Your search keyword '"Piechnik, Stefan K."' showing total 79 results

1. Diagnostic utility of electrocardiogram for screening of cardiac injury on cardiac magnetic resonance in post-hospitalised COVID-19 patients: a prospective multicenter study

Author

Samat, Azlan Helmy Abd, Cassar, Mark P., Akhtar, Abid M., McCracken, Celeste, Ashkir, Zakariye M., Mills, Rebecca, Moss, Alastair J., Finnigan, Lucy E.M., Lewandowski, Adam J., Mahmod, Masliza, Ogbole, Godwin I., Tunnicliffe, Elizabeth M., Lukaschuk, Elena, Piechnik, Stefan K., Ferreira, Vanessa M., Nikolaidou, Chrysovalantou, Rahman, Najib M., Ho, Ling-Pei, Harris, Victoria C., Singapuri, Amisha, Manisty, Charlotte, O'Regan, Declan P., Weir-McCall, Jonathan R., Steeds, Richard P., LLM, Krisnah Poinasamy, Cuthbertson, Dan J., Kemp, Graham J., Horsley, Alexander, Miller, Christopher A., O'Brien, Caitlin, Chiribiri, Amedeo, Francis, Susan T., Chalmers, James D., Plein, Sven, Poener, Ana-Maria, Wild, James M., Treibel, Thomas A., Marks, Michael, Toshner, Mark, Wain, Louise V., Evans, Rachael A., Brightling, Christopher E., Neubauer, Stefan, McCann, Gerry P., and Raman, Betty

Published

2024

2. Cardiovascular Magnetic Resonance Before Invasive Coronary Angiography in Suspected Non–ST-Segment Elevation Myocardial Infarction.

Author

Shanmuganathan, Mayooran, Nikolaidou, Chrysovalantou, Burrage, Matthew K., Borlotti, Alessandra, Kotronias, Rafail, Scarsini, Roberto, Banerjee, Abhirup, Terentes-Printzios, Dimitrios, Pitcher, Alex, Gara, Edit, Langrish, Jeremy, Lucking, Andrew, Choudhury, Robin, De Maria, Giovanni Luigi, Banning, Adrian, Piechnik, Stefan K., Channon, Keith M., and Ferreira, Vanessa M.

Abstract

In suspected non–ST-segment elevation myocardial infarction (NSTEMI), this presumed diagnosis may not hold true in all cases, particularly in patients with nonobstructive coronary arteries (NOCA). Additionally, in multivessel coronary artery disease, the presumed infarct-related artery may be incorrect. This study sought to assess the diagnostic utility of cardiac magnetic resonance (CMR) before invasive coronary angiogram (ICA) in suspected NSTEMI. A total of 100 consecutive stable patients with suspected acute NSTEMI (70% male, age 62 ± 11 years) prospectively underwent CMR pre-ICA to assess cardiac function (cine), edema (T 2 -weighted imaging, T 1 mapping), and necrosis/scar (late gadolinium enhancement). CMR images were interpreted blinded to ICA findings. The clinical care and ICA teams were blinded to CMR findings until post-ICA. Early CMR (median 33 hours postadmission and 4 hours pre-ICA) confirmed only 52% (52 of 100) of patients had subendocardial infarction, 15% transmural infarction, 18% nonischemic pathologies (myocarditis, takotsubo, and other forms of cardiomyopathies), and 11% normal CMR; 4% were nondiagnostic. Subanalyses according to ICA findings showed that, in patients with obstructive coronary artery disease (73 of 100), CMR confirmed only 84% (61 of 73) had MI, 10% (7 of 73) nonischemic pathologies, and 5% (4 of 73) normal. In patients with NOCA (27 of 100), CMR found MI in only 22% (6 of 27 true MI with NOCA), and reclassified the presumed diagnosis of NSTEMI in 67% (18 of 27: 11 nonischemic pathologies, 7 normal). In patients with CMR-MI and obstructive coronary artery disease (61 of 100), CMR identified a different infarct-related artery in 11% (7 of 61). In patients presenting with suspected NSTEMI, a CMR-first strategy identified MI in 67%, nonischemic pathologies in 18%, and normal findings in 11%. Accordingly, CMR has the potential to affect at least 50% of all patients by reclassifying their diagnosis or altering their potential management. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

3. Deep learning with attention supervision for automated motion artefact detection in quality control of cardiac T1-mapping

Author

Zhang, Qiang, Hann, Evan, Werys, Konrad, Wu, Cody, Popescu, Iulia, Lukaschuk, Elena, Barutcu, Ahmet, Ferreira, Vanessa M., and Piechnik, Stefan K.

Published

2020

4. The Role of Coronary Blood Flow and Myocardial Edema in the Pathophysiology of Takotsubo Syndrome.

Author

Couch, Liam S., Thomas, Katharine E., Marin, Federico, Terentes-Printzios, Dimitrios, Kotronias, Rafail A., Chai, Jason, Lukaschuk, Elena, Shanmuganathan, Mayooran, Kellman, Peter, Langrish, Jeremy P., Channon, Keith M., Neubauer, Stefan, Piechnik, Stefan K., Ferreira, Vanessa M., De Maria, Giovanni Luigi, and Banning, Adrian P.

Published

2024

5. Quantitative CMR population imaging on 20,000 subjects of the UK Biobank imaging study: LV/RV quantification pipeline and its evaluation

Author

Attar, Rahman, Pereañez, Marco, Gooya, Ali, Albà, Xènia, Zhang, Le, de Vila, Milton Hoz, Lee, Aaron M., Aung, Nay, Lukaschuk, Elena, Sanghvi, Mihir M., Fung, Kenneth, Paiva, Jose Miguel, Piechnik, Stefan K., Neubauer, Stefan, Petersen, Steffen E., and Frangi, Alejandro F.

Published

2019

6. Anti-TNF modulation reduces myocardial inflammation and improves cardiovascular function in systemic rheumatic diseases

Author

Ntusi, Ntobeko A.B., Francis, Jane M., Sever, Emily, Liu, Alexander, Piechnik, Stefan K., Ferreira, Vanessa M., Matthews, Paul M., Robson, Matthew D., Wordsworth, Paul B., Neubauer, Stefan, and Karamitsos, Theodoros D.

Published

2018

7. Concurrent Left Ventricular Myocardial Diffuse Fibrosis and Left Atrial Dysfunction Strongly Predict Incident Heart Failure.

Author

Wong, Mark Y.Z., Vargas, Jose D., Naderi, Hafiz, Sanghvi, Mihir M., Raisi-Estabragh, Zahra, Suinesiaputra, Avan, Bonazzola, Rodrigo, Attar, Rahman, Ravikumar, Nishant, Hann, Evan, Neubauer, Stefan, Piechnik, Stefan K., Frangi, Alejandro F., Petersen, Steffen E., and Aung, Nay

Published

2024

8. 3-Dimensional Strain Analysis of Hypertrophic Cardiomyopathy: Insights From the NHLBI International HCM Registry.

Author

Heydari, Bobak, Satriano, Alessandro, Jerosch-Herold, Michael, Kolm, Paul, Kim, Dong-Yun, Cheng, Kathleen, Choi, Yuna L., Antiochos, Panagiotis, White, James A., Mahmod, Masliza, Chan, Kenneth, Raman, Betty, Desai, Milind Y., Ho, Carolyn Y., Dolman, Sarahfaye F., Desvigne-Nickens, Patrice, Maron, Martin S., Friedrich, Matthias G., Schulz-Menger, Jeanette, and Piechnik, Stefan K.

Abstract

Abnormal global longitudinal strain (GLS) has been independently associated with adverse cardiac outcomes in both obstructive and nonobstructive hypertrophic cardiomyopathy. The goal of this study was to understand predictors of abnormal GLS from baseline data from the National Heart, Lung, and Blood Institute (NHLBI) Hypertrophic Cardiomyopathy Registry (HCMR). The study evaluated comprehensive 3-dimensional left ventricular myocardial strain from cine cardiac magnetic resonance in 2,311 patients from HCMR using in-house validated feature-tracking software. These data were correlated with other imaging markers, serum biomarkers, and demographic variables. Abnormal median GLS (> –11.0%) was associated with higher left ventricular (LV) mass index (93.8 ± 29.2 g/m2 vs 75.1 ± 19.7 g/m2; P < 0.0001) and maximal wall thickness (21.7 ± 5.2 mm vs 19.3 ± 4.1 mm; P < 0.0001), lower left (62% ± 9% vs 66% ± 7%; P < 0.0001) and right (68% ± 11% vs 69% ± 10%; P < 0.01) ventricular ejection fractions, lower left atrial emptying functions (P < 0.0001 for all), and higher presence and myocardial extent of late gadolinium enhancement (6 SD and visual quantification; P < 0.0001 for both). Elastic net regression showed that adjusted predictors of GLS included female sex, Black race, history of syncope, presence of systolic anterior motion of the mitral valve, reverse curvature and apical morphologies, LV ejection fraction, LV mass index, and both presence/extent of late gadolinium enhancement and baseline N-terminal pro–B-type natriuretic peptide and troponin levels. Abnormal strain in hypertrophic cardiomyopathy is associated with other imaging and serum biomarkers of increased risk. Further follow-up of the HCMR cohort is needed to understand the independent relationship between LV strain and adverse cardiac outcomes in hypertrophic cardiomyopathy. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2023

9. Incident Clinical and Mortality Associations of Myocardial Native T1 in the UK Biobank.

Author

Raisi-Estabragh, Zahra, McCracken, Celeste, Hann, Evan, Condurache, Dorina-Gabriela, Harvey, Nicholas C., Munroe, Patricia B., Ferreira, Vanessa M., Neubauer, Stefan, Piechnik, Stefan K., and Petersen, Steffen E.

