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5. First Genotype-Phenotype Study in TBX4 Syndrome Gain-of-Function Mutations Causative for Lung Disease

Author

Prapa, M., Lago-Docampo, M., Swietlik, E.M., Montani, D., Eyries, M., Humbert, M., Welch, C.C.L., Chung, W., Berger, R.M.F., Bogaard, H.J., Danhaive, O., Escribano-Subías, P., Gall, H., Girerd, B., Hernandez-Gonzalez, I., Holden, S., Hunt, D., Jansen, S.M.A., Kerstjens-Frederikse, W., Kiely, D., Lapunzina, P., McDermott, J., Moledina, S., Pepke-Zaba, J., Polwarth, G.J., Schotte, G., Tenorio-Castaño, J., Thompson, A.A.R., Wharton, J., Wort, S.J., Megy, K., Mapeta, R., Treacy, C.M., Martin, J.M., Li, W., Swift, A.J., Upton, P.D., Morrell, N.W., Gräf, S., Valverde, D., Cardiovascular Centre (CVC), Pulmonary medicine, and ACS - Pulmonary hypertension & thrombosis

Subjects
interstitial lung disease, Pulmonary and Respiratory Medicine, gain-of-function, pulmonary arterial hypertension, TBX4, Critical Care and Intensive Care Medicine, lung developmental disease
Abstract

Rationale: Despite the increased recognition of TBX4 (T-BOX transcription factor 4)-associated pulmonary arterial hypertension (PAH), genotype-phenotype associations are lacking and may provide important insights.Objectives: To compile and functionally characterize all TBX4 variants reported to date and undertake a comprehensive genotype-phenotype analysis.Methods: We assembled a multicenter cohort of 137 patients harboring monoallelic TBX4 variants and assessed the pathogenicity of missense variation (n = 42) using a novel luciferase reporter assay containing T-BOX binding motifs. We sought genotype-phenotype correlations and undertook a comparative analysis with patients with PAH with BMPR2 (Bone Morphogenetic Protein Receptor type 2) causal variants (n = 162) or no identified variants in PAH-associated genes (n = 741) genotyped via the National Institute for Health Research BioResource-Rare Diseases.Measurements and Main Results: Functional assessment of TBX4 missense variants led to the novel finding of gain-of-functio effects associated with older age at diagnosis of lung disease compared with loss-of-function effects (P = 0.038). Variants located in the T-BOX and nuclear localization domains were associated with earlier presentation (P = 0.005) and increased incidence of interstitial lung disease (P = 0.003). Event-free survival (death or transplantation) was shorter in the T-BOX group (P = 0.022), although age had a significant effect in the hazard model (P = 0.0461). Carriers of TBX4 variants were diagnosed at a younger age (P, 0.001) and had worse baseline lung function (FEV1, FVC) (P = 0.009) than the BMPR2 and no identified causal variant groups.Conclusions: We demonstrated that TBX4 syndrome is not strictly the result of haploinsufficiency but can also be caused by gain of function. The pleiotropic effects of TBX4 in lung disease may be in part explained by the differential effect of pathogenic mutations located in critical protein domains.

Published
2022
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7. Right ventricular remodelling in pulmonary arterial hypertension predicts treatment response

Author

Goh, Z.M., Balasubramanian, N., Alabed, S., Dwivedi, K., Shahin, Y., Rothman, A.M.K., Garg, P., Lawrie, A., Capener, D., Thompson, A.A.R., Alandejani, F., Wild, J.M., Johns, C.S., Lewis, R.A., Gosling, R., Sharkey, M., Condliffe, R., Kiely, D.G., and Swift, A.J.

Abstract

Objectives: To determine the prognostic value of patterns of right ventricular adaptation in patients with pulmonary arterial hypertension (PAH), assessed using cardiac magnetic resonance (CMR) imaging at baseline and follow-up.\ud \ud \ud \ud Methods: Patients attending the Sheffield Pulmonary Vascular Disease Unit with suspected pulmonary hypertension were recruited into the ASPIRE (Assessing the Spectrum of Pulmonary hypertension Identified at a REferral Centre) Registry. With exclusion of congenital heart disease, consecutive patients with PAH were followed up until the date of census or death. Right ventricular end-systolic volume index adjusted for age and sex and ventricular mass index were used to categorise patients into four different volume/mass groups: low-volume-low-mass, low-volume-high-mass, high-volume-low-mass and high-volume-high-mass. The prognostic value of the groups was assessed with one-way analysis of variance and Kaplan-Meier plots. Transition of the groups was studied.\ud \ud \ud \ud Results: A total of 505 patients with PAH were identified, 239 (47.3%) of whom have died at follow-up (median 4.85 years, IQR 4.05). The mean age of the patients was 59±16 and 161 (32.7%) were male. Low-volume-low-mass was associated with CMR and right heart catheterisation metrics predictive of improved prognosis. There were 124 patients who underwent follow-up CMR (median 1.11 years, IQR 0.78). At both baseline and follow-up, the high-volume-low-mass group had worse prognosis than the low-volume-low-mass group (p

Published
2022

8. Machine learning cardiac-MRI features predict mortality in newly diagnosed pulmonary arterial hypertension

Author

Alabed, S., Uthoff, J., Zhou, S., Garg, P., Dwivedi, K., Alandejani, F., Gosling, R., Schobs, L., Brook, M., Capener, D., Johns, C., Wild, J.M., Rothman, A.M.K., van der Geest, R.J., Condliffe, R., Kiely, D.G., Lu, H., and Swift, A.J.

Abstract

Background\ud \ud Pulmonary arterial hypertension (PAH) is a rare but serious disease associated with high mortality if left untreated. This study aims to assess the prognostic cardiac magnetic resonance (CMR) features in PAH using machine learning.\ud \ud \ud \ud Methods\ud \ud 723 consecutive treatment-naive PAH patients were identified from the ASPIRE registry; 516 were included in the training and 207 in the validation cohort. A multilinear principal component analysis (MPCA) based machine learning approach was used to extract mortality and survival features throughout the cardiac cycle. The features were overlaid on the original imaging using thresholding and clustering of high- and low-risk of mortality prediction values.\ud \ud \ud \ud Results\ud \ud The one-year mortality rate in the validation cohort was 10%. Univariable Cox regression analysis of the combined short-axis and 4-chamber MPCA-based predictions was statistically significant (Hazard Ratios 2.1, 95% CI 1.3, 3.4, c-index = 0.70, p = .002). The MPCA features improved the one-year mortality prediction of REVEAL from c-index = 0.71 to 0.76 (p = < .001). Abnormalities in the end-systolic interventricular septum and end-diastolic left ventricle indicated the highest risk of mortality.\ud \ud \ud \ud Conclusion\ud \ud The MPCA-based machine learning is an explainable time-resolved approach that allows visualisation of prognostic cardiac features throughout the cardiac cycle at population level, making this approach transparent and clinically interpretable. In addition, the added prognostic value over the REVEAL risk score and CMR volumetric measurements allows for a more accurate prediction of one-year mortality risk in PAH.

Published
2022

9. Training and clinical testing of artificial intelligence derived right atrial cardiovascular magnetic resonance measurements

Author

Alandejani, F., Alabed, S., Garg, P., Goh, Z.M., Karunasaagarar, K., Sharkey, M., Salehi, M., Aldabbagh, Z., Dwivedi, K., Mamalakis, M., Metherall, P., Uthoff, J., Johns, C., Rothman, A., Condliffe, R., Hameed, A., Charalampoplous, A., Lu, H., Plein, S., Greenwood, J.P., Lawrie, A., Wild, J.M., de Koning, P.J.H., Kiely, D.G., Van Der Geest, R., and Swift, A.J.

