Your search keyword '"Semple, Scott I. K."' showing total 5 results

1. MRI and CT coronary angiography in survivors of COVID-19

Author

Singh, Trisha, primary, Kite, Thomas A, additional, Joshi, Shruti S, additional, Spath, Nick B, additional, Kershaw, Lucy, additional, Baker, Andrew, additional, Jordan, Helen, additional, Gulsin, Gaurav Singh, additional, Williams, Michelle Claire, additional, van Beek, Edwin J R, additional, Arnold, Jayanth Ranjit, additional, Semple, Scott I K, additional, Moss, Alastair James, additional, Newby, David E, additional, Dweck, Marc, additional, and McCann, Gerry P, additional

Published

2021

2. MRI and CT coronary angiography in survivors of COVID-19.

Author

Singh, Trisha, Kite, Thomas A., Joshi, Shruti S., Spath, Nick B., Kershaw, Lucy, Baker, Andrew, Jordan, Helen, Gulsin, Gaurav Singh, Williams, Michelle Claire, van Beek, Edwin J. R., Arnold, Jayanth Ranjit, Semple, Scott I. K., Moss, Alastair James, Newby, David E., Dweck, Marc, and McCann, Gerry P.

Subjects

CORONARY angiography, HEART failure, COVID-19, ATRIAL flutter, MAGNETIC resonance imaging, ADULT respiratory distress syndrome

Abstract

Objectives: To determine the contribution of comorbidities on the reported widespread myocardial abnormalities in patients with recent COVID-19.Methods: In a prospective two-centre observational study, patients hospitalised with confirmed COVID-19 underwent gadolinium and manganese-enhanced MRI and CT coronary angiography (CTCA). They were compared with healthy and comorbidity-matched volunteers after blinded analysis.Results: In 52 patients (median age: 54 (IQR 51-57) years, 39 males) who recovered from COVID-19, one-third (n=15, 29%) were admitted to intensive care and a fifth (n=11, 21%) were ventilated. Twenty-three patients underwent CTCA, with one-third having underlying coronary artery disease (n=8, 35%). Compared with younger healthy volunteers (n=10), patients demonstrated reduced left (ejection fraction (EF): 57.4±11.1 (95% CI 54.0 to 60.1) versus 66.3±5 (95 CI 62.4 to 69.8)%; p=0.02) and right (EF: 51.7±9.1 (95% CI 53.9 to 60.1) vs 60.5±4.9 (95% CI 57.1 to 63.2)%; p≤0.0001) ventricular systolic function with elevated native T1 values (1225±46 (95% CI 1205 to 1240) vs 1197±30 (95% CI 1178 to 1216) ms;p=0.04) and extracellular volume fraction (ECV) (31±4 (95% CI 29.6 to 32.1) vs 24±3 (95% CI 22.4 to 26.4)%; p<0.0003) but reduced myocardial manganese uptake (6.9±0.9 (95% CI 6.5 to 7.3) vs 7.9±1.2 (95% CI 7.4 to 8.5) mL/100 g/min; p=0.01). Compared with comorbidity-matched volunteers (n=26), patients had preserved left ventricular function but reduced right ventricular systolic function (EF: 51.7±9.1 (95% CI 53.9 to 60.1) vs 59.3±4.9 (95% CI 51.0 to 66.5)%; p=0.0005) with comparable native T1 values (1225±46 (95% CI 1205 to 1240) vs 1227±51 (95% CI 1208 to 1246) ms; p=0.99), ECV (31±4 (95% CI 29.6 to 32.1) vs 29±5 (95% CI 27.0 to 31.2)%; p=0.35), presence of late gadolinium enhancement and manganese uptake. These findings remained irrespective of COVID-19 disease severity, presence of myocardial injury or ongoing symptoms.Conclusions: Patients demonstrate right but not left ventricular dysfunction. Previous reports of left ventricular myocardial abnormalities following COVID-19 may reflect pre-existing comorbidities.Trial Registration Number: NCT04625075. [ABSTRACT FROM AUTHOR]

Published

2022

3. Manganese-enhanced MRI of the myocardium

Author

Spath, Nick B, primary, Thompson, Gerard, additional, Baker, Andrew H, additional, Dweck, Marc R, additional, Newby, David E, additional, and Semple, Scott I K, additional

Published

2019

4. Ferumoxytol-enhanced magnetic resonance imaging in acute myocarditis.

Author

Stirrat, Colin G., Alam, Shirjel R., MacGillivray, Thomas J., Gray, Calum D., Dweck, Marc R., Dibb, Kevin, Spath, Nick, Payne, John R., Prasad, Sanjay K., Gardner, Roy S., Mirsadraee, Saeed, Henriksen, Peter A., Semple, Scott I. K., Newby, David E., and Semple, Scott Ik

Subjects

MYOCARDITIS, MAGNETIC resonance imaging, SUPERPARAMAGNETIC materials, IRON oxides, MACROPHAGES, DEXTRAN, DIAGNOSTIC imaging, IMMUNITY, INFLAMMATION, IRON compounds, COMPUTERS in medicine, MYOCARDIUM, CARDIOMYOPATHIES, RESEARCH funding, PREDICTIVE tests, CONTRAST media, ACUTE diseases