Abstract

Cardiac magnetic resonance native T1-mapping provides noninvasive, quantitative, and contrast-free myocardial characterization. However, its predictive value in population cohorts has not been studied. The associations of native T1 with incident events were evaluated in 42,308 UK Biobank participants over 3.17 ± 1.53 years of prospective follow-up. Native T1-mapping was performed in 1 midventricular short-axis slice using the Shortened Modified Look-Locker Inversion recovery technique (WIP780B) in 1.5-T scanners (Siemens Healthcare). Global myocardial T1 was calculated using an automated tool. Associations of T1 with: 1) prevalent risk factors (eg, diabetes, hypertension, and high cholesterol); 2) prevalent and incident diseases (eg, any cardiovascular disease [CVD], any brain disease, valvular heart disease, heart failure, nonischemic cardiomyopathies, cardiac arrhythmias, atrial fibrillation [AF], myocardial infarction, ischemic heart disease [IHD], and stroke); and 3) mortality (eg, all-cause, CVD, and IHD) were examined. Results are reported as odds ratios (ORs) or HRs per SD increment of T1 value with 95% CIs and corrected P values, from logistic and Cox proportional hazards regression models. Higher myocardial T1 was associated with greater odds of a range of prevalent conditions (eg, any CVD, brain disease, heart failure, nonischemic cardiomyopathies, AF, stroke, and diabetes). The strongest relationships were with heart failure (OR: 1.41 [95% CI: 1.26-1.57]; P = 1.60 × 10-9) and nonischemic cardiomyopathies (OR: 1.40 [95% CI: 1.16-1.66]; P = 2.42 × 10-4). Native T1 was positively associated with incident AF (HR: 1.25 [95% CI: 1.10-1.43]; P = 9.19 × 10-4), incident heart failure (HR: 1.47 [95% CI: 1.31-1.65]; P = 4.79 × 10-11), all-cause mortality (HR: 1.24 [95% CI: 1.12-1.36]; P = 1.51 × 10-5), CVD mortality (HR: 1.40 [95% CI: 1.14-1.73]; P = 0.0014), and IHD mortality (HR: 1.36 [95% CI: 1.03-1.80]; P = 0.0310). This large population study demonstrates the utility of myocardial native T1-mapping for disease discrimination and outcome prediction. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2023

10. Acute Response in the Noninfarcted Myocardium Predicts Long-Term Major Adverse Cardiac Events After STEMI.

Author

Shanmuganathan, Mayooran, Masi, Ambra, Burrage, Matthew K., Kotronias, Rafail A., Borlotti, Alessandra, Scarsini, Roberto, Banerjee, Abhirup, Terentes-Printzios, Dimitrios, Zhang, Qiang, Hann, Evan, Tunnicliffe, Elizabeth, Lucking, Andrew, Langrish, Jeremy, Kharbanda, Rajesh, De Maria, Giovanni Luigi, Banning, Adrian P., Choudhury, Robin P., Channon, Keith M., Piechnik, Stefan K., and Ferreira, Vanessa M.

Abstract

Acute ST-segment elevation myocardial infarction (STEMI) has effects on the myocardium beyond the immediate infarcted territory. However, pathophysiologic changes in the noninfarcted myocardium and their prognostic implications remain unclear. The purpose of this study was to evaluate the long-term prognostic value of acute changes in both infarcted and noninfarcted myocardium post-STEMI. Patients with acute STEMI undergoing primary percutaneous coronary intervention underwent evaluation with blood biomarkers and cardiac magnetic resonance (CMR) at 2 days and 6 months, with long-term follow-up for major adverse cardiac events (MACE). A comprehensive CMR protocol included cine, T2-weighted, T2∗, T1-mapping, and late gadolinium enhancement (LGE) imaging. Areas without LGE were defined as noninfarcted myocardium. MACE was a composite of cardiac death, sustained ventricular arrhythmia, and new-onset heart failure. Twenty-two of 219 patients (10%) experienced an MACE at a median of 4 years (IQR: 2.5-6.0 years); 152 patients returned for the 6-month visit. High T1 (>1250 ms) in the noninfarcted myocardium was associated with lower left ventricular ejection fraction (LVEF) (51% ± 8% vs 55% ± 9%; P = 0.002) and higher NT-pro-BNP levels (290 pg/L [IQR: 103-523 pg/L] vs 170 pg/L [IQR: 61-312 pg/L]; P = 0.008) at 6 months and a 2.5-fold (IQR: 1.03-6.20) increased risk of MACE (2.53 [IQR: 1.03-6.22]), compared with patients with normal T1 in the noninfarcted myocardium (P = 0.042). A lower T1 (<1,300 ms) in the infarcted myocardium was associated with increased MACE (3.11 [IQR: 1.19-8.13]; P = 0.020). Both noninfarct and infarct T1 were independent predictors of MACE (both P = 0.001) and significantly improved risk prediction beyond LVEF, infarct size, and microvascular obstruction (C-statistic: 0.67 ± 0.07 vs 0.76 ± 0.06, net-reclassification index: 40% [IQR: 12%-64%]; P = 0.007). The acute responses post-STEMI in both infarcted and noninfarcted myocardium are independent incremental predictors of long-term MACE. These insights may provide new opportunities for treatment and risk stratification in STEMI. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2023

11. Mitral Annular Disjunction Assessed Using CMR Imaging: Insights From the UK Biobank Population Study.

Author

Zugwitz, Dasa, Fung, Kenneth, Aung, Nay, Rauseo, Elisa, McCracken, Celeste, Cooper, Jackie, El Messaoudi, Saloua, Anderson, Robert H., Piechnik, Stefan K., Neubauer, Stefan, Petersen, Steffen E., and Nijveldt, Robin

Abstract

Mitral annular disjunction is the atrial displacement of the mural mitral valve leaflet hinge point within the atrioventricular junction. Said to be associated with malignant ventricular arrhythmias and sudden death, its prevalence in the general population is not known. The purpose of this study was to assess the frequency of occurrence and extent of mitral annular disjunction in a large population cohort. The authors assessed the cardiac magnetic resonance (CMR) images in 2,646 Caucasian subjects enrolled in the UK Biobank imaging study, measuring the length of disjunction at 4 points around the mitral annulus, assessing for presence of prolapse or billowing of the leaflets, and for curling motion of the inferolateral left ventricular wall. From 2,607 included participants, the authors found disjunction in 1,990 (76%) cases, most commonly at the anterior and inferior ventricular wall. The authors found inferolateral disjunction, reported as clinically important, in 134 (5%) cases. Prolapse was more frequent in subjects with disjunction (odds ratio [OR]: 2.5; P = 0.02), with positive associations found between systolic curling and disjunction at any site (OR: 3.6; P < 0.01), and systolic curling and prolapse (OR: 71.9; P < 0.01). This large-scale study shows that disjunction is a common finding when using CMR. Disjunction at the inferolateral ventricular wall, however, was rare. The authors found associations between disjunction and both prolapse and billowing of the mural mitral valve leaflet. These findings support the notion that only extensive inferolateral disjunction, when found, warrants consideration of further investigation, but disjunction elsewhere in the annulus should be considered a normal finding. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2022

12. Cardiovascular magnetic resonance reference values of mitral and tricuspid annular dimensions: the UK Biobank cohort.

Author

Ricci, Fabrizio, Aung, Nay, Gallina, Sabina, Zemrak, Filip, Fung, Kenneth, Bisaccia, Giandomenico, Paiva, Jose Miguel, Khanji, Mohammed Y., Mantini, Cesare, Palermi, Stefano, Lee, Aaron M., Piechnik, Stefan K., Neubauer, Stefan, and Petersen, Stefen E.

Abstract

Background: Mitral valve (MV) and tricuspid valve (TV) apparatus geometry are essential to define mechanisms and etiologies of regurgitation and to inform surgical or transcatheter interventions. Given the increasing use of cardiovascular magnetic resonance (CMR) for the evaluation of valvular heart disease, we aimed to establish CMR-derived age- and sex-specific reference values for mitral annular (MA) and tricuspid annular (TA) dimensions and tethering indices derived from truly healthy Caucasian adults.Methods: 5065 consecutive UK Biobank participants underwent CMR using cine balanced steady-state free precession imaging at 1.5 T. Participants with non-Caucasian ethnicity, prevalent cardiovascular disease and other conditions known to affect cardiac chamber size and function were excluded. Absolute and indexed reference ranges for MA and TA diameters and tethering indices were stratified by gender and age (45–54, 55–64, 65–74 years).Results: Overall, 721 (14.2%) truly healthy participants aged 45–74 years (54% women) formed the reference cohort. Absolute MA and TA diameters, MV tenting length and MV tenting area, were significantly larger in men. Mean ± standard deviation (SD) end-diastolic and end-systolic MA diameters in the 3-chamber view (anteroposterior diameter) were 2.9 ± 0.4 cm (1.5 ± 0.2 cm/m2) and 3.3 ± 0.4 cm (1.7 ± 0.2 cm/m2) in men, and 2.6 ± 0.4 cm (1.6 ± 0.2 cm/m2) and 3.0 ± 0.4 cm (1.8 ± 0.2 cm/m2) in women, respectively. Mean ± SD end-diastolic and end-systolic TA diameters in the 4-chamber view were 3.2 ± 0.5 cm (1.6 ± 0.3 cm/m2) and 3.2 ± 0.5 cm (1.7 ± 0.3 cm/m2) in men, and 2.9 ± 0.4 cm (1.7 ± 0.2 cm/m2) and 2.8 ± 0.4 cm (1.7 ± 0.3 cm/m2) in women, respectively. With advancing age, end-diastolic TA diameter became larger and posterior MV leaflet angle smaller in both sexes. Reproducibility of measurements was good to excellent with an inter-rater intraclass correlation coefficient (ICC) between 0.92 and 0.98 and an intra-rater ICC between 0.90 and 0.97.Conclusions: We described age- and sex-specific reference ranges of MA and TA dimensions and tethering indices in the largest validated healthy Caucasian population. Reference ranges presented in this study may help to improve the distinction between normal and pathological states, prompting the identification of subjects that may benefit from advanced cardiac imaging for annular sizing and planning of valvular interventions. [ABSTRACT FROM AUTHOR]

Published

2020

13. Total Mapping Toolbox (TOMATO): An open source library for cardiac magnetic resonance parametric mapping

Author

Werys, Konrad, Dragonu, Iulius, Zhang, Qiang, Popescu, Iulia, Hann, Evan, Puchta, Henrike, Kubik, Agata, Polat, Dogan, Wu, Cody, Moon, Niall O., Barutcu, Ahmet, Ferreira, Vanessa M., and Piechnik, Stefan K.

Published

2020

14. Association Between Recreational Cannabis Use and Cardiac Structure and Function.

Author

Khanji, Mohammed Y., Jensen, Magnus T., Kenawy, Asmaa A., Raisi-Estabragh, Zahra, Paiva, Jose M., Aung, Nay, Fung, Kenneth, Lukaschuk, Elena, Zemrak, Filip, Lee, Aaron M., Barutcu, Ahmet, Maclean, Edd, Cooper, Jackie, Piechnik, Stefan K., Neubauer, Stefan, and Petersen, Steffen E.