Subjects
Artificial intelligence, Magnetic Resonance Spectroscopy, Radiological and Ultrasound Technology, Heart Ventricles, Hypertension, Pulmonary, Reproducibility of Results, Nuclear Medicine & Medical Imaging, Mortality prediction, Predictive Value of Tests, Right atrial area, Humans, Radiology, Nuclear Medicine and imaging, Cardiovascular magnetic resonance, Convolutional neural networks, Prospective Studies, Clinical testing, Deep learning training, Cardiology and Cardiovascular Medicine, Repeatability assessment, 1102 Cardiorespiratory Medicine and Haematology
Abstract

Background Right atrial (RA) area predicts mortality in patients with pulmonary hypertension, and is recommended by the European Society of Cardiology/European Respiratory Society pulmonary hypertension guidelines. The advent of deep learning may allow more reliable measurement of RA areas to improve clinical assessments. The aim of this study was to automate cardiovascular magnetic resonance (CMR) RA area measurements and evaluate the clinical utility by assessing repeatability, correlation with invasive haemodynamics and prognostic value. Methods A deep learning RA area CMR contouring model was trained in a multicentre cohort of 365 patients with pulmonary hypertension, left ventricular pathology and healthy subjects. Inter-study repeatability (intraclass correlation coefficient (ICC)) and agreement of contours (DICE similarity coefficient (DSC)) were assessed in a prospective cohort (n = 36). Clinical testing and mortality prediction was performed in n = 400 patients that were not used in the training nor prospective cohort, and the correlation of automatic and manual RA measurements with invasive haemodynamics assessed in n = 212/400. Radiologist quality control (QC) was performed in the ASPIRE registry, n = 3795 patients. The primary QC observer evaluated all the segmentations and recorded them as satisfactory, suboptimal or failure. A second QC observer analysed a random subcohort to assess QC agreement (n = 1018). Results All deep learning RA measurements showed higher interstudy repeatability (ICC 0.91 to 0.95) compared to manual RA measurements (1st observer ICC 0.82 to 0.88, 2nd observer ICC 0.88 to 0.91). DSC showed high agreement comparing automatic artificial intelligence and manual CMR readers. Maximal RA area mean and standard deviation (SD) DSC metric for observer 1 vs observer 2, automatic measurements vs observer 1 and automatic measurements vs observer 2 is 92.4 ± 3.5 cm2, 91.2 ± 4.5 cm2 and 93.2 ± 3.2 cm2, respectively. Minimal RA area mean and SD DSC metric for observer 1 vs observer 2, automatic measurements vs observer 1 and automatic measurements vs observer 2 was 89.8 ± 3.9 cm2, 87.0 ± 5.8 cm2 and 91.8 ± 4.8 cm2. Automatic RA area measurements all showed moderate correlation with invasive parameters (r = 0.45 to 0.66), manual (r = 0.36 to 0.57). Maximal RA area could accurately predict elevated mean RA pressure low and high-risk thresholds (area under the receiver operating characteristic curve artificial intelligence = 0.82/0.87 vs manual = 0.78/0.83), and predicted mortality similar to manual measurements, both p Conclusion Automatic artificial intelligence CMR derived RA size and function are accurate, have excellent repeatability, moderate associations with invasive haemodynamics and predict mortality.

Published
2022

10. Severe pulmonary hypertension associated with lung disease is characterised by a loss of small pulmonary vessels on quantitative CT

Author

Alkhanfar, D., Shahin, Y., Alandejani, F., Dwivedi, K., Alabed, S., Johns, C., Lawrie, A., Thompson, A.A.R., Rothman, A.M.K., Tschirren, J., Uthoff, J.M., Hoffman, E., Condliffe, R., Wild, J.M., Kiely, D.G., and Swift, A.J.

Abstract

Background\ud \ud Pulmonary hypertension (PH) in patients with chronic lung disease (CLD) predicts reduced functional status, clinical worsening and increased mortality, with patients with severe PHCLD (≥35mmHg) having a significantly worse prognosis than mild to moderate PH-CLD (21- 34mmHg). The aim of this cross-sectional study was to assess the association between computed tomography (CT) derived quantitative pulmonary vessel volume, PH severity and disease aetiology in CLD.\ud \ud Methods\ud \ud Treatment naïve patients with CLD who underwent CT pulmonary angiography, lung function testing and right heart catheterisation were identified from the ASPIRE Registry between October 2012 and July 2018. Quantitative assessments of total pulmonary vessel and small pulmonary vessel volume were performed.\ud \ud Results\ud \ud Ninety patients had PH-CLD including 44 associated with COPD/emphysema and 46 with interstitial lung disease. Patients with severe PH-CLD (n=40) had lower small pulmonary vessel volume compared to patients with mild to moderate PH-CLD (n=50). Patients with PH-ILD had significantly reduced small pulmonary blood vessel volume, compared to PHCOPD/emphysema. Higher mortality was identified in patients with lower small pulmonary vessel volume.\ud \ud Conclusion\ud \ud Patients with severe PH-CLD, regardless of aetiology, have lower small pulmonary vessel volume compared to patients with mild-moderate PH-CLD and this is associated with a higher mortality. Whether pulmonary vessel changes quantified by CT are a marker of remodelling of the distal pulmonary vasculature requires further study.

Published
2022

11. CMR Measures of Left Atrial Volume Index and Right Ventricular Function Have Prognostic Value in Chronic Thromboembolic Pulmonary Hypertension

Author

Shahin, Y., Alabed, S., Rehan Quadery, S., Lewis, R.A., Johns, C., Alkhanfar, D., Sukhanenko, M., Alandejani, F., Garg, P., Elliot, C.A., Hameed, A., Charalampopoulos, A., Wild, J.M., Condliffe, R., Swift, A.J., and Kiely, D.G.

Subjects
General Medicine
Abstract

Providing prognostic information is important when counseling patients and planning treatment strategies in chronic thromboembolic pulmonary hypertension (CTEPH). The aim of this study was to assess the prognostic value of gold standard imaging of cardiac structure and function using cardiac magnetic resonance imaging (CMR) in CTEPH. Consecutive treatment-naive patients with CTEPH who underwent right heart catheterization and CMR between 2011 and 2017 were identified from the ASPIRE (Assessing-the-Specturm-of-Pulmonary-hypertensIon-at-a-REferral-center) registry. CMR metrics were corrected for age and sex where appropriate. Univariate and multivariate regression models were generated to assess the prognostic ability of CMR metrics in CTEPH. Three hundred and seventy-five patients (mean+/-standard deviation: age 64+/-14 years, 49% female) were identified and 181 (48%) had pulmonary endarterectomy (PEA). For all patients with CTEPH, left-ventricular-stroke-volume-index-%predicted (LVSVI%predicted) (p = 0.040), left-atrial-volume-index (LAVI) (p = 0.030), the presence of comorbidities, incremental shuttle walking test distance (ISWD), mixed venous oxygen saturation and undergoing PEA were independent predictors of mortality at multivariate analysis. In patients undergoing PEA, LAVI (p < 0.010), ISWD and comorbidities and in patients not undergoing surgery, right-ventricular-ejection-fraction-%predicted (RVEF%pred) (p = 0.040), age and ISWD were independent predictors of mortality. CMR metrics reflecting cardiac function and left heart disease have prognostic value in CTEPH. In those undergoing PEA, LAVI predicts outcome whereas in patients not undergoing PEA RVEF%pred predicts outcome. This study highlights the prognostic value of imaging cardiac structure and function in CTEPH and the importance of considering left heart disease in patients considered for PEA.

Published
2022
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12. Training and Clinical Validation of Artificial Intelligence Derived Right Atrial Cardiovascular Magnetic Resonance Measurements

Author

Alandejani, F., primary, Alabed, S., additional, Garg, P., additional, Goh, Z.M., additional, Karunasaagarar, K., additional, Sharkey, M., additional, Salehi, M., additional, Aldabbagh, Z., additional, Dwivedi, K., additional, Metherall, P., additional, Uthoff, J., additional, Johns, C.S., additional, Rothman, A., additional, Condliffe, R., additional, Hameed, A., additional, Charalampopoulos, A., additional, Lu, H., additional, Plein, S., additional, Greenwood, J.P., additional, Lawrie, A., additional, Wild, J.M., additional, de Koning, P.J.H., additional, Kiely, D.G., additional, der Geest, R.J.V., additional, and Swift, A.J., additional

Published
2022
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15. Physiological Phenotypes of Patients with Asthma and/or COPD Using 129Xe MRI

Author

Marshall, H., primary, Smith, L.J., additional, Biancardi, A., additional, Collier, G.J., additional, Chan, H.F., additional, Hughes, P.J.C., additional, Brook, M.L., additional, Astley, J., additional, Munro, R., additional, Rajaram, S., additional, Swift, A.J., additional, Capener, D., additional, Bray, J., additional, Ball, J., additional, Rodgers, O., additional, Jakymelen, D., additional, Smith, I., additional, Tahir, B.A., additional, Rao, M., additional, Norquay, G., additional, Weatherley, N.D., additional, Armstrong, L., additional, Hardaker, L., additional, Fihn-Wikander, T., additional, Hughes, R., additional, and Wild, J.M., additional

Published
2022
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17. Valvular cardiomyopathy : the value of cardiovascular magnetic resonance imaging

Author

Tsampasian, V., Hothi, S.S., Ravindrarajah, T., Swift, A.J., Garg, P., and Vassiliou, V.S.