Abstract

Objectives: Ultrasmall superparamagnetic particles of iron oxide (USPIO)-enhanced MRI can detect tissue-resident macrophage activity and identify cellular inflammation within tissues. We hypothesised that USPIO-enhanced MRI would provide a non-invasive imaging technique that would improve the diagnosis and management of patients with acute myocarditis.Methods: Ten volunteers and 14 patients with suspected acute myocarditis underwent T2, T2* and late gadolinium enhancement (LGE) 3T MRI, with further T2* imaging at 24 hours after USPIO (ferumoxytol, 4 mg/kg) infusion, at baseline and 3 months. Myocardial oedema and USPIO enhancement were determined within areas of LGE as well as throughout the myocardium.Results: Myocarditis was confirmed in nine of the 14 suspected cases of myocarditis. There was greater myocardial oedema in regions of LGE in patients with myocarditis when compared with healthy volunteer myocardium (T2 value, 57.1±5.3 vs 46.7±1.6 ms, p<0.0001). There was no demonstrable difference in USPIO enhancement between patients and volunteers even within regions displaying LGE (change in R2*, 35.0±15.0 vs 37.2±9.6 s-1, p>0.05). Imaging after 3 months in patients with myocarditis revealed a reduction in volume of LGE, a reduction in oedema measures within regions displaying LGE and improvement in ejection fraction (mean -19.7 mL, 95% CI (-0.5 to -40.0)), -5.8 ms (-0.9 to -10.7) and +6% (0.5% to 11.5%), respectively, p<0.05 for all).Conclusion: In patients with acute myocarditis, USPIO-enhanced MRI does not provide additional clinically relevant information to LGE and T2 mapping MRI. This suggests that tissue-resident macrophages do not provide a substantial contribution to the myocardial inflammation in this condition.Clinical trial registration NCT02319278; Results. [ABSTRACT FROM AUTHOR]

Published

2018

5. Ferumoxytol-enhanced magnetic resonance imaging assessing inflammation after myocardial infarction.

Author

Stirrat, Colin G., Alam, Shirjel R., MacGillivray, Thomas J., Gray, Calum D., Dweck, Marc R., Raftis, Jennifer, Jenkins, William S. A., Wallace, William A., Pessotto, Renzo, Lim, Kelvin H. H., Mirsadraee, Saeed, Henriksen, Peter A., Semple, Scott I. K ., Newby, David E., Jenkins, William Sa, Lim, Kelvin Hh, and Semple, Scott Ik

Subjects

MAGNETIC resonance imaging, INFLAMMATION, MYOCARDIAL infarction, INTERLEUKIN-6, TOCILIZUMAB, MYOCARDIAL infarction diagnosis, HEMATOPOIETIC agents, LONGITUDINAL method, MACROPHAGES, MYOCARDIUM, RESEARCH evaluation, RESEARCH funding, PHARMACODYNAMICS, DIAGNOSIS

Abstract

Objectives: Macrophages play a central role in the cellular inflammatory response to myocardial infarction (MI) and predict subsequent clinical outcomes. We aimed to assess temporal changes in cellular inflammation and tissue oedema in patients with acute MI using ultrasmallsuperparamagnetic particles of iron oxide (USPIO)-enhanced MRI.Methods: Thirty-one patients were recruited following acute MI and followed up for 3 months with repeated T2 and USPIO-enhanced T2*-mapping MRI. Regions of interest were categorised into infarct, peri-infarct and remote myocardial zones, and compared with control tissues.Results: Following a single dose, USPIO enhancement was detected in the myocardium until 24 hours (p<0.0001). Histology confirmed colocalisation of iron and macrophages within the infarcted, but not the non-infarcted, myocardium. Following repeated doses, USPIO uptake in the infarct zone peaked at days 2-3, and greater USPIO uptake was detected in the infarct zone compared with remote myocardium until days 10-16 (p<0.05). In contrast, T2-defined myocardial oedema peaked at days 3-9 and remained increased in the infarct zone throughout the 3-month follow-up period (p<0.01).Conclusion: Myocardial macrophage activity can be detected using USPIO-enhanced MRI in the first 2 weeks following acute MI. This observed pattern of cellular inflammation is distinct, and provides complementary information to the more prolonged myocardial oedema detectable using T2 mapping. This imaging technique holds promise as a non-invasive method of assessing and monitoring myocardial cellular inflammation with potential application to diagnosis, risk stratification and assessment of novel anti-inflammatory therapeutic interventions.Trial Registration Number: Trial registration number: 14663. Registered on UK Clinical Research Network (http://public.ukcrn.org.uk) and also ClinicalTrials.gov (https://clinicaltrials.gov/ct2/show/NCT02319278?term=DECIFER&rank=2). [ABSTRACT FROM AUTHOR]

Published

2017