angiography. Results Prospective evaluation of BOLD imaging yielded an accuracy of 84%, a sensitivity of 92%, and a specificity of 72% for detecting myocardial ischemia and 86%, 92%, and 72%, respectively, for identifying significant coronary stenosis. Segment-based analysis revealed evidence of dissociation between oxygenation and perfusion (r = -0.26), with a weaker correlation of quantitative coronary angiography with myocardial oxygenation (r = -0.20) than with perfusion (r = -0.40; p = 0.005 for difference). Hypertension increased the odds of an abnormal BOLD response, but diabetes mellitus, hypercholesterolemia, and the presence of ventricular scar were not associated with significant deoxygenation. Conclusions BOLD imaging provides valuable insights into the pathophysiology of CAD; myocardial hypoperfusion is not necessarily commensurate with deoxygenation. In the clinical setting, BOLD imaging achieves favorable accuracy for identifying the anatomic and functional significance of CAD. (J Am Coll Cardiol 2012; 59: 1954-64) (C) 2012 by the American College of Cardiology Foundation

Published
2012

49. Imaging of atherosclerosis. Coronary wall imaging with MRI

Author

Choudhury, RP and Fayad, ZA

Abstract

Contrast arteriography is routinely used in the diagnosis and management of coronary atherosclerosis. However, it is recognized that conventional arteriography can not image plaque directly or provide prognostic information based on plaque characterization. Noninvasive, high-resolution magnetic resonance has the potential to image coronary plaque and to determine its composition and microanatomy. This review summarizes the rationale for coronary plaque imaging, and describes the characteristics of plaque using existing MRI techniques. Current and future applications of MRI, including the development of new contrast agents, targeted molecular imaging and the application of MRI to percutaneous coronary intervention are also discussed.

Published
2002

50. Visualization of Activated Platelets by Targeted Magnetic Resonance Imaging Utilizing Conformation-Specific Antibodies against Glycoprotein IIb/IIIa

Author

von zur Muhlen, C, Peter, K, Ali, ZA, Schneider, JE, McAteer, MA, Neubauer, S, Channon, KM, Bode, C, Choudhury, RP, von zur Muhlen, C, Peter, K, Ali, ZA, Schneider, JE, McAteer, MA, Neubauer, S, Channon, KM, Bode, C, and Choudhury, RP

Abstract

Ruptured atherosclerotic plaques, lined with activated platelets, constitute an attractive target for magnetic resonance imaging (MRI). This study evaluated whether microparticles of iron oxide (MPIO) targeting ligand-induced binding sites (LIBS) on the activated conformation of glycoprotein IIb/IIIa could be used to image platelets. MPIO (size: 1 microm) were conjugated to anti-LIBS or control single-chain antibody. Following guidewire injury to mouse femoral artery, platelet adhesion was present after 24 h. Mice were perfused with anti-LIBS-MPIO (or control MPIO) via the left ventricle and 11.7-tesla MRI was performed on femoral arteries ex vivo. A 3D gradient echo sequence attained an isotropic resolution of 25 microm. MPIO binding, quantified by MRI, was 4-fold higher with anti-LIBS-MPIO in comparison to control MPIO (p < 0.01). In histological sections, low signal zones on MRI and MPIO correlated strongly (R(2) = 0.72; p < 0.001), indicating accurate MR quantification. In conclusion, anti-LIBS-MPIO bind to activated platelets in mouse arteries, providing a basis for the use of function-specific single-chain antibody-MPIO conjugates for molecular MRI, and represent the first molecular imaging of a conformational change in a surface receptor. This presents an opportunity to specifically image activated platelets involved in acute atherothrombosis with MRI.

Published
2009

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