Abstract

Cardiovascular magnetic resonance (CMR) imaging has had a vast impact on the understanding of a wide range of disease processes and pathophysiological mechanisms. More recently, it has contributed significantly to the diagnosis and risk stratification of patients with valvular heart disease. With its increasing use, CMR allows for a detailed, reproducible, qualitative, and quantitative evaluation of left ventricular volumes and mass, thereby enabling assessment of the haemodynamic impact of a valvular lesion upon the myocardium. Postprocessing of the routinely acquired images with feature tracking CMR methodology can give invaluable information about myocardial deformation and strain parameters that suggest subclinical ventricular impairment that remains undetected by conventional measures such as the ejection fraction (EF). T1 mapping and late gadolinium enhancement (LGE) imaging provide deep myocardial tissue characterisation that is changing the approach towards risk stratification of patients as an increasing body of evidence suggests that the presence of fibrosis is related to adverse events and prognosis. This review summarises the current evidence regarding the utility of CMR in the left ventricular assessment of patients with aortic stenosis or mitral regurgitation and its value in diagnosis, risk stratification, and management.

Published
2022

18. The REPAIR Study:Effects of Macitentan on RV Structure and Function in Pulmonary Arterial Hypertension

Author

Vonk Noordegraaf, A., Channick, R., Cottreel, E., Kiely, D.G., Marcus, J.T., Martin, N., Moiseeva, O., Peacock, A., Swift, A.J., Tawakol, A., Torbicki, A., Rosenkranz, S., Galiè, N., Vonk Noordegraaf, Anton, Channick, Richard, Cottreel, Emmanuelle, Kiely, David G., Marcus, J. Tim, Martin, Nicola, Moiseeva, Olga, Peacock, Andrew, Swift, Andrew J., Tawakol, Ahmed, Torbicki, Adam, Rosenkranz, Stephan, Galiè, Nazzareno, Pulmonary medicine, ACS - Pulmonary hypertension & thrombosis, and Radiology and nuclear medicine

Subjects
macitentan, hemodynamic, pulmonary arterial hypertension, right ventricle, cardiac magnetic resonance
Abstract

Objectives\ud \ud The REPAIR (Right vEntricular remodeling in Pulmonary ArterIal hypeRtension) study evaluated the effect of macitentan on right ventricular (RV) and hemodynamic outcomes in patients with pulmonary arterial hypertension (PAH), using cardiac magnetic resonance (CMR) and right heart catheterization (RHC).\ud \ud \ud \ud Background\ud \ud RV failure is the primary cause of death in PAH. CMR is regarded as the most accurate noninvasive method for assessing RV function and remodeling and CMR measures of RV function and structure are strongly prognostic for survival in patients with PAH. Despite this, CMR is not routinely used in PAH clinical trials.\ud \ud \ud \ud Methods\ud \ud REPAIR was a 52-week, open-label, single-arm, multicenter, phase 4 study evaluating the effect of macitentan 10 mg, with or without phosphodiesterase type-5 inhibition, on RV remodeling and function and cardiopulmonary hemodynamics. Primary endpoints were change from baseline to week 26 in RV stroke volume, determined by CMR; and pulmonary vascular resistance, determined by RHC. Efficacy measures were assessed for all patients with baseline and week 26 data for both primary endpoints.\ud \ud \ud \ud Results\ud \ud At a prespecified interim analysis in 42 patients, both primary endpoints were met, enrolment was stopped, and the study was declared positive. At final analysis (n = 71), RV stroke volume increased by 12 mL (96% confidence level: 8.4-15.6 mL; P < 0.0001) and pulmonary vascular resistance decreased by 38% (99% confidence level: 31%-44%; P < 0.0001) at week 26. Significant positive changes were also observed in secondary and exploratory CMR (RV and left ventricular), hemodynamic, and functional endpoints at week 26. Improvements in CMR RV and left ventricular variables and functional parameters were maintained at week 52. Safety (n = 87) was consistent with previous clinical trials.\ud \ud \ud \ud Conclusions\ud \ud In the context of this study, macitentan treatment in patients with PAH resulted in significant and clinically-relevant improvements in RV function and structure and cardiopulmonary hemodynamics. At 52 weeks, improvements in RV function and structure were sustained. (REPAIR: Right vEntricular remodeling in Pulmonary ArterIal hypeRtension [REPAIR]; NCT02310672)

Published
2022
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20. Cardiovascular magnetic resonance predicts all-cause mortality in pulmonary hypertension associated with heart failure with preserved ejection fraction

Author

Garg, P., Lewis, R.A., Johns, C.S., Swift, A.J., Capener, D., Rajaram, S., Thompson, A.A.R., Condliffe, R., Elliot, C.A., Charalampopoulos, A., Hameed, A.G., Rothman, A., Wild, J.M., and Kiely, D.G.

Subjects
cardiovascular system, cardiovascular diseases
Abstract

This study aimed to determine the prognostic value of cardiovascular magnetic resonance (CMR) in patients with heart failure with preserved ejection fraction and associated pulmonary hypertension (pulmonary hypertension-HFpEF). Patients with pulmonary hypertension-HFpEF were recruited from the ASPIRE registry and underwent right heart catheterisation (RHC) and CMR. On RHC, the inclusion criteria was a mean pulmonary artery pressure (MPAP) ≥ 25 mmHg and pulmonary arterial wedge pressure > 15 mmHg and, on CMR, a left atrial volume > 41 ml/m2 with left ventricular ejection fraction > 50%. Cox regression was performed to evaluate CMR against all-cause mortality. In this study, 116 patients with pulmonary hypertension-HFpEF were identified. Over a mean follow-up period of 3 ± 2 years, 61 patients with pulmonary hypertension-HFpEF died (53%). In univariate regression, 11 variables demonstrated association to mortality: indexed right ventricular (RV) volumes and stroke volume, right ventricular ejection fraction (RVEF), indexed RV mass, septal angle, pulmonary artery systolic/diastolic area and its relative area change. In multivariate regression, only three variables were independently associated with mortality: RVEF (HR 0.64, P

Published
2021

21. Lung MRI with hyperpolarised gases : current & future clinical perspectives

Author

Stewart, N.J., Smith, L.J., Chan, H.-F., Eaden, J.A., Rajaram, S., Swift, A.J., Weatherley, N.D., Biancardi, A., Collier, G.J., Hughes, D., Klafkowski, G., Johns, C.S., West, N., Ugonna, K., Bianchi, S.M., Lawson, R., Sabroe, I., Marshall, H., and Wild, J.M.

Subjects
respiratory tract diseases
Abstract

The use of pulmonary MRI in a clinical setting has historically been limited. Whilst CT remains the gold-standard for structural lung imaging in many clinical indications, technical developments in ultrashort and zero echo time MRI techniques are beginning to help realise non-ionising structural imaging in certain lung disorders. In this invited review, we discuss a complementary technique – hyperpolarised (HP) gas MRI with inhaled 3He and 129Xe – a method for functional and microstructural imaging of the lung that has great potential as a clinical tool for early detection and improved understanding of pathophysiology in many lung diseases. HP gas MRI now has the potential to make an impact on clinical management by enabling safe, sensitive monitoring of disease progression and response to therapy. With reference to the significant evidence base gathered over the last two decades, we review HP gas MRI studies in patients with a range of pulmonary disorders, including COPD/emphysema, asthma, cystic fibrosis, and interstitial lung disease. We provide several examples of our experience in Sheffield of using these techniques in a diagnostic clinical setting in challenging adult and paediatric lung diseases.