Published

2020

15. Adenosine stress CMR T1-mapping detects early microvascular dysfunction in patients with type 2 diabetes mellitus without obstructive coronary artery disease.

Author

Levelt, Eylem, Piechnik, Stefan K., Liu, Alexander, Wijesurendra, Rohan S., Mahmod, Masliza, Ariga, Rina, Francis, Jane M., Greiser, Andreas, Clarke, Kieran, Neubauer, Stefan, Ferreira, Vanessa M., and Karamitsos, Theodoros D.

Subjects

ADENOSINES, TYPE 2 diabetes, PAPER chromatography, PEPTIDES, RESEARCH funding, DATA analysis software, DESCRIPTIVE statistics

Abstract

Background: Type 2 diabetes mellitus (T2DM) is associated with coronary microvascular dysfunction in the absence of obstructive coronary artery disease (CAD). Cardiovascular magnetic resonance (CMR) T1-mapping at rest and during adenosine stress can assess coronary vascular reactivity. We hypothesised that the non-contrast T1 response to vasodilator stress will be altered in patients with T2DM without CAD compared to controls due to coronary microvascular dysfunction. Methods: Thirty-one patients with T2DM and sixteen matched healthy controls underwent CMR (3 T) for cine, rest and adenosine stress non-contrast T1-mapping (ShMOLLI), first-pass perfusion and late gadolinium enhancement (LGE) imaging. Significant CAD (>50% coronary luminal stenosis) was excluded in all patients by coronary computed tomographic angiography. Results: All subjects had normal left ventricular (LV) ejection and LV mass index, with no LGE. Myocardial perfusion reserve index (MPRI) was lower in T2DM than in controls (1.60 ± 0.44 vs 2.01 ± 0.42; p = 0.008). There was no difference in rest native T1 values (p = 0.59). During adenosine stress, T1 values increased significantly in both T2DM patients (from 1196 ± 32 ms to 1244 ± 44 ms, p < 0.001) and controls (from 1194 ± 26 ms to 1273 ± 44 ms, p < 0. 001). T2DM patients showed blunted relative stress non-contrast T1 response (T2DM: ΔT1 = 4.1 ± 2.9% vs. controls: ΔT1 = 6.6 ± 2.6%, p = 0.007) due to a blunted maximal T1 during adenosine stress (T2DM 1244 ± 44 ms vs. controls 1273 ± 44 ms, p = 0.045). Conclusions: Patients with well controlled T2DM, even in the absence of arterial hypertension and significant CAD, exhibit blunted maximal non-contrast T1 response during adenosine vasodilatory stress, likely reflecting coronary microvascular dysfunction. Adenosine stress and rest T1 mapping can detect subclinical abnormalities of the coronary microvasculature, without the need for gadolinium contrast agents. CMR may identify early features of the diabetic heart phenotype and subclinical cardiac risk markers in patients with T2DM, providing an opportunity for early therapeutic intervention. [ABSTRACT FROM AUTHOR]

Published

2017

16. Editorial Expression of Concern: Splenic T1-mapping: a novel quantitative method for assessing adenosine stress adequacy for cardiovascular magnetic resonance.

Author

Liu, Alexander, Wijesurendra, Rohan S., Ariga, Rina, Mahmod, Masliza, Levelt, Eylem, Greiser, Andreas, Petrou, Mario, Krasopoulos, George, Forfar, John C., Kharbanda, Rajesh K., Channon, Keith M., Neubauer, Stefan, Piechnik, Stefan K., and Ferreira, Vanessa M.

Abstract

The article presents the concerns raised regarding the data in the article "Splenic T1-mapping: a novel quantitative method for assessing adenosine stress adequacy for cardiovascular magnetic resonance."

Published

2023

17. Measurement of myocardial native T1 in cardiovascular diseases and norm in 1291 subjects.

Author

Liu, Joanna M., Liu, Alexander, Leal, Joana, McMillan, Fiona, Francis, Jane, Greiser, Andreas, Rider, Oliver J., Myerson, Saul, Neubauer, Stefan, Ferreira, Vanessa M., and Piechnik, Stefan K.

Subjects

CARDIOMYOPATHIES, CARDIAC hypertrophy, MYOCARDIUM, BODY surface mapping, CARDIOVASCULAR diseases, REPORTING of diseases, REFERENCE values, CONTRAST media, DATA analysis software, DESCRIPTIVE statistics, ANATOMY, DIAGNOSIS

Abstract

Background: Native T1-mapping provides quantitative myocardial tissue characterization for cardiovascular diseases (CVD), without the need for gadolinium. However, its translation into clinical practice is hindered by differences between techniques and the lack of established reference values. We provide typical myocardial T1-ranges for 18 commonly encountered CVDs using a single T1-mapping technique - Shortened Look-Locker Inversion Recovery (ShMOLLI), also used in the large UK Biobank and Hypertrophic Cardiomyopathy Registry study. Methods: We analyzed 1291 subjects who underwent CMR (1.5-Tesla, MAGNETOM-Avanto, Siemens Healthcare, Erlangen, Germany) between 2009 and 2016, who had a single CVD diagnosis, with mid-ventricular T1-map assessment. A region of interest (ROI) was placed on native T1-maps in the "most-affected myocardium", characterized by the presence of late gadolinium enhancement (LGE), or regional wall motion abnormalities (RWMA) on cines. Another ROI was placed in the "reference myocardium" as far as possible from LGE/RWMA, and in the septum if no focal abnormality was present. To further define normality, we included native T1 of healthy subjects from an existing dataset after sub-endocardial pixelerosions. Results: Native T1 of patients with normal CMR (938 ± 21 ms) was similar compared to healthy subjects (941 ± 23 ms). Across all patient groups (57 ± 19 yrs., 65% males), focally affected myocardium had significantly different T1 value compared to reference myocardium (all p < 0.001). In the affected myocardium, cardiac amyloidosis (1119 ± 61 ms) had the highest native T1 compared to normal and all other CVDs, while iron-overload (795 ± 58 ms) and Anderson-Fabry disease (863 ± 23 ms) had the lowest native reference T1 (all p < 0.001). Future studies designed to detect the large T1 differences between affected and reference myocardium are estimated to require small sample-sizes (n < 50). However, studies designed to detect the small T1 differences between reference myocardium in CVDs and healthy controls can require several thousand of subjects. Conclusions: We provide typical T1-ranges for common clinical cardiac conditions in the largest cohort to-date, using ShMOLLI T1-mapping at 1.5 T. Sample-size calculations from this study may be useful for the design of future studies and trials that use T1-mapping as an endpoint. [ABSTRACT FROM AUTHOR]

Published

2017

18. Reference ranges for cardiac structure and function using cardiovascular magnetic resonance (CMR) in Caucasians from the UK Biobank population cohort.

Author

Petersen, Steffen E., Nay Aung, Sanghvi, Mihir M., Zemrak, Filip, Fung, Kenneth, Miguel Paiva, Jose, Francis, Jane M., Khanji, Mohammed Y., Lukaschuk, Elena, Lee, Aaron M., Carapella, Valentina, Young Jin Kim, Leeson, Paul, Piechnik, Stefan K., and Neubauer, Stefan

Subjects

HEART atrium, HEART ventricles, AGE distribution, STATISTICAL correlation, LEFT heart ventricle, HEART physiology, RIGHT heart ventricle, MAGNETIC resonance imaging, REFERENCE values, RESEARCH funding, SEX distribution, T-test (Statistics), WHITE people, DATA analysis software, STROKE volume (Cardiac output), INTRACLASS correlation, PHYSIOLOGY, ANATOMY

Abstract

Background: Cardiovascular magnetic resonance (CMR) is the gold standard method for the assessment of cardiac structure and function. Reference ranges permit differentiation between normal and pathological states. To date, this study is the largest to provide CMR specific reference ranges for left ventricular, right ventricular, left atrial and right atrial structure and function derived from truly healthy Caucasian adults aged 45-74. Methods: Five thousand sixty-five UK Biobank participants underwent CMR using steady-state free precession imaging at 1.5 Tesla. Manual analysis was performed for all four cardiac chambers. Participants with non-Caucasian ethnicity, known cardiovascular disease and other conditions known to affect cardiac chamber size and function were excluded. Remaining participants formed the healthy reference cohort; reference ranges were calculated and were stratified by gender and age (45-54, 55-64, 65-74). Results: After applying exclusion criteria, 804 (16.²%) participants were available for analysis. Left ventricular (LV) volumes were larger in males compared to females for absolute and indexed values. With advancing age, LV volumes were mostly smaller in both sexes. LV ejection fraction was significantly greater in females compared to males (mean ± standard deviation [SD] of 61 ± 5% vs 58 ± 5%) and remained static with age for both genders. In older age groups, LV mass was lower in men, but remained virtually unchanged in women. LV mass was significantly higher in males compared to females (mean ± SD of 53 ± 9 g/m² vs 4² ± 7 g/m²). Right ventricular (RV) volumes were significantly larger in males compared to females for absolute and indexed values and were smaller with advancing age. RV ejection fraction was higher with increasing age in females only. Left atrial (LA) maximal volume and stroke volume were significantly larger in males compared to females for absolute values but not for indexed values. LA ejection fraction was similar for both sexes. Right atrial (RA) maximal volume was significantly larger in males for both absolute and indexed values, while RA ejection fraction was significantly higher in females. Conclusions: We describe age- and sex-specific reference ranges for the left ventricle, right ventricle and atria in the largest validated normal Caucasian population. [ABSTRACT FROM AUTHOR]

Published

2017

19. Splenic T1-mapping: a novel quantitative method for assessing adenosine stress adequacy for cardiovascular magnetic resonance.

Author

Liu, Alexander, Wijesurendra, Rohan S., Ariga, Rina, Mahmod, Masliza, Levelt, Eylem, Greiser, Andreas, Petrou, Mario, Krasopoulos, George, Forfar, John C., Kharbanda, Rajesh K., Channon, Keith M., Neubauer, Stefan, Piechnik, Stefan K., and Ferreira, Vanessa M.