Published
2021

23. Cardiac-MRI predicts clinical worsening and mortality in pulmonary arterial hypertension: a systematic review and meta-analysis

Author

Alabed, S., Shahin, Y., Garg, P., Alandejani, F., Johns, C.S., Lewis, R.A., Condliffe, R., Wild, J.M., Kiely, D.G., and Swift, A.J.

Abstract

Objectives\ud \ud This meta-analysis evaluates assessment of pulmonary arterial hypertension (PAH), with a focus on clinical worsening and mortality.\ud \ud \ud Background\ud \ud Cardiac magnetic resonance (CMR) has prognostic value in the assessment of patients with PAH. However, there are limited data on the prediction of clinical worsening, an important composite endpoint used in PAH therapy trials.\ud \ud \ud Methods\ud \ud The Cochrane Central Register of Controlled Trials, MEDLINE, EMBASE, and Web of Science databases were searched in May 2020. All CMR studies assessing clinical worsening and the prognosis of patients with PAH were included. Pooled hazard ratios of univariate regression analyses for CMR measurements, for prediction of clinical worsening and mortality, were calculated.\ud \ud \ud Results\ud \ud Twenty-two studies with 1,938 participants were included in the meta-analysis. There were 18 clinical worsening events and 8 deaths per 100 patient-years. The pooled hazard ratios show that every 1% decrease in right ventricular (RV) ejection fraction is associated with a 4.9% increase in the risk of clinical worsening over 22 months of follow-up and a 2.2% increase in the risk of death over 54 months. For every 1 ml/m2 increase in RV end-systolic volume index or RV end-diastolic volume index, the risk of clinical worsening increases by 1.3% and 0.7%, respectively, and the risk of mortality increases by 0.9% and 1%. Every 1 ml/m2 decrease in left ventricular end-systolic volume index or left ventricular end-diastolic volume index increased the risk of death by 2.1% and 2.3%. Left ventricular parameters were not associated with clinical worsening.\ud \ud \ud Conclusions\ud \ud This review confirms CMR as a powerful prognostic marker in PAH in a large cohort of patients. In addition to confirming previous observations that RV function and RV and left ventricular volumes predict mortality, RV function and volumes also predict clinical worsening. This study provides a strong rationale for considering CMR as a clinically relevant endpoint for trials of PAH therapies.

Published
2021

24. Pulmonary hypertension in association with lung disease : quantitative CT and artificial intelligence to the rescue? State-of-the-art review

Author

Dwivedi, K., Sharkey, M., Condliffe, R., Uthoff, J.M., Alabed, S., Metherall, P., Lu, H., Wild, J.M., Hoffman, E.A., Swift, A.J., and Kiely, D.G.

Abstract

Accurate phenotyping of patients with pulmonary hypertension (PH) is an integral part of informing disease classification, treatment, and prognosis. The impact of lung disease on PH outcomes and response to treatment remains a challenging area with limited progress. Imaging with computed tomography (CT) plays an important role in patients with suspected PH when assessing for parenchymal lung disease, however, current assessments are limited by their semi-qualitative nature. Quantitative chest-CT (QCT) allows numerical quantification of lung parenchymal disease beyond subjective visual assessment. This has facilitated advances in radiological assessment and clinical correlation of a range of lung diseases including emphysema, interstitial lung disease, and coronavirus disease 2019 (COVID-19). Artificial Intelligence approaches have the potential to facilitate rapid quantitative assessments. Benefits of cross-sectional imaging include ease and speed of scan acquisition, repeatability and the potential for novel insights beyond visual assessment alone. Potential clinical benefits include improved phenotyping and prediction of treatment response and survival. Artificial intelligence approaches also have the potential to aid more focused study of pulmonary arterial hypertension (PAH) therapies by identifying more homogeneous subgroups of patients with lung disease. This state-of-the-art review summarizes recent QCT developments and potential applications in patients with PH with a focus on lung disease.

Published
2021

25. Maximal exercise testing using the incremental shuttle walking test can be used to risk stratify patients with pulmonary arterial hypertension

Author

Lewis, R.A., Billings, C.G., Hurdman, J.A., Smith, I.A., Austin, M., Armstrong, I.J., Middleton, J., Rothman, A.M.K., Harrington, J., Hamilton, N., Hameed, A.G., Thompson, A.A.R., Charalampopoulos, A., Elliot, C.A., Lawrie, A., Sabroe, I., Wild, J.M., Swift, A.J., Condliffe, R., and Kiely, D.G.

Abstract

Rationale: Exercise capacity predicts mortality in pulmonary arterial hypertension but limited data exist on the routine use of maximal exercise testing. Objectives: This study evaluates a simple to perform maximal test, the incremental shuttle walking test, and its utility in risk stratification in pulmonary arterial hypertension (PAH). Methods: Consecutive patients with pulmonary hypertension were identified from the ASPIRE registry (2001-2018). Thresholds for levels of risk were identified at baseline, tested at follow-up and incorporation into current risk stratification approaches assessed. Results: Of 4524 treatment-naïve patients with pulmonary hypertension who underwent maximal exercise testing 1,847 patients had PAH. A step-wise reduction in one-year-mortality was seen between levels 1 (≤30m; 32% mortality) and 7 (340-420m; 1% mortality) with no mortality for levels 8-12 (≥430m) in idiopathic and connective tissue disease related PAH. Thresholds derived at baseline of ≤180m (>10%; high-risk), 190-330m (5-10%; intermediate-risk) and ≥340m (

Published
2021

26. Myocardial inflammation and energetics by cardiac MRI: a review of emerging techniques

Author

Tsampasian, V., Swift, A.J., Assadi, H., Chowdhary, A., Swoboda, P., Sammut, E., Dastidar, A., Cabrero, J.B., Val, J.R. Del, Nair, S., Nijveldt, R., Ryding, A., Sawh, C., Bucciarelli-Ducci, C., Levelt, E., Vassiliou, V., Garg, P., Tsampasian, V., Swift, A.J., Assadi, H., Chowdhary, A., Swoboda, P., Sammut, E., Dastidar, A., Cabrero, J.B., Val, J.R. Del, Nair, S., Nijveldt, R., Ryding, A., Sawh, C., Bucciarelli-Ducci, C., Levelt, E., Vassiliou, V., and Garg, P.

Abstract

Contains fulltext : 245701.pdf (Publisher’s version ) (Open Access), The role of inflammation in cardiovascular pathophysiology has gained a lot of research interest in recent years. Cardiovascular Magnetic Resonance has been a powerful tool in the non-invasive assessment of inflammation in several conditions. More recently, Ultrasmall superparamagnetic particles of iron oxide have been successfully used to evaluate macrophage activity and subsequently inflammation on a cellular level. Current evidence from research studies provides encouraging data and confirms that this evolving method can potentially have a huge impact on clinical practice as it can be used in the diagnosis and management of very common conditions such as coronary artery disease, ischaemic and non-ischaemic cardiomyopathy, myocarditis and atherosclerosis. Another important emerging concept is that of myocardial energetics. With the use of phosphorus magnetic resonance spectroscopy, myocardial energetic compromise has been proved to be an important feature in the pathophysiological process of several conditions including diabetic cardiomyopathy, inherited cardiomyopathies, valvular heart disease and cardiac transplant rejection. This unique tool is therefore being utilized to assess metabolic alterations in a wide range of cardiovascular diseases. This review systematically examines these state-of-the-art methods in detail and provides an insight into the mechanisms of action and the clinical implications of their use.

Published
2021

27. Free breathing lung T1 mapping using image registration in patients with idiopathic pulmonary fibrosis

Author

Saunders, L.C., Eaden, J.A., Bianchi, S.M., Swift, A.J., and Wild, J.M.

Subjects
respiratory system, respiratory tract diseases
Abstract

Purpose\ud \ud To assess the use of image registration for correcting respiratory motion in free breathing lung T1 mapping acquisition in patients with idiopathic pulmonary fibrosis (IPF).\ud \ud \ud \ud Theory and Methods\ud \ud The method presented used image registration to synthetic images during postprocessing to remove respiratory motion. Synthetic images were generated from a model of the inversion recovery signal of the acquired images that incorporated a periodic lung motion model. Ten healthy volunteers and 19 patients with IPF underwent 2D Look‐Locker T1 mapping acquisition at 1.5T during inspiratory breath‐hold and free breathing. Eight healthy volunteers and seven patients with IPF underwent T1 mapping acquisition during expiratory breath‐hold. Fourteen patients had follow‐up scanning at 6 months. Dice similarity coefficient (DSC) was used to evaluate registration efficacy.\ud \ud \ud \ud Results\ud \ud Image registration increased image DSC (P < .001) in the free breathing inversion recovery images. Lung T1 measured during a free breathing acquisition was lower in patients with IPF when compared with healthy controls (inspiration: P = .238; expiration: P = .261; free breathing: P = .021). Measured lung T1 was higher in expiration breath‐hold than inspiration breath‐hold in healthy volunteers (P < .001) but not in patients with IPF (P = .645). There were no other significant differences between lung T1 values within subject groups.\ud \ud \ud \ud Conclusions\ud \ud The registration technique significantly reduced motion in the Look‐Locker images acquired during free breathing and may improve the robustness of lung T1 mapping in patients who struggle to hold their breath. Lung T1 measured during a free breathing acquisition was significantly lower in patients with IPF when compared with healthy controls.

Published
2020

28. Cardiac magnetic resonance in pulmonary hypertension - an update

Author

Alabed, S., Garg, P., Johns, C.S., Alandejani, F., Shahin, Y., Dwivedi, K., Zafar, H., Wild, J.M., Kiely, D.G., and Swift, A.J.

Subjects
cardiovascular system
Abstract

Purpose of Review\ud \ud This article reviews advances over the past 3 years in cardiac magnetic resonance (CMR) imaging in pulmonary hypertension (PH). We aim to bring the reader up-to-date with CMR applications in diagnosis, prognosis, 4D flow, strain analysis, T1 mapping, machine learning and ongoing research.\ud \ud \ud \ud Recent Findings\ud \ud CMR volumetric and functional metrics are now established as valuable prognostic markers in PH. This imaging modality is increasingly used to assess treatment response and improves risk stratification when incorporated into PH risk scores. Emerging techniques such as myocardial T1 mapping may play a role in the follow-up of selected patients. Myocardial strain may be used as an early marker for right and left ventricular dysfunction and a predictor for mortality. Machine learning has offered a glimpse into future possibilities. Ongoing research of new PH therapies is increasingly using CMR as a clinical endpoint.\ud \ud \ud \ud Summary\ud \ud The last 3 years have seen several large studies establishing CMR as a valuable diagnostic and prognostic tool in patients with PH, with CMR increasingly considered as an endpoint in clinical trials of PH therapies. Machine learning approaches to improve automation and accuracy of CMR metrics and identify imaging features of PH is an area of active research interest with promising clinical utility.

Published
2020

29. Role of biomarkers in evaluation, treatment and clinical studies of pulmonary arterial hypertension

Author

Hemnes, A., Rothman, A.M.K., Swift, A.J., and Zisman, L.S.

Abstract

Pulmonary arterial hypertension is a complex disease resulting from the interplay of myriad biological and environmental processes that lead to remodeling of the pulmonary vasculature with consequent pulmonary hypertension. Despite currently available therapies, there remains significant morbidity and mortality in this disease. There is great interest in identifying and applying biomarkers to help diagnose patients with pulmonary arterial hypertension, inform prognosis, guide therapy, and serve as surrogate endpoints. An extensive literature on potential biomarker candidates is available, but barriers to the implementation of biomarkers for clinical use in pulmonary arterial hypertension are substantial. Various omic strategies have been undertaken to identify key pathways regulated in pulmonary arterial hypertension that could serve as biomarkers including genomic, transcriptomic, proteomic, and metabolomic approaches. Other biologically relevant components such as circulating cells, microRNAs, exosomes, and cell-free DNA have recently been gaining attention. Because of the size of the datasets generated by these omic approaches and their complexity, artificial intelligence methods are being increasingly applied to decipher their meaning. There is growing interest in imaging the lung with various modalities to understand and visualize processes in the lung that lead to pulmonary vascular remodeling including high resolution computed tomography, Xenon magnetic resonance imaging, and positron emission tomography. Such imaging modalities have the potential to demonstrate disease modification resulting from therapeutic interventions. Because right ventricular function is a major determinant of prognosis, imaging of the right ventricle with echocardiography or cardiac magnetic resonance imaging plays an important role in the evaluation of patients and may also be useful in clinical studies of pulmonary arterial hypertension.

Published
2020

30. Mild parenchymal lung disease and/or low diffusion capacity impacts survival and treatment response in patients diagnosed with idiopathic pulmonary arterial hypertension

Author

Lewis, R.A., Thompson, A.A.R., Billings, C.G., Charalampopoulos, A., Elliot, C.A., Hamilton, N., Hill, C., Hurdman, J., Rajaram, S., Sabroe, I., Swift, A.J., Kiely, D.G., and Condliffe, R.

Subjects
respiratory system
Abstract

There are limited published data defining survival and treatment response in patients with mild lung disease and/or reduced gas transfer who fulfil diagnostic criteria for idiopathic pulmonary arterial hypertension (IPAH).\ud \ud Patients diagnosed with IPAH between 2001–19 were identified in the ASPIRE registry. Using pre-specified criteria based on CT imaging and spirometry, patients with a diagnosis of IPAH and no lung disease were termed IPAHno-LD (n=303), and those with minor-mild emphysema or fibrosis were described as IPAHmild-LD (n=190).\ud \ud Survival was significantly better in IPAHno-LD than in IPAHmild-LD (1 and 5-year survival 95% and 70% versus 78% and 22% respectively, p

Published
2020

31. Identification of cardiac MRI thresholds for risk stratification in pulmonary arterial hypertension

Author

Lewis, R.A., Johns, C.S., Cogliano, M., Capener, D., Tubman, E., Elliot, C.A., Charalampopoulos, A., Sabroe, I., Thompson, A.A.R., Billings, C.G., Hamilton, N., Baster, K., Laud, P.J., Hickey, P.M., Middleton, J., Armstrong, I.J., Hurdman, J.A., Lawrie, A., Rothman, A.M.K., Wild, J.M., Condliffe, R., Swift, A.J., and Kiely, D.G.

Abstract

Rationale: Pulmonary arterial hypertension (PAH) is a life-shortening condition. The European Society of Cardiology and European Respiratory Society and the REVEAL (North American Registry to Evaluate Early and Long-Term PAH Disease Management) risk score calculator (REVEAL 2.0) identify thresholds to predict 1-year mortality.\ud \ud Objectives: This study evaluates whether cardiac magnetic resonance imaging (MRI) thresholds can be identified and used to aid risk stratification and facilitate decision-making.\ud \ud Methods: Consecutive patients with PAH (n = 438) undergoing cardiac MRI were identified from the ASPIRE (Assessing the Spectrum of Pulmonary Hypertension Identified at a Referral Center) MRI database. Thresholds were identified from a discovery cohort and evaluated in a test cohort.\ud \ud Measurements and Main Results: A percentage-predicted right ventricular end-systolic volume index threshold of 227% or a left ventricular end-diastolic volume index of 58 ml/m2 identified patients at low (10%) risk of 1-year mortality. These metrics respectively identified 63% and 34% of patients as low risk. Right ventricular ejection fraction >54%, 37–54%, and

Published
2020

35. Cardiovascular Correlates of Machine-Learned Quantitative Emphysema Subtypes. The Multi-Ethnic Study of Atherosclerosis (MESA) COPD Study

Author

Angelini, E., primary, Yang, J.X., additional, Yang, J., additional, Swift, A.J., additional, Balte, P., additional, Hoffman, E.A., additional, Allen, N.B., additional, Lima, J., additional, Donnelly Michos, E., additional, Prince, M.R., additional, Sun, Y., additional, Watson, K.E., additional, Laine, A.F., additional, and Barr, R.G., additional

Published
2020
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36. A Systematic Review of 4D-Flow MRI Derived Mitral Regurgitation Quantification Methods

Author

Fidock, B., Barker, N., Balasubramanian, N., Archer, G., Fent, G., Al-Mohammad, A., Richardson, J., O'Toole, L., Briffa, N., Rothman, A., van der Geest, R., Hose, R., Wild, J.M., Swift, A.J., and Garg, P.