Subjects

MYOCARDIAL infarction diagnosis, ADENOSINES, ANALYSIS of variance, BLOOD circulation, COMPARATIVE studies, CONFIDENCE intervals, STATISTICAL correlation, HEART diseases, MAGNETIC resonance imaging, PERFUSION, PROBABILITY theory, RADIONUCLIDE imaging, RESEARCH evaluation, RESEARCH funding, SPLEEN, STATISTICS, T-test (Statistics), DECISION making in clinical medicine, DATA analysis, PREDICTIVE tests, INTER-observer reliability, CONTRAST media, RETROSPECTIVE studies, RECEIVER operating characteristic curves, DATA analysis software, DESCRIPTIVE statistics, INTRACLASS correlation

Abstract

Background: Perfusion cardiovascular magnetic resonance (CMR) performed with inadequate adenosine stress leads to false-negative results and suboptimal clinical management. The recently proposed marker of adequate stress, the "splenic switch-off" sign, detects splenic blood flow attenuation during stress perfusion (spleen appears dark), but can only be assessed after gadolinium first-pass, when it is too late to optimize the stress response. Reduction in splenic blood volume during adenosine stress is expected to shorten native splenic T1, which may predict splenic switch-off without the need for gadolinium. Methods: Two-hundred and twelve subjects underwent adenosine stress CMR: 1.5 T (n = 104; 75 patients, 29 healthy controls); 3 T (n = 108; 86 patients, 22 healthy controls). Native T1spleen was assessed using heart-rate-independent ShMOLLI prototype sequence at rest and during adenosine stress (140 µg/kg/min, 4 min, IV) in 3 short-axis slices (basal, mid-ventricular, apical). This was compared with changes in peak splenic perfusion signal intensity (ΔSIspleen) and the "splenic switch-off" sign on conventional stress/rest gadolinium perfusion imaging. T1spleen values were obtained blinded to perfusion ΔSIspleen, both were derived using regions of interest carefully placed to avoid artefacts and partial-volume effects. Results: Normal resting splenic T1 values were 1102 ± 66 ms (1.5 T) and 1352 ± 114 ms (3 T), slightly higher than in patients (1083 ± 59 ms, p = 0.04; 1295 ± 105 ms, p =0.01, respectively). T1spleen decreased significantly during adenosine stress (mean ΔSIspleen ~ -40 ms), independent of field strength, age, gender, and cardiovascular diseases. While ΔSIspleen correlated strongly with ΔSIspleen (rho = 0.70, p < 0.0001); neither indices showed significant correlations with conventional hemodynamic markers (rate pressure product) during stress. By ROC analysis, a ΔSIspleen threshold of = -30 ms during stress predicted the "splenic switch-off" sign (AUC 0.90, p < 0.0001) with sensitivity (90%), specificity (88%), accuracy (90%), PPV (98%), NPV (42%). Conclusions: Adenosine stress and rest splenic T1-mapping is a novel method for assessing stress responses, independent of conventional hemodynamic parameters. It enables prediction of the visual "splenic switch-off" sign without the need for gadolinium, and correlates well to changes in splenic signal intensity during stress/rest perfusion imaging. ΔSIspleen holds promise to facilitate optimization of stress responses before gadolinium first-pass perfusion CMR. [ABSTRACT FROM AUTHOR]

Published

2017

20. The Effect of Blood Composition on T1 Mapping.

Author

Rosmini, Stefania, Bulluck, Heerajnarain, Abdel-Gadir, Amna, Treibel, Thomas A., Culotta, Veronica, Thompson, Richard, Piechnik, Stefan K., Kellman, Peter, Manisty, Charlotte, and Moon, James C.

Published

2019

21. Adenosine Stress and Rest T1 Mapping Can Differentiate Between Ischemic, Infarcted, Remote, and Normal Myocardium Without the Need for Gadolinium Contrast Agents.

Author

Liu, Alexander, Wijesurendra, Rohan S., Francis, Jane M., Robson, Matthew D., Neubauer, Stefan, Piechnik, Stefan K., and Ferreira, Vanessa M.

Abstract

Objectives The aim of this study was to evaluate the potential of T1 mapping at rest and during adenosine stress as a novel method for ischemia detection without the use of gadolinium contrast. Background In chronic coronary artery disease (CAD), accurate detection of ischemia is important because targeted revascularization improves clinical outcomes. Myocardial blood volume (MBV) may be a more comprehensive marker of ischemia than myocardial blood flow. T1 mapping using cardiac magnetic resonance (CMR) is highly sensitive to changes in myocardial water content, including MBV. We propose that T1 mapping at rest and during adenosine vasodilatory stress can detect MBV changes in normal and diseased myocardium in CAD. Methods Twenty normal controls (10 at 1.5-T; 10 at 3.0-T) and 10 CAD patients (1.5-T) underwent conventional CMR to assess for left ventricular function (cine), infarction (late gadolinium enhancement [LGE]) and ischemia (myocardial perfusion reserve index [MPRI] on first-pass perfusion imaging during adenosine stress). These were compared to novel pre-contrast stress/rest T1 mapping using the Shortened Modified Look-Locker Inversion recovery technique, which is heart rate independent. T1 values were derived for normal myocardium in controls and for infarcted, ischemic, and remote myocardium in CAD patients. Results Normal myocardium in controls (normal wall motion, MPRI, no LGE) showed normal resting T1 (954 ± 19 ms at 1.5-T; 1,189 ± 34 ms at 3.0-T) and significant positive T1 reactivity during adenosine stress compared to baseline (6.2 ± 0.5% at 1.5-T; 6.3 ± 1.1% at 3.0-T; all p < 0.0001). Infarcted myocardium showed the highest resting T1 of all tissue classes (1,442 ± 84 ms), without significant T1 reactivity (0.2 ± 1.5%). Ischemic myocardium showed elevated resting T1 compared to normal (987 ± 17 ms; p < 0.001) without significant T1 reactivity (0.2 ± 0.8%). Remote myocardium, although having comparable resting T1 to normal (955 ± 17 ms; p = 0.92), showed blunted T1 reactivity (3.9 ± 0.6%; p < 0.001). Conclusions T1 mapping at rest and during adenosine stress can differentiate between normal, infarcted, ischemic, and remote myocardium with distinctive T1 profiles. Stress/rest T1 mapping holds promise for ischemia detection without the need for gadolinium contrast. [ABSTRACT FROM AUTHOR]

Published

2016

22. Automatic Measurement of the Myocardial Interstitium: Synthetic Extracellular Volume Quantification Without Hematocrit Sampling.

Author

Treibel, Thomas A., Fontana, Marianna, Maestrini, Viviana, Castelletti, Silvia, Rosmini, Stefania, Simpson, Joanne, Nasis, Arthur, Bhuva, Anish N., Bulluck, Heerajnarain, Abdel-Gadir, Amna, White, Steven K., Manisty, Charlotte, Spottiswoode, Bruce S., Wong, Timothy C., Piechnik, Stefan K., Kellman, Peter, Robson, Matthew D., Schelbert, Erik B., and Moon, James C.

Abstract

Objectives The authors sought to generate a synthetic extracellular volume fraction (ECV) from the relationship between hematocrit and longitudinal relaxation rate of blood. Background ECV quantification by cardiac magnetic resonance (CMR) measures diagnostically and prognostically relevant changes in the extracellular space. Current methodologies require blood hematocrit (Hct) measurement—a complication to easy clinical application. We hypothesized that the relationship between Hct and longitudinal relaxation rate of blood (R1 = 1/T1 blood ) could be calibrated and used to generate a synthetic ECV without Hct that was valid, user-friendly, and prognostic. Methods Proof-of-concept: 427 subjects with a wide range of health and disease were divided into derivation (n = 214) and validation (n = 213) cohorts. Histology cohort: 18 patients with severe aortic stenosis with histology obtained during valve replacement. Outcome cohort: For comparison with external outcome data, we applied synthetic ECV to 1,172 consecutive patients (median follow-up 1.7 years; 74 deaths). All underwent CMR scanning at 1.5-T with ECV calculation from pre- and post-contrast T1 (blood and myocardium) and venous Hct. Results Proof-of-concept: In the derivation cohort, native R1 blood and Hct showed a linear relationship (R 2 = 0.51; p < 0.001), which was used to create synthetic Hct and ECV. Synthetic ECV correlated well with conventional ECV (R 2 = 0.97; p < 0.001) without bias. These results were maintained in the validation cohort. Histology cohort: Synthetic and conventional ECV both correlated well with collagen volume fraction measured from histology (R 2 = 0.61 and 0.69, both p < 0.001) with no statistical difference (p = 0.70). Outcome cohort: Synthetic ECV related to all-cause mortality (hazard ratio 1.90; 95% confidence interval 1.55 to 2.31; for every 5% increase in ECV). Finally, we engineered a synthetic ECV tool, generating automatic ECV maps during image acquisition. Conclusions Synthetic ECV provides validated noninvasive quantification of the myocardial extracellular space without blood sampling and is associated with cardiovascular outcomes. [ABSTRACT FROM AUTHOR]

Published

2016

23. Systolic ShMOLLI myocardial T1-mapping for improved robustness to partial-volume effects and applications in tachyarrhythmias.

Author

Ferreira, Vanessa M., Wijesurendra, Rohan S., Liu, Alexander, Greiser, Andreas, Casadei, Barbara, Robson, Matthew D., Neubauer, Stefan, and Piechnik, Stefan K.