Subjects
retrospective-valve-tracking, 4D flow MRI, 4D flow CMR, echocardiography, Systematic Review, mitral regurgitation, Cardiovascular Medicine, retrospectivevalve-tracking, phase contrast
Abstract

Background: Four-dimensional flow cardiac magnetic resonance (4D flow CMR) is an emerging non-invasive imaging technology that can be used to quantify mitral regurgitation (MR) volume. Current methods of quantification have demonstrated limitations in accurate analysis, particularly in difficult cases such as complex congenital heart disease. 4D flow CMR methods aim to circumvent these limitations and allow accurate quantification of MR volume even in complex cases. This systematic review aims to summarize the available literature on 4D flow CMR MR quantification methods and examine their ability to accurately classify MR severity.\ud \ud Methods: Structured searches were carried out on Medline and EMBASE in December 2018 to identify suitable research outcome studies. The titles and abstracts were screened for relevance, with a third adjudicator utilized when study suitability was uncertain.\ud \ud Results: Seven studies met the eligibility criteria and were included in the systematic review. The most widely used 4D flow MRI method was retrospective valve tracking (RVT) which was examined in five papers. The key finding of these papers was that RVT is a reliable and accurate method of regurgitant volume quantification.\ud \ud Conclusions: MR quantification through 4D flow MRI is both feasible and accurate. The evidence gathered suggests that for MR assessment, 4D flow MRI is potentially as accurate and reliable to echocardiography and may be complementary to this technique. Further work on MR quantification 4D flow image analysis is needed to determine the most accurate analysis technique and to demonstrate 4D flow MRI as a predictor of clinical outcome.\ud \ud PROSPERO Registration Number: CRD42019122837, http://www.crd.york.ac.uk/PROSPERO/display_record.php?ID=CRD42019122837

Published
2019
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37. Experimental and quantitative imaging techniques in interstitial lung disease

Author

Weatherley, N.D., Eaden, J.A., Stewart, N.J., Bartholmai, B.J., Swift, A.J., Bianchi, S.M., and Wild, J.M.

Subjects
respiratory system
Abstract

Interstitial lung diseases (ILDs) are a heterogeneous group of conditions, with a wide and complex variety of imaging features. Difficulty in monitoring, treating and exploring novel therapies for these conditions is in part due to the lack of robust, readily available biomarkers. Radiological studies are vital in the assessment and follow-up of ILD, but currently CT analysis in clinical practice is qualitative and therefore somewhat subjective. In this article, we report on the role of novel and quantitative imaging techniques across a range of imaging modalities in ILD and consider how they may be applied in the assessment and understanding of ILD. We critically appraised evidence found from searches of Ovid online, PubMed and the TRIP database for novel and quantitative imaging studies in ILD. Recent studies have explored the capability of texture-based lung parenchymal analysis in accurately quantifying several ILD features. Newer techniques are helping to overcome the challenges inherent to such approaches, in particular distinguishing peripheral reticulation of lung parenchyma from pleura and accurately identifying the complex density patterns that accompany honeycombing. Robust and validated texture-based analysis may remove the subjectivity that is inherent to qualitative reporting and allow greater objective measurements of change over time. In addition to lung parenchymal feature quantification, pulmonary vessel volume analysis on CT has demonstrated prognostic value in two retrospective analyses and may be a sign of vascular changes in ILD which, to date, have been difficult to quantify in the absence of overt pulmonary hypertension. Novel applications of existing imaging techniques, such as hyperpolarised gas MRI and positron emission tomography (PET), show promise in combining structural and functional information. Although structural imaging of lung tissue is inherently challenging in terms of conventional proton MRI techniques, inroads are being made with ultrashort echo time, and dynamic contrast-enhanced MRI may be used for lung perfusion assessment. In addition, inhaled hyperpolarised 129Xenon gas MRI may provide multifunctional imaging metrics, including assessment of ventilation, intra-acinar gas diffusion and alveolar-capillary diffusion. PET has demonstrated high standard uptake values (SUVs) of 18F-fluorodeoxyglucose in fibrosed lung tissue, challenging the assumption that these are 'burned out' and metabolically inactive regions. Regions that appear structurally normal also appear to have higher SUV, warranting further exploration with future longitudinal studies to assess if this precedes future regions of macroscopic structural change. Given the subtleties involved in diagnosing, assessing and predicting future deterioration in many forms of ILD, multimodal quantitative lung structure-function imaging may provide the means of identifying novel, sensitive and clinically applicable imaging markers of disease. Such imaging metrics may provide mechanistic and phenotypic information that can help direct appropriate personalised therapy, can be used to predict outcomes and could potentially be more sensitive and specific than global pulmonary function testing. Quantitative assessment may objectively assess subtle change in character or extent of disease that can assist in efficacy of antifibrotic therapy or detecting early changes of potentially pneumotoxic drugs involved in early intervention studies.

Published
2019

38. Diagnosis of pulmonary hypertension with cardiac MRI: derivation and validation of regression models

Author

Johns, C.S., Kiely, D.G., Rajaram, S., Hill, C., Thomas, S., Karunasaagarar, K., Garg, P., Hamilton, N., Solanki, R., Capener, D.A., Elliot, C., Sabroe, I., Charalamopopoulos, A., Condliffe, R., Wild, J.M., and Swift, A.J.

Abstract

Purpose: To derive and test multiparametric cardiac MRI models for the diagnosis of pulmonary hypertension (PH). \ud \ud \ud \ud Materials and Methods: Images and patient data from consecutive patients suspected of having PH who underwent cardiac MRI and right-sided heart catheterization (RHC) between 2012 and 2016 were retrospectively reviewed. Of 2437 MR images identified, 603 fit the inclusion criteria. The mean patient age was 61 years (range, 18-88 years; mean age of women, 60 years [range, 18-84 years]; mean age of men, 62 years [range, 22-88 years]). In the first 300 patients (derivation cohort), cardiac MRI metrics that showed correlation with mean pulmonary arterial pressure (mPAP) were used to create a regression algorithm. The performance of the model was assessed in the 303-patient validation cohort by using receiver operating characteristic (ROC) and x² analysis. \ud \ud \ud \ud Results: In the derivation cohort, cardiac MRI mPAP model 1 (right ventricle and black blood) was defined as follows: 2179 + loge interventricular septal angle × 42.7 + log10 ventricular mass index (right ventricular mass/left ventricular mass) × 7.57 + black blood slow flow score × 3.39. In the validation cohort, cardiac MRI mPAP model 1 had strong agreement with RHC-measured mPAP, an intraclass coefficient of 0.78, and high diagnostic accuracy (area under the ROC curve = 0.95; 95% confidence interval [CI]: 0.93, 0.98). The threshold of at least 25 mm Hg had a sensitivity of 93% (95% CI: 89%, 96%), specificity of 79% (95% CI: 65%, 89%), positive predictive value of 96% (95% CI: 93%, 98%), and negative predictive value of 67% (95% CI: 53%, 78%) in the validation cohort. A second model, cardiac MRI mPAP model 2 (right ventricle pulmonary artery), which excludes the black blood flow score, had equivalent diagnostic accuracy (ROC difference: P = .24). \ud \ud \ud \ud Conclusion: Multiparametric cardiac MRI models have high diagnostic accuracy in patients suspected of having pulmonary hypertension.

Published
2018

39. Comparison of 3He and129Xe MRI for evaluation of lung microstructure and ventilation at 1.5T

Author

Stewart, N.J., Chan, H.-F., Hughes, P.J.C., Horn, F.C., Norquay, G., Rao, M., Yates, D.P., Ireland, R.H., Hatton, M.Q., Tahir, B.A., Ford, P., Swift, A.J., Lawson, R., Marshall, H., Collier, G.J., and Wild, J.M.

Abstract

BACKGROUND: To support translational lung MRI research with hyperpolarized129Xe gas, comprehensive evaluation of derived quantitative lung function measures against established measures from3He MRI is required. Few comparative studies have been performed to date, only at 3T, and multisession repeatability of129Xe functional metrics have not been reported. PURPOSE/HYPOTHESIS: To compare hyperpolarized129Xe and3He MRI-derived quantitative metrics of lung ventilation and microstructure, and their repeatability, at 1.5T. STUDY TYPE: Retrospective. POPULATION: Fourteen healthy nonsmokers (HN), five exsmokers (ES), five patients with chronic obstructive pulmonary disease (COPD), and 16 patients with nonsmall-cell lung cancer (NSCLC). FIELD STRENGTH/SEQUENCE: 1.5T. NSCLC, COPD patients and selected HN subjects underwent 3D balanced steady-state free-precession lung ventilation MRI using both3He and129Xe. Selected HN, all ES, and COPD patients underwent 2D multislice spoiled gradient-echo diffusion-weighted lung MRI using both hyperpolarized gas nuclei. ASSESSMENT: Ventilated volume percentages (VV%) and mean apparent diffusion coefficients (ADC) were derived from imaging. COPD patients performed the whole MR protocol in four separate scan sessions to assess repeatability. Same-day pulmonary function tests were performed. STATISTICAL TESTS: Intermetric correlations: Spearman's coefficient. Intergroup/internuclei differences: analysis of variance / Wilcoxon's signed rank. Repeatability: coefficient of variation (CV), intraclass correlation (ICC) coefficient. RESULTS: A significant positive correlation between3He and129Xe VV% was observed (r = 0.860, P

Published
2018

40. Pulmonary artery size in interstitial lung disease and pulmonary hypertension: association with interstitial lung disease severity and diagnostic utility

Author

Chin, M., Johns, C., Currie, B.J., Weatherley, N., Hill, C., Elliot, C., Rajaram, S., Wild, J.M., Condliffe, R., Bianchi, S., Kiely, D.G., and Swift, A.J.

Subjects
respiratory system, respiratory tract diseases
Abstract

Purpose: It is postulated that ILD causes PA dilatation independent of the presence of pulmonary hypertension (PH), so the use of PA size to screen for PH is not recommended. The aims of this study were to investigate the association of PA size with the presence and severity of ILD and to assess the diagnostic accuracy of PA size for detecting PH.\ud Methods: Incident patients referred to a tertiary PH centre underwent baseline thoracic CT, MRI and right heart catheterisation (RHC). Pulmonary artery diameter was measured on CT pulmonary angiography and pulmonary arterial areas on MRI. A thoracic radiologist scored the severity of ILD on CT from 0 to 4, 0 = absent, 1 = 1–25%, 2 = 26–50%, 3 = 51–75%, and 4 = 76–100% extent of involvement. Receiver operating characteristic analysis and linear regression were employed to assess diagnostic accuracy and independent associations of PA size.\ud Results: 110 had suspected PH due to ILD (age 65 years (SD 13), M:F 37:73) and 379 had suspected PH without ILD (age 64 years (SD 13), M:F 161:218). CT derived main PA diameter was accurate for detection of PH in patients both with and without ILD - AUC 0.873, p =< 0.001, and AUC 0.835, p =< 0.001, respectively, as was MRI diastolic PA area, AUC 0.897, p =< 0.001, and AUC 0.857, p =< 0.001, respectively Significant correlations were identified between mean pulmonary arterial pressure (mPAP) and PA diameter in ILD (r = 0.608, p < 0.001), and non-ILD cohort (r = 0.426, p < 0.001). PA size was independently associated with mPAP (p < 0.001) and BSA (p = 0.001), but not with forced vital capacity % predicted (p = 0.597), Transfer factor of the lungs for carbon monoxide (TLCO) % predicted (p = 0.321) or the presence of ILD on CT (p = 0.905). The severity of ILD was not associated with pulmonary artery dilatation (r = 0.071, p = 0.459).\ud Conclusions: Pulmonary arterial pressure elevation leads to pulmonary arterial dilation, which is not independently influenced by the presence or severity of ILD measured by FVC, TLCO, or disease severity on CT. Pulmonary arterial diameter has diagnostic value in patients with or without ILD and suspected PH.

Published
2018

41. CT derived left atrial size identifies left heart disease in suspected pulmonary hypertension: Derivation and validation of predictive thresholds

Author

Currie, B.J., Johns, C., Chin, M., Charalampopolous, T., Elliot, C.A., Garg, P., Rajaram, S., Hill, C., Wild, J.W., Condliffe, R.A., Kiely, D.G., and Swift, A.J.

Subjects
Male, Computed Tomography Angiography, Hypertension, Pulmonary, Magnetic Resonance Imaging, Cine, Left atrial area, Middle Aged, Article, Pulmonary hypertension, Computed tomography pulmonary angiography, Ventricular Dysfunction, Left, Magnetic resonance imaging, Predictive Value of Tests, Left heart disease, Humans, Left atrial volume, Female, Tomography, X-Ray Computed, Aged, Retrospective Studies
Abstract

Background Patients with pulmonary hypertension due to left heart disease (PH-LHD) have overlapping clinical features with pulmonary arterial hypertension making diagnosis reliant on right heart catheterization (RHC). This study aimed to investigate computed tomography pulmonary angiography (CTPA) derived cardiopulmonary structural metrics, in comparison to magnetic resonance imaging (MRI) for the diagnosis of left heart disease in patients with suspected pulmonary hypertension. Methods Patients with suspected pulmonary hypertension who underwent CTPA, MRI and RHC were identified. Measurements of the cardiac chambers and vessels were recorded from CTPA and MRI. The diagnostic thresholds of individual measurements to detect elevated pulmonary arterial wedge pressure (PAWP) were identified in a derivation cohort (n = 235). Individual CT and MRI derived metrics were tested in validation cohort (n = 211). Results 446 patients, of which 88 had left heart disease. Left atrial area was a strong predictor of elevated PAWP>15 mm Hg and PAWP>18 mm Hg, area under curve (AUC) 0.854, and AUC 0.873 respectively. Similar accuracy was also identified for MRI derived LA volume, AUC 0.852 and AUC 0.878 for PAWP > 15 and 18 mm Hg, respectively. Left atrial area of 26.8 cm2 and 30.0 cm2 were optimal specific thresholds for identification of PAWP > 15 and 18 mm Hg, had sensitivity of 60%/53% and specificity 89%/94%, respectively in a validation cohort. Conclusions CTPA and MRI derived left atrial size identifies left heart disease in suspected pulmonary hypertension with high specificity. The proposed diagnostic thresholds for elevated left atrial area on routine CTPA may be a useful to indicate the diagnosis of left heart disease in suspected pulmonary hypertension., Highlights • Routine CTPA can diagnose left heart disease in suspected pulmonary hypertension. • Complex multiparameter models do not improve LHD diagnosis. • Highly specific thresholds have been derived and validated.

Published
2018

42. Role of cardiac T1 mapping and extracellular volume in the assessment of myocardial infarction

Author

Garg, P., Saunders, L.C., Swift, A.J., Wild, J.M., and Plein, S.

Abstract

Although late gadolinium enhancement on cardiac magnetic resonance imaging remains the reference standard for scar assessment, it does not provide quantitative information about the extent of pathophysiological changes within the scar tissue. T1 mapping and extracellular volume (ECV) mapping are steadily becoming diagnostic and prognostically useful tests for in vivo myocardial histology, influencing clinical decision-making. Quantitative native T1 maps (acquired without a contrast agent) represent the longitudinal relaxation time within the myocardium and changes with myocardial extracellular water (edema, focal, or diffuse fibrosis), fat, iron, and amyloid protein content. Post-contrast ECV maps estimate the size of the extracellular space and have sensitivity in the identification of interstitial disease. Both pre- and post-contrast T1 mapping are emerging as comprehensive tools for the assessment of numerous conditions including ischemic scarring that occurs post myocardial infarction (MI). This review outlines the current evidence and potential future role of T1 mapping in MI. We conclude by highlighting some of the remaining challenges such as quality control, standardization of image acquisition for clinical practice, and automated methods for quantifying infarct size, area at risk, and myocardial salvage post MI.