Subjects

RESEARCH funding, SEX distribution, SINOATRIAL node, TACHYCARDIA, DATA analysis software, DESCRIPTIVE statistics, KRUSKAL-Wallis Test

Abstract

Background: T1-mapping using the Shortened Modified Look-Locker Inversion Recovery (ShMOLLI) technique enables non-invasive assessment of important myocardial tissue characteristics. However, tachyarrhythmia may cause mistriggering and inaccurate T1 estimation. We set out to test whether systolic T1-mapping might overcome this, and whether T1 values or data quality would be significantly different compared to conventional diastolic T1-mapping. Methods: Native T1 maps were acquired using ShMOLLI at 1.5 T (Magnetom Avanto, Siemens Healthcare) in 10 healthy volunteers (5 male) in sinus rhythm, at varying prescribed trigger delay (TD) times: 0, 50, 100 and 150 ms (all "systolic"), 340 ms (MOLLI TD 500 ms, the conventional TD for ShMOLLI) and also "end diastolic". T1 maps were also acquired using a shorter readout, to explore the effect of reducing image readout time and sensitivity to systolic motion. The feasibility and image quality of systolic T1-mapping was tested in 15 patients with tachyarrhythmia ( = 13 atrial fibrillation, = 2 sinus tachycardia; mean HR range 93-121 bpm). n n Results: In healthy volunteers, systolic readout increased the thickness of myocardium compared to the diastolic readout. There was a small overall effect of TD on T1 values ( = 0.04), with slightly shorter T1 values in systole p compared to diastole (maximum difference 10 ms). While there were apparent gender differences (with no effect of TD on T1 values in males, more marked differences in females, and exaggeration of this effect in thinner myocardial segments in females), dilatation and erosion of contours suggested that the effect of TD on T1 in females was almost entirely due to more partial-volume effects in diastole. All T1 maps were of excellent quality, but systolic TD and shorter readout were associated with less variability in segmental T1 values. In tachycardic patients, systolic acquisitions produced consistently excellent T1 maps (median R² = 0.993). Conclusions: In healthy volunteers, systolic ShMOLLI T1-mapping reduces T1 variability and reports clinically equivalent T1 values to conventional diastolic readout; slightly shorter T1 values in systole are mostly explained by reduced partial-volume effects due to the increase in functional myocardial thickness. In patients with tachyarrhythmia, systolic ShMOLLI T1-mapping is feasible, circumvents mistriggering and produces excellent quality T1 maps. This extends its clinical applicability to challenging rhythms (such as rapid atrial fibrillation) and aids the investigation of thinner myocardial segments. With further validation, systolic T1-mapping may become a new and convenient standard for myocardial T1-mapping. [ABSTRACT FROM AUTHOR]

Published

2015

24. Reproducibility of native myocardial T1 mapping in the assessment of Fabry disease and its role in early detection of cardiac involvement by cardiovascular magnetic resonance.

Author

Pica, Silvia, Sado, Daniel M., Maestrini, Viviana, Fontana, Marianna, White, Steven K., Treibel, Thomas, Captur, Gabriella, Anderson, Sarah, Piechnik, Stefan K., Robson, Matthew D., Lachmann, Robin H., Murphy, Elaine, Mehta, Atul, Hughes, Derralyn, Kellman, Peter, Elliott, Perry M., Herrey, Anna S., and Moon, James C.

Subjects

ANGIOKERATOMA corporis diffusum, LEFT ventricular hypertrophy, AGE distribution, AGE factors in disease, DIASTOLE (Cardiac cycle), ECHOCARDIOGRAPHY, ELECTROCARDIOGRAPHY, CARDIAC contraction, MAGNETIC resonance imaging, RESEARCH evaluation, SEX distribution, INTER-observer reliability, EARLY diagnosis, GENOTYPES, INTRACLASS correlation, GENETICS, DIAGNOSIS

Abstract

Background: Cardiovascular magnetic resonance (CMR) derived native myocardial T1 is decreased in patients with Fabry disease even before left ventricular hypertrophy (LVH) occurs and may be the first non-invasive measure of myocyte sphingolipid storage. The relationship of native T1 lowering prior to hypertrophy and other candidate early phenotype markers are unknown. Furthermore, the reproducibility of T1 mapping has never been assessed in Fabry disease. Methods: Sixty-three patients, 34 (54%) female, mean age 48 ± 15 years with confirmed (genotyped) Fabry disease underwent CMR, ECG and echocardiographic assessment. LVH was absent in 25 (40%) patients. Native T1 mapping was performed with both Modified Look-Locker Inversion recovery (MOLLI) sequences and a shortened version (ShMOLLI) at 1.5 Tesla. Twenty-one patients underwent a second scan within 24 hours to assess inter-study reproducibility. Results were compared with 63 healthy age and gender-matched volunteers. Results: Mean native T1 in Fabry disease (LVH positive), (LVH negative) and healthy volunteers was 853 ± 50 ms, 904 ± 46 ms and 968 ± 32 ms (for all p < 0.0001) by ShMOLLI sequences. Native T1 showed high inter-study, intra-observer and inter-observer agreement with intra-class correlation coefficients (ICC) of 0.99, 0.98, 0.97 (ShMOLLI) and 0.98, 0.98, 0.98 (MOLLI). In Fabry disease LVH negative individuals, low native T1 was associated with reduced echocardiographic-based global longitudinal speckle tracking strain (-18 ± 2% vs -22 ± 2%, p = 0.001) and early diastolic function impairment (E/E' = 7 [6-8] vs 5 [5-6], p = 0.028). Conclusion: Native T1 mapping in Fabry disease is a reproducible technique. T1 reduction prior to the onset of LVH is associated with early diastolic and systolic changes measured by echocardiography. [ABSTRACT FROM AUTHOR]

Published

2014

25. Adenosine stress native T1 mapping in severe aortic stenosis: evidence for a role of the intravascular compartment on myocardial T1 values.

Author

Mahmod, Masliza, Piechnik, Stefan K., Levelt, Eylem, Ferreira, Vanessa M., Francis, Jane M., Lewis, Andrew, Pal, Nikhil, Dass, Sairia, Ashrafian, Houman, Neubauer, Stefan, and Karamitsos, Theodoros D.

Subjects

LEFT heart ventricle, HEART physiology, MYOCARDIUM physiology, ADENOSINES, AORTIC stenosis, VASODILATION, DIAGNOSTIC imaging, HEART function tests, PROSTHETIC heart valves, HYPEREMIA, MAGNETIC resonance imaging, POSTOPERATIVE period, CONTRAST media, SEVERITY of illness index, INTRAVASCULAR space, PREOPERATIVE period, DIAGNOSIS

Abstract

Background: Myocardial T1 relaxation times have been reported to be markedly abnormal in diverse myocardial pathologies, ascribed to interstitial changes, evaluated by T1 mapping and calculation of extracellular volume (ECV). T1 mapping is sensitive to myocardial water content of both intra- and extracellular in origin, but the effect of intravascular compartment changes on T1 has been largely neglected. We aimed to assess the role of intravascular compartment on native (pre-contrast) T1 values by studying the effect of adenosine-induced vasodilatation in patients with severe aortic stenosis (AS) before and after aortic valve replacement (AVR). Methods: 42 subjects (26 patients with severe AS without obstructive coronary artery disease and 16 controls) underwent cardiovascular magnetic resonance at 3 T for native T1-mapping (ShMOLLI), first-pass perfusion (myocardial perfusion reserve index-MPRI) at rest and during adenosine stress, and late gadolinium enhancement (LGE). Results: AS patients had increased resting myocardial T1 (1196 ± 47 ms vs. 1168 ± 27 ms, p = 0.037), reduced MPRI (0.92 ± 0.31 vs. 1.74 ± 0.32, p < 0.001), and increased left ventricular mass index (LVMI) and LGE volume compared to controls. During adenosine stress, T1 in AS was similar to controls (1240 ± 51 ms vs. 1238 ± 54 ms, p = 0.88), possibly reflecting a similar level of maximal coronary vasodilatation in both groups. Conversely, the T1 response to stress was blunted in AS (AT1 3.7 ± 2.7% vs. 6.0 ± 4.2% in controls, p = 0.013). Seven months after AVR (n = 16) myocardial T1 and response to adenosine stress recovered towards normal. Native T1 values correlated with reduced MPRI, aortic valve area, and increased LVMI. Conclusions: Our study suggests that native myocardial T1 values are not only influenced by interstitial and intracellular water changes, but also by changes in the intravascular compartment. Performing T1 mapping during or soon after vasodilator stress may affect ECV measurements given that hyperemia alone appears to substantially alter T1 values. [ABSTRACT FROM AUTHOR]

Published

2014

26. Native T1-mapping detects the location, extent and patterns of acute myocarditis without the need for gadolinium contrast agents.

Author

Ferreira, Vanessa M., Piechnik, Stefan K., Dall¿Armellina, Erica, Karamitsos, Theodoros D., Francis, Jane M., Ntusi, Ntobeko, Holloway, Cameron, Choudhury, Robin P., Kardos, Attila, Robson, Matthew D., Friedrich, Matthias G., and Neubauer, Stefan

Subjects

MAGNETIC resonance imaging, ANALYSIS of variance, LONGITUDINAL method, CARDIOMYOPATHIES, STATISTICS, T-test (Statistics), U-statistics, DATA analysis, CONTRAST media, RECEIVER operating characteristic curves, DATA analysis software, DESCRIPTIVE statistics, DIAGNOSIS

Abstract

Background Acute myocarditis can be diagnosed on cardiovascular magnetic resonance (CMR) using multiple techniques, including late gadolinium enhancement (LGE) imaging, which requires contrast administration. Native T1-mapping is significantly more sensitive than LGE and conventional T2-weighted (T2W) imaging in detecting myocarditis. The aims of this study were to demonstrate how to display the non-ischemic patterns of injury and to quantify myocardial involvement in acute myocarditis without the need for contrast agents, using topographic T1-maps and incremental T1 thresholds. Methods We studied 60 patients with suspected acute myocarditis (median 3 days from presentation) and 50 controls using CMR (1.5 T), including:(1) dark-blood T2W imaging; (2) native T1-mapping (ShMOLLI); (3) LGE. Analysis included: (1) global myocardial T2 signal intensity (SI) ratio compared to skeletal muscle; (2) myocardial T1 times; (3) areas of injury by T2W, T1-mapping and LGE. Results Compared to controls, patients had more edema (global myocardial T2 SI ratio 1.71 ± 0.27 vs.1.56 ± 0.15), higher mean myocardial T1 (1011 ± 64 ms vs. 946 ± 23 ms) and more areas of injury as detected by T2W (median 5% vs. 0%), T1 (median 32% vs. 0.7%) and LGE (median 11% vs. 0%); all p < 0.001. A threshold of T1 > 990 ms (sensitivity 90%, specificity 88%) detected significantly larger areas of involvement than T2W and LGE imaging in patients, and additional areas of injury when T2W and LGE were negative. T1-mapping significantly improved the diagnostic confidence in an additional 30% of cases when at least one of the conventional methods (T2W, LGE) failed to identify any areas of abnormality. Using incremental thresholds, T1-mapping can display the non-ischemic patterns of injury typical of myocarditis. Conclusion Native T1-mapping can display the typical non-ischemic patterns in acute myocarditis, similar to LGE imaging but without the need for contrast agents. In addition, T1-mapping offers significant incremental diagnostic value, detecting additional areas of myocardial involvement beyond T2W and LGE imaging and identified extra cases when these conventional methods failed to identify abnormalities. In the future, it may be possible to perform gadolinium-free CMR using cine and T1-mapping for tissue characterization and may be particularly useful for patients in whom gadolinium contrast is contraindicated. [ABSTRACT FROM AUTHOR]

Published

2014

27. Subclinical myocardial inflammation and diffuse fibrosis are common in systemic sclerosis - a clinical study using myocardial T1-mapping and extracellular volume quantification.

Author

Ntusi, Ntobeko A. B., Piechnik, Stefan K., Francis, Jane M., Ferreira, Vanessa M., Rai, Aitzaz B. S., Matthews, Paul M., Robson, Matthew D., Moon, James, Wordsworth, Paul B., Neubauer, Stefan, and Karamitsos, Theodoros D.

Subjects

INFLAMMATION, FIBROSIS, MAGNETIC resonance imaging, ECHOCARDIOGRAPHY, CHI-squared test, STATISTICAL correlation, FISHER exact test, LONGITUDINAL method, MYOCARDIUM, RESEARCH funding, STATISTICS, SYSTEMIC scleroderma, T-test (Statistics), U-statistics, DATA analysis, DATA analysis software, DESCRIPTIVE statistics, DISEASE complications, DIAGNOSIS

Abstract

Background Systemic sclerosis (SSc) is characterised by multi-organ tissue fibrosis including the myocardium. Diffuse myocardial fibrosis can be detected non-invasively by T1 and extracellular volume (ECV) quantification, while focal myocardial inflammation and fibrosis may be detected by T2-weighted and late gadolinium enhancement (LGE), respectively, using cardiovascular magnetic resonance (CMR). We hypothesised that multiparametric CMR can detect subclinical myocardial involvement in patients with SSc. Methods 19 SSc patients (18 female, mean age 55 ± 10 years) and 20 controls (19 female, mean age 56 ± 8 years) without overt cardiovascular disease underwent CMR at 1.5T, including cine, tagging, T1-mapping, T2-weighted, LGE imaging and ECV quantification. Results Focal fibrosis on LGE was found in 10 SSc patients (53%) but none of controls. SSc patients also had areas of myocardial oedema on T2-weighted imaging (median 13 vs. 0% in controls). SSc patients had significantly higher native myocardial T1 values (1007 ± 29 vs. 958 ± 20 ms, p < 0.001), larger areas of myocardial involvement by native T1 >990 ms (median 52 vs. 3% in controls) and expansion of ECV (35.4 ± 4.8 vs. 27.6 ± 2.5%, p < 0.001), likely representing a combination of low-grade inflammation and diffuse myocardial fibrosis. Regardless of any regional fibrosis, native T1 and ECV were significantly elevated in SSc and correlated with disease activity and severity. Although biventricular size and global function were preserved, there was impairment in the peak systolic circumferential strain (-16.8 ± 1.6 vs. -18.6 ± 1.0, p < 0.001) and peak diastolic strain rate (83 ± 26 vs. 114 ± 16 s-1, p < 0.001) in SSc, which inversely correlated with diffuse myocardial fibrosis indices. Conclusions Cardiac involvement is common in SSc even in the absence of cardiac symptoms, and includes chronic myocardial inflammation as well as focal and diffuse myocardial fibrosis. Myocardial abnormalities detected on CMR were associated with impaired strain parameters, as well as disease activity and severity in SSc patients. CMR may be useful in future in the study of treatments aimed at preventing or reducing adverse myocardial processes in SSc. [ABSTRACT FROM AUTHOR]

Published

2014

28. Native T1 Mapping in Transthyretin Amyloidosis.

Author

Fontana, Marianna, Banypersad, Sanjay M., Treibel, Thomas A., Maestrini, Viviana, Sado, Daniel M., White, Steven K., Pica, Silvia, Castelletti, Silvia, Piechnik, Stefan K., Robson, Matthew D., Gilbertson, Janet A., Rowczenio, Dorota, Hutt, David F., Lachmann, Helen J., Wechalekar, Ashutosh D., Whelan, Carol J., Gillmore, Julian D., Hawkins, Philip N., and Moon, James C.

Abstract

Objectives: The aims of the study were to explore the ability of native myocardial T1 mapping by cardiac magnetic resonance to: 1) detect cardiac involvement in patients with transthyretin amyloidosis (ATTR amyloidosis); 2) track the cardiac amyloid burden; and 3) detect early disease. Background: ATTR amyloidosis is an underdiagnosed cause of heart failure, with no truly quantitative test. In cardiac immunoglobulin light-chain amyloidosis (AL amyloidosis), T1 has high diagnostic accuracy and tracks disease. Here, the diagnostic role of native T1 mapping in the other key type of cardiac amyloid, ATTR amyloidosis, is assessed. Methods: A total of 3 groups were studied: ATTR amyloid patients (n = 85; 70 males, age 73 ± 10 years); healthy individuals with transthyretin mutations in whom standard cardiac investigations were normal (n = 8; 3 males, age 47 ± 6 years); and AL amyloid patients (n = 79; 55 males, age 62 ± 10 years). These were compared with 52 healthy volunteers and 46 patients with hypertrophic cardiomyopathy (HCM). All underwent T1 mapping (shortened modified look-locker inversion recovery); ATTR patients and mutation carriers also underwent cardiac 3,3-diphosphono-1,2-propanodicarboxylicacid (DPD) scintigraphy. Results: T1 was elevated in ATTR patients compared with HCM and normal subjects (1,097 ± 43 ms vs. 1,026 ± 64 ms vs. 967 ± 34 ms, respectively; both p < 0.0001). In established cardiac ATTR amyloidosis, T1 elevation was not as high as in AL amyloidosis (AL 1,130 ± 68 ms; p = 0.01). Diagnostic performance was similar for AL and ATTR amyloid (vs. HCM: AL area under the curve 0.84 [95% confidence interval: 0.76 to 0.92]; ATTR area under the curve 0.85 [95% confidence interval: 0.77 to 0.92]; p < 0.0001). T1 tracked cardiac amyloid burden as determined semiquantitatively by DPD scintigraphy (p < 0.0001). T1 was not elevated in mutation carriers (952 ± 35 ms) but was in isolated DPD grade 1 (n = 9, 1,037 ± 60 ms; p = 0.001). Conclusions: Native myocardial T1 mapping detects cardiac ATTR amyloid with similar diagnostic performance and disease tracking to AL amyloid, but with lower maximal T1 elevation, and appears to be an early disease marker. [Copyright &y& Elsevier]

Published

2014

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

Author

Ferreira, Vanessa M., Piechnik, Stefan K., Dall'Armellina, Erica, Karamitsos, Theodoros D., Francis, Jane M., Ntusi, Ntobeko, Holloway, Cameron, Choudhury, Robin P., Kardos, Attila, Robson, Matthew D., Friedrich, Matthias G., and Neubauer, Stefan

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. [Copyright &y& Elsevier]

Published

2013

30. T1 Mapping for Myocardial Extracellular Volume Measurement by CMR: Bolus Only Versus Primed Infusion Technique.

Author

White, Steven K., Sado, Daniel M., Fontana, Marianna, Banypersad, Sanjay M., Maestrini, Viviana, Flett, Andrew S., Piechnik, Stefan K., Robson, Matthew D., Hausenloy, Derek J., Sheikh, Amir M., Hawkins, Philip N., and Moon, James C.

Abstract

Objectives: The aim of this study was to determine the accuracy of the contrast “bolus only” T1 mapping cardiac magnetic resonance (CMR) technique for measuring myocardial extracellular volume fraction (ECV). Background: Myocardial ECV can be measured with T1 mapping before and after contrast agent if the contrast agent distribution between blood/myocardium is at equilibrium. Equilibrium distribution can be achieved with a primed contrast infusion (equilibrium contrast-CMR [EQ-CMR]) or might be approximated by the dynamic equilibration achieved by delayed post-bolus measurement. This bolus only approach is highly attractive, but currently limited data support its use. We compared the bolus only technique with 2 independent standards: collagen volume fraction (CVF) from myocardial biopsy in aortic stenosis (AS); and the infusion technique in 5 representative conditions. Methods: One hundred forty-seven subjects were studied: healthy volunteers (n = 50); hypertrophic cardiomyopathy (n = 25); severe AS (n = 22); amyloid (n = 20); and chronic myocardial infarction (n = 30). Bolus only (at 15 min) and infusion ECV measurements were performed and compared. In 18 subjects with severe AS the results were compared with histological CVF. Results: The ECV by both techniques correlated with histological CVF (n = 18, r2 = 0.69, p < 0.01 vs. r2 = 0.71, p < 0.01, p = 0.42 for comparison). Across health and disease, there was strong correlation between the techniques (r2 = 0.97). However, in diseases of high ECV (amyloid, hypertrophic cardiomyopathy late gadolinium enhancement, and infarction), Bland-Altman analysis indicates the bolus only technique has a consistent and increasing offset, giving a higher value for ECVs above 0.4 (mean difference ± limit of agreement for ECV <0.4 = −0.004 ± 0.037 vs. ECV >0.4 = 0.040 ± 0.075, p < 0.001). Conclusions: Bolus only, T1 mapping-derived ECV measurement is sufficient for ECV measurement across a range of cardiac diseases, and this approach is histologically validated in AS. However, when ECV is >0.4, the bolus only technique consistently measures ECV higher compared with infusion. [Copyright &y& Elsevier]

Published

2013

31. Diagnostic Value of Pre-Contrast T1 Mapping in Acute and Chronic Myocardial Infarction.

Author

Dall'Armellina, Erica, Ferreira, Vanessa M., Kharbanda, Rajesh K., Prendergast, Bernard, Piechnik, Stefan K., Robson, Matthew D., Jones, Melanie, Francis, Jane M., Choudhury, Robin P., and Neubauer, Stefan

Published

2013

32. Noncontrast T1 Mapping for the Diagnosis of Cardiac Amyloidosis.

Author

Karamitsos, Theodoros D., Piechnik, Stefan K., Banypersad, Sanjay M., Fontana, Marianna, Ntusi, Ntobeko B., Ferreira, Vanessa M., Whelan, Carol J., Myerson, Saul G., Robson, Matthew D., Hawkins, Philip N., Neubauer, Stefan, and Moon, James C.

Subjects

CARDIAC amyloidosis, GADOLINIUM, CARDIAC magnetic resonance imaging, MYOCARDIUM, BIOMARKERS, VOLUNTEERS, PROGNOSIS

Abstract

Objectives: This study sought to explore the potential role of noncontrast myocardial T1 mapping for detection of cardiac involvement in patients with primary amyloid light-chain (AL) amyloidosis. Background: Cardiac involvement carries a poor prognosis in systemic AL amyloidosis. Late gadolinium enhancement (LGE) cardiac magnetic resonance (CMR) is useful for the detection of cardiac amyloid, but characteristic LGE patterns do not always occur or they appear late in the disease. Noncontrast characterization of amyloidotic myocardium with T1 mapping may improve disease detection. Furthermore, quantitative assessment of myocardial amyloid load would be of great value. Methods: Fifty-three AL amyloidosis patients (14 with no cardiac involvement, 11 with possible involvement, and 28 with definite cardiac involvement based on standard biomarker and echocardiographic criteria) underwent CMR (1.5-T) including noncontrast T1 mapping (shortened modified look-locker inversion recovery [ShMOLLI] sequence) and LGE imaging. These were compared with 36 healthy volunteers and 17 patients with aortic stenosis and a comparable degree of left ventricular hypertrophy as the cardiac amyloid patients. Results: Myocardial T1 was significantly elevated in cardiac AL amyloidosis patients (1,140 ± 61 ms) compared to normal subjects (958 ± 20 ms, p < 0.001) and patients with aortic stenosis (979 ± 51 ms, p < 0.001). Myocardial T1 was increased in AL amyloid even when cardiac involvement was uncertain (1,048 ± 48 ms) or thought absent (1,009 ± 31 ms). A noncontrast myocardial T1 cutoff of 1,020 ms yielded 92% accuracy for identifying amyloid patients with possible or definite cardiac involvement. In the AL amyloidosis cohort, there were significant correlations between myocardial T1 time and indices of systolic and diastolic dysfunction. Conclusions: Noncontrast T1 mapping has high diagnostic accuracy for detecting cardiac AL amyloidosis, correlates well with markers of systolic and diastolic dysfunction, and is potentially more sensitive for detecting early disease than LGE imaging. Elevated myocardial T1 may represent a direct marker of cardiac amyloid load. Further studies are needed to assess the prognostic significance of T1 elevation. [Copyright &y& Elsevier]

Published

2013

33. Myocardial T1 mapping and extracellular volume quantification: a Society for Cardiovascular Magnetic Resonance (SCMR) and CMR Working Group of the European Society of Cardiology consensus statement.

Author

Moon, James C., Messroghli, Daniel R., Kellman, Peter, Piechnik, Stefan K., Robson, Matthew D., Ugander, Martin, Gatehouse, Peter D., Arai, Andrew E., Friedrich, Matthias G., Neubauer, Stefan, Schulz-Menger, Jeanette, and Schelbert, Erik B.

Abstract

Rapid innovations in cardiovascular magnetic resonance (CMR) now permit the routine acquisition of quantitative measures of myocardial and blood T1 which are key tissue characteristics. These capabilities introduce a new frontier in cardiology, enabling the practitioner/investigator to quantify biologically important myocardial properties that otherwise can be difficult to ascertain clinically. CMR may be able to track biologically important changes in the myocardium by: a) native T1 that reflects myocardial disease involving the myocyte and interstitium without use of gadolinium based contrast agents (GBCA), or b) the extracellular volume fraction (ECV)-a direct GBCA-based measurement of the size of the extracellular space, reflecting interstitial disease. The latter technique attempts to dichotomize the myocardium into its cellular and interstitial components with estimates expressed as volume fractions. This document provides recommendations for clinical and research T1 and ECV measurement, based on published evidence when available and expert consensus when not. We address site preparation, scan type, scan planning and acquisition, quality control, visualisation and analysis, technical development. We also address controversies in the field. While ECV and native T1 mapping appear destined to affect clinical decision making, they lack multi-centre application and face significant challenges, which demand a community-wide approach among stakeholders. At present, ECV and native T1 mapping appear sufficiently robust for many diseases; yet more research is required before a large-scale application for clinical decision-making can be recommended. [ABSTRACT FROM AUTHOR]

Published

2013

34. Normal variation of magnetic resonance T1 relaxation times in the human population at 1.5 T using ShMOLLI.

Author

Piechnik, Stefan K., Vanessa M Ferreira, Vanessa M., Lewandowski, Adam J., Ntusi, Ntobeko A. B., Banerjee, Rajarshi, Holloway, Cameron, Hofman, Mark B. M., Sado, Daniel M., Maestrini, Viviana, White, Steven K., Lazdam, Merzaka, Karamitsos, Theodoros, Moon, James C., Neubauer, Stefan, Leeson, Paul, and Robson, Matthew D.

Abstract

Background: Quantitative T1-mapping is rapidly becoming a clinical tool in cardiovascular magnetic resonance (CMR) to objectively distinguish normal from diseased myocardium. The usefulness of any quantitative technique to identify disease lies in its ability to detect significant differences from an established range of normal values. We aimed to assess the variability of myocardial T1 relaxation times in the normal human population estimated with recently proposed Shortened Modified Look-Locker Inversion recovery (ShMOLLI) T1 mapping technique. Methods: A large cohort of healthy volunteers (n = 342, 50% females, age 11-69 years) from 3 clinical centres across two countries underwent CMR at 1.5T. Each examination provided a single average myocardial ShMOLLI T1 estimate using manually drawn myocardial contours on typically 3 short axis slices (average 3.4 ± 1.4), taking care not to include any blood pool in the myocardial contours. We established the normal reference range of myocardial and blood T1 values, and assessed the effect of potential confounding factors, including artefacts, partial volume, repeated measurements, age, gender, body size, hematocrit and heart rate. Results: Native myocardial ShMOLLI T1 was 962 ± 25 ms. We identify the partial volume as primary source of potential error in the analysis of respective T1 maps and use 1 pixel erosion to represent "midwall myocardial" T1, resulting in a 0.9% decrease to 953 ± 23 ms. Midwall myocardial ShMOLLI T1 was reproducible with an intraindividual, intra- and inter-scanner variability of ≤2%. The principle biological parameter influencing myocardial ShMOLLI T1 was the female gender, with female T1 longer by 24 ms up to the age of 45 years, after which there was no significant difference from males. After correction for age and gender dependencies, heart rate was the only other physiologic factor with a small effect on myocardial ShMOLLI T1 (6ms/10bpm). Left and right ventricular blood ShMOLLI T1 correlated strongly with each other and also with myocardial T1 with the slope of 0.1 that is justifiable by the resting partition of blood volume in myocardial tissue. Overall, the effect of all variables on myocardial ShMOLLI T1 was within 2% of relative changes from the average. Conclusion: Native T1-mapping using ShMOLLI generates reproducible and consistent results in normal individuals within 2% of relative changes from the average, well below the effects of most acute forms of myocardial disease. The main potential confounder is the partial volume effect arising from over-inclusion of neighbouring tissue at the manual stages of image analysis. In the study of cardiac conditions such as diffuse fibrosis or small focal changes, the use of "myocardial midwall" T1, age and gender matching, and compensation for heart rate differences may all help to improve the method sensitivity in detecting subtle changes. As the accuracy of current T1 measurement methods remains to be established, this study does not claim to report an accurate measure of T1, but that ShMOLLI is a stable and reproducible method for T1-mapping. [ABSTRACT FROM AUTHOR]

Published

2013

35. Comparison of T1 mapping techniques for ECV quantification. Histological validation and reproducibility of ShMOLLI versus multibreath-hold T1 quantification equilibrium contrast CMR.

Author

Fontana, Marianna, White, Steve K., Banypersad, Sanjay M., Sado, Daniel M., Maestrini, Viviana, Flett, Andrew S., Piechnik, Stefan K., Neubauer, Stefan, Roberts, Neil, and Moon, James C.

Subjects

CARDIOMYOPATHIES, HEART diseases, AORTIC stenosis, AORTIC valve diseases, STENOSIS, FIBROSIS, BIOPSY, COLLAGEN, CONFIDENCE intervals, EXTRACELLULAR space, CARDIAC hypertrophy, HEMATOCRIT, MAGNETIC resonance imaging, MYOCARDIUM, PROBABILITY theory, RESEARCH evaluation, STATISTICAL reliability, BREATH holding, PRE-tests & post-tests, CONTRAST media, DESCRIPTIVE statistics, INTRACLASS correlation, DIAGNOSIS

Abstract

Background: Myocardial extracellular volume (ECV) is elevated in fibrosis or infiltration and can be quantified by measuring the haematocrit with pre and post contrast T1 at sufficient contrast equilibrium. Equilibrium CMR (EQ-CMR), using a bolus-infusion protocol, has been shown to provide robust measurements of ECV using a multibreath-hold T1 pulse sequence. Newer, faster sequences for T1 mapping promise whole heart coverage and improved clinical utility, but have not been validated.Methods: Multibreathhold T1 quantification with heart rate correction and single breath-hold T1 mapping using Shortened Modified Look-Locker Inversion recovery (ShMOLLI) were used in equilibrium contrast CMR to generate ECV values and compared in 3 ways. Firstly, both techniques were compared in a spectrum of disease with variable ECV expansion (n=100, 50 healthy volunteers, 12 patients with hypertrophic cardiomyopathy, 18 with severe aortic stenosis, 20 with amyloid). Secondly, both techniques were correlated to human histological collagen volume fraction (CVF%, n=18, severe aortic stenosis biopsies). Thirdly, an assessment of test:retest reproducibility of the 2 CMR techniques was performed 1 week apart in individuals with widely different ECVs (n=10 healthy volunteers, n=7 amyloid patients). Results: More patients were able to perform ShMOLLI than the multibreath-hold technique (6% unable to breath-hold). ECV calculated by multibreath-hold T1 and ShMOLLI showed strong correlation (r2=0.892), little bias (bias -2.2%, 95%CI -8.9% to 4.6%) and good agreement (ICC 0.922, range 0.802 to 0.961, p<0.0001). ECV correlated with histological CVF% by multibreath-hold ECV (r2= 0.589) but better by ShMOLLI ECV (r2= 0.685). Inter-study reproducibility demonstrated that ShMOLLI ECV trended towards greater reproducibility than the multibreath-hold ECV, although this did not reach statistical significance (95%CI -4.9% to 5.4% versus 95%CI -6.4% to 7.3% respectively, p=0.21). Conclusions: ECV quantification by single breath-hold ShMOLLI T1 mapping can measure ECV by EQ-CMR across the spectrum of interstitial expansion. It is procedurally better tolerated, slightly more reproducible and better correlates with histology compared to the older multibreath-hold FLASH techniques. [ABSTRACT FROM AUTHOR]

Published

2012

36. Non-contrast T1-mapping detects acute myocardial edema with high diagnostic accuracy: a comparison to T2-weighted cardiovascular magnetic resonance.

Author

Ferreira, Vanessa M, Piechnik, Stefan K, Dall'Armellina, Erica, Karamitsos, Theodoros D, Francis, Jane M, Choudhury, Robin P, Friedrich, Matthias G, Robson, Matthew D, and Neubauer, Stefan

Subjects

EDEMA, MYOCARDIAL infarction, TAKOTSUBO cardiomyopathy, MAGNETIC resonance, CORONARY disease, MYOCARDITIS, TROPONIN, DIAGNOSIS of edema, MAGNETIC resonance imaging, MYOCARDIUM, CARDIOMYOPATHIES, PROBABILITY theory, RECEIVER operating characteristic curves, SKELETAL muscle, DESCRIPTIVE statistics

Abstract

Background: T2w-CMR is used widely to assess myocardial edema. Quantitative T1-mapping is also sensitive to changes in free water content. We hypothesized that T1-mapping would have a higher diagnostic performance in detecting acute edema than dark-blood and bright-blood T2w-CMR. Methods: We investigated 21 controls (55 ± 13 years) and 21 patients (61 ± 10 years) with Takotsubo cardiomyopathy or acute regional myocardial edema without infarction. CMR performed within 7 days included cine, T1-mapping using ShMOLLI, dark-blood T2-STIR, bright-blood ACUT2E and LGE imaging. We analyzed wall motion, myocardial T1 values and T2 signal intensity (SI) ratio relative to both skeletal muscle and remote myocardium. Results: All patients had acute cardiac symptoms, increased Troponin I (0.15-36.80 ug/L) and acute wall motion abnormalities but no LGE. T1 was increased in patient segments with abnormal and normal wall motion compared to controls (1113 ± 94 ms, 1029 ± 59 ms and 944 ± 17 ms, respectively; p<0.001). T2 SI ratio using STIR and ACUT2E was also increased in patient segments with abnormal and normal wall motion compared to controls (all p<0.02). Receiver operator characteristics analysis showed that T1-mapping had a significantly larger area-under-the-curve (AUC = 0.94) compared to T2-weighted methods, whether the reference ROI was skeletal muscle or remote myocardium (AUC = 0.58-0.89; p<0.03). A T1 value of greater than 990 ms most optimally differentiated segments affected by edema from normal segments at 1.5 T, with a sensitivity and specificity of 92 %. Conclusions: Non-contrast T1-mapping using ShMOLLI is a novel method for objectively detecting myocardial edema with a high diagnostic performance. T1-mapping may serve as a complementary technique to T2-weighted imaging for assessing myocardial edema in ischemic and non-ischemic heart disease, such as quantifying area-at-risk and diagnosing myocarditis. [ABSTRACT FROM AUTHOR]

Published

2012

37. Shortened Modified Look-Locker Inversion recovery (ShMOLLI) for clinical myocardial T1- mapping at 1.5 and 3 T within a 9 heartbeatbreathhold.

Author

Piechnik, Stefan K., Ferreira, Vanessa M., Dall'Armellina, Erica, Cochlin, Lowri E., Greiser, Andreas, Neubauer, Stefan, and Robson, Matthew D.

Subjects

CARDIOVASCULAR diseases, MYOCARDIUM, MAGNETIC resonance imaging, COMPUTER simulation, CARDIAC patients

Abstract

Background: T1 mapping allows direct in-vivo quantitation of microscopic changes in the myocardium, providing new diagnostic insights into cardiac disease. Existing methods require long breath holds that are demanding for many cardiac patients. In this work we propose and validate a novel, clinically applicable, pulse sequence for myocardial T1-mapping that is compatible with typical limits for end-expiration breath-holding in patients. Materials and methods: The Shortened MOdified Look-Locker Inversion recovery (ShMOLLI) method uses sequential inversion recovery measurements within a single short breath-hold. Full recovery of the longitudinal magnetisation between sequential inversion pulses is not achieved, but conditional interpretation of samples for reconstruction of T1-maps is used to yield accurate measurements, and this algorithm is implemented directly on the scanner. We performed computer simulations for 100 ms

Published

2010

38. Right ventricular shape and function: cardiovascular magnetic resonance reference morphology and biventricular risk factor morphometrics in UK Biobank.

Author

Mauger, Charlène, Gilbert, Kathleen, Lee, Aaron M., Sanghvi, Mihir M., Aung, Nay, Fung, Kenneth, Carapella, Valentina, Piechnik, Stefan K., Neubauer, Stefan, Petersen, Steffen E., Suinesiaputra, Avan, and Young, Alistair A.

Subjects

DIABETES complications, MYOCARDIAL infarction complications, OBESITY complications, ALGORITHMS, ANGINA pectoris, AUTOMATION, CARDIOVASCULAR diseases risk factors, DIASTOLE (Cardiac cycle), CARDIAC contraction, LEFT heart ventricle, HEART physiology, RIGHT heart ventricle, HEART septum, HYPERCHOLESTEREMIA, HYPERTENSION, LONGITUDINAL method, MAGNETIC resonance imaging, REGRESSION analysis, RISK assessment, SMOKING, TISSUE banks, THREE-dimensional imaging, DISEASE complications

Abstract

Background: The associations between cardiovascular disease (CVD) risk factors and the biventricular geometry of the right ventricle (RV) and left ventricle (LV) have been difficult to assess, due to subtle and complex shape changes. We sought to quantify reference RV morphology as well as biventricular variations associated with common cardiovascular risk factors. Methods: A biventricular shape atlas was automatically constructed using contours and landmarks from 4329 UK Biobank cardiovascular magnetic resonance (CMR) studies. A subdivision surface geometric mesh was customized to the contours using a diffeomorphic registration algorithm, with automatic correction of slice shifts due to differences in breath-hold position. A reference sub-cohort was identified consisting of 630 participants with no CVD risk factors. Morphometric scores were computed using linear regression to quantify shape variations associated with four risk factors (high cholesterol, high blood pressure, obesity and smoking) and three disease factors (diabetes, previous myocardial infarction and angina). Results: The atlas construction led to an accurate representation of 3D shapes at end-diastole and end-systole, with acceptable fitting errors between surfaces and contours (average error less than 1.5 mm). Atlas shape features had stronger associations than traditional mass and volume measures for all factors (p < 0.005 for each). High blood pressure was associated with outward displacement of the LV free walls, but inward displacement of the RV free wall and thickening of the septum. Smoking was associated with a rounder RV with inward displacement of the RV free wall and increased relative wall thickness. Conclusion: Morphometric relationships between biventricular shape and cardiovascular risk factors in a large cohort show complex interactions between RV and LV morphology. These can be quantified by z-scores, which can be used to study the morphological correlates of disease. [ABSTRACT FROM AUTHOR]

Published

2019

39. Automated quality control in image segmentation: application to the UK Biobank cardiovascular magnetic resonance imaging study.

Author

Robinson, Robert, Valindria, Vanya V., Bai, Wenjia, Oktay, Ozan, Kainz, Bernhard, Suzuki, Hideaki, Sanghvi, Mihir M., Aung, Nay, Paiva, José Miguel, Zemrak, Filip, Fung, Kenneth, Lukaschuk, Elena, Lee, Aaron M., Carapella, Valentina, Kim, Young Jin, Piechnik, Stefan K., Neubauer, Stefan, Petersen, Steffen E., Page, Chris, and Matthews, Paul M.

Subjects

AUTOMATION, CARDIOVASCULAR disease diagnosis, DIGITAL image processing, MAGNETIC resonance imaging, QUALITY control, RESEARCH evaluation

Abstract

Background: The trend towards large-scale studies including population imaging poses new challenges in terms of quality control (QC). This is a particular issue when automatic processing tools such as image segmentation methods are employed to derive quantitative measures or biomarkers for further analyses. Manual inspection and visual QC of each segmentation result is not feasible at large scale. However, it is important to be able to automatically detect when a segmentation method fails in order to avoid inclusion of wrong measurements into subsequent analyses which could otherwise lead to incorrect conclusions. Methods: To overcome this challenge, we explore an approach for predicting segmentation quality based on Reverse Classification Accuracy, which enables us to discriminate between successful and failed segmentations on a per-cases basis. We validate this approach on a new, large-scale manually-annotated set of 4800 cardiovascular magnetic resonance (CMR) scans. We then apply our method to a large cohort of 7250 CMR on which we have performed manual QC. Results: We report results used for predicting segmentation quality metrics including Dice Similarity Coefficient (DSC) and surface-distance measures. As initial validation, we present data for 400 scans demonstrating 99% accuracy for classifying low and high quality segmentations using the predicted DSC scores. As further validation we show high correlation between real and predicted scores and 95% classification accuracy on 4800 scans for which manual segmentations were available. We mimic real-world application of the method on 7250 CMR where we show good agreement between predicted quality metrics and manual visual QC scores. Conclusions: We show that Reverse classification accuracy has the potential for accurate and fully automatic segmentation QC on a per-case basis in the context of large-scale population imaging as in the UK Biobank Imaging Study. [ABSTRACT FROM AUTHOR]

Published

2019

40. Automated cardiovascular magnetic resonance image analysis with fully convolutional networks.

Author

Bai, Wenjia, Sinclair, Matthew, Tarroni, Giacomo, Oktay, Ozan, Rajchl, Martin, Vaillant, Ghislain, Lee, Aaron M., Aung, Nay, Lukaschuk, Elena, Sanghvi, Mihir M., Zemrak, Filip, Fung, Kenneth, Paiva, Jose Miguel, Carapella, Valentina, Kim, Young Jin, Suzuki, Hideaki, Kainz, Bernhard, Matthews, Paul M., Petersen, Steffen E., and Piechnik, Stefan K.

Subjects

AUTOMATION, CARDIOVASCULAR disease diagnosis, DIGITAL image processing, MAGNETIC resonance imaging, ARTIFICIAL neural networks, STROKE volume (Cardiac output)

Abstract

Background: Cardiovascular resonance (CMR) imaging is a standard imaging modality for assessing cardiovascular diseases (CVDs), the leading cause of death globally. CMR enables accurate quantification of the cardiac chamber volume, ejection fraction and myocardial mass, providing information for diagnosis and monitoring of CVDs. However, for years, clinicians have been relying on manual approaches for CMR image analysis, which is time consuming and prone to subjective errors. It is a major clinical challenge to automatically derive quantitative and clinically relevant information from CMR images. Methods: Deep neural networks have shown a great potential in image pattern recognition and segmentation for a variety of tasks. Here we