Published
2018

43. Current and emerging imaging techniques in the diagnosis and assessment of pulmonary hypertension

Author

Johns, C.S., Wild, J.M., Rajaram, S., Swift, A.J., and Kiely, D.G.

Abstract

Introduction: Pulmonary hypertension (PH) is a challenging condition to diagnose and treat. Over the last two decades, there have been significant advances in therapeutic approaches and imaging technologies. Current guidelines emphasize the importance of cardiac catheterization; however, the increasing availability of non-invasive imaging has the potential to improve diagnostic rates, whilst providing additional information on patient phenotypes.\ud \ud Areas covered: This review discusses the role of imaging in the diagnosis, prognostic assessment and follow-up of patients with PH. Imaging methods, ranging from established investigations (chest radiography, echocardiography, nuclear medicine and computerized tomography (CT)), to emerging modalities (dual energy CT, magnetic resonance imaging (MRI), optical coherence tomography and positron emission tomography (PET)) are reviewed. The value and limitations of the clinical utility of these imaging modalities and their potential clinical application are reviewed.\ud \ud Expert commentary: Imaging plays a key role in the diagnosis and classification of pulmonary hypertension. It also provides valuable prognostic information and emerging evidence supports a role for serial assessments. The authors anticipate an increasing role for imaging in the pulmonary hypertension clinic. This will reduce the need for invasive investigations, whilst providing valuable insights that will improve our understanding of disease facilitate a more targeted approach to treatment.

Published
2018

47. Magnetic Resonance Imaging in the Prognostic Evaluation of Patients with Pulmonary Arterial Hypertension

Author

Swift, A.J., Capener, D., Johns, C., Hamilton, N., Rothman, A., Elliot, C., Condliffe, R., Charalampopoulos, A., Rajaram, S., Lawrie, A., Campbell, M.J., Wild, J.M., and Kiely, D.G.

Abstract

Rationale: Prognostication is important when counseling patients and defining treatment strategies in pulmonary arterial hypertension (PAH).\ud \ud Objectives: To determine the value of magnetic resonance imaging (MRI) metrics for prediction of mortality in PAH.\ud \ud Methods: Consecutive patients with PAH undergoing MRI were identified from the ASPIRE (Assessing the Spectrum of Pulmonary Hypertension Identified at a Referral Centre) pulmonary hypertension registry.\ud \ud Measurements and Main Results: During the follow-up period of 42 (range, 17–142) months 576 patients were studied and 221 (38%) died. A derivation cohort (n = 288; 115 deaths) and validation cohort (n = 288; 106 deaths) were identified. We used multivariate Cox regression and found two independent MRI predictors of death (P

Published
2017

48. Incremental Shuttle Walking Test Distance and Autonomic Dysfunction Predict Survival in Pulmonary Arterial Hypertension

Author

Billings, C.G., Hurdman, J.A., Condliffe, R.A., Elliot, C.A., Smith, I.A., Austin, M., Armstrong, I.J., Hamilton, N., Charalampopoulos, A., Sabroe, I., Swift, A.J., Rothman, A.M., Wild, J.M., Lawrie, A., Waterhouse, J.C., and Kiely, D.G.

Abstract

Background\ud \ud To ensure effective monitoring of pulmonary arterial hypertension (PAH), a simple, reliable assessment of exercise capacity applicable over a range of disease severity is needed. The aim of this study was to assess the ability of the incremental shuttle walk test (ISWT) to correlate with disease severity, measure sensitivity to change, and predict survival in PAH.\ud \ud Methods\ud \ud We enrolled 418 treatment-naïve patients with PAH with baseline ISWT within 3 months of cardiac catheterization. Clinical validity and prognostic value of ISWT distance were assessed at baseline and 1 year.\ud \ud Results\ud \ud ISWT distance was found to correlate at baseline with World Health Organization functional class, Borg score, and hemodynamics without a ceiling effect (all p < 0.001). Walking distance at baseline and after treatment predicted survival; the area under the receiver operating characteristic curve for ability of ISWT distance to predict mortality was 0.655 (95% confidence interval 0.553–0.757; p = 0.004) at baseline and 0.737 (95% confidence interval 0.643–0.827; p < 0.001) at 1 year after initiation of treatment. Change in ISWT distance also predicted survival (p = 0.04). Heart rate (HR) and systolic blood pressure (SBP) parameters reflecting autonomic response to exercise (highest HR, change in HR, HR recovery at 1 minute >18 beats/min, highest SBP, change in SBP, and 3-minute SBP ratio) were significant predictors of survival (all p < 0.05).\ud \ud Conclusions\ud \ud In patients with PAH, the ISWT is simple to perform, allows assessment of maximal exercise capacity, is sensitive to treatment effect, predicts outcome, and has no ceiling effect. Also, measures of autonomic function made post-exercise predict survival in PAH.

Published
2017

49. Lung perfusion: MRI vs. SPECT for screening in suspected chronic thromboembolic pulmonary hypertension

Author

Johns, C.S., Swift, A.J., Rajaram, S., Hughes, P.J.C., Capener, D.J., Kiely, D.G., and Wild, J.M.

Abstract

PURPOSE: To assess the diagnostic accuracy of magnetic resonance imaging (MRI) perfusion against perfusion single photon emission tomography (SPECT) screening for chronic thromboembolic pulmonary hypertension (CTEPH). Ventilation/perfusion (V/Q) scintigraphy is recommended to screen for suspected CTEPH. It has previously been shown that 3D dynamic contrast-enhanced (DCE) lung perfusion MRI has a similar sensitivity for diagnosing CTEPH in comparison to planar perfusion scintigraphy; however, planar scintigraphy has now been largely replaced by SPECT, due to higher spatial resolution and sensitivity. MATERIALS AND METHODS: Consecutive patients with suspected CTEPH or unexplained pulmonary hypertension attending a referral center, who underwent lung DCE perfusion MRI at 1.5T, perfusion SPECT, and computed tomography pulmonary angiography (CTPA) within 14 days of right heart catheterization, from April 2013 to April 2014, were included. DCE-MR, SPECT, and CTPA were independently analyzed by two blinded radiologists. Disagreements were corrected by consensus. The gold standard reference for the diagnosis of chronic thromboemboli was based on a review of multimodality imaging and clinical findings. RESULTS: In all, 74 patients with suspected CTEPH underwent all three modalities. Forty-six were diagnosed with CTEPH (36) or chronic thromboembolic disease (CTED) (10). 3D DCE perfusion MRI correctly identified all patients (sensitivity of 100%), compared with a 97% sensitivity for SPECT. CONCLUSION: DCE lung perfusion MRI has increased sensitivity when compared with perfusion scintigraphy in screening for CTEPH. As MRI does not use ionizing radiation, it should be considered as a first-line imaging modality in suspected CTEPH. LEVEL OF EVIDENCE: 3

Published
2017

50. Pulmonary MR angiography and perfusion imaging—A review of methods and applications

Author

Johns, C.S., Swift, A.J., Hughes, P.J.C., Ohno, Y., Schiebler, M., and Wild, J.M.

Abstract

The pulmonary vasculature and its role in perfusion and gas exchange is an important consideration in many conditions of the lung and heart. Currently the mainstay of imaging of the vasculature and perfusion of the lungs lies with CT and nuclear medicine perfusion scans, both of which require ionizing radiation exposure. Improvements in MRI techniques have increased the use of MRI in pulmonary vascular imaging. Here we review MRI methods for imaging the pulmonary vasculature and pulmonary perfusion, both using contrast enhanced and non-contrast enhanced methodology.\ud \ud In many centres pulmonary MR angiography and dynamic contrast enhanced perfusion MRI are now well established in the routine workflow of patients particularly with pulmonary hypertension and thromboembolic disease. However, these imaging modalities offer exciting new directions for future research and clinical use in other respiratory diseases where consideration of pulmonary perfusion and gas exchange can provide insight in to pathophysiology.

Published
2017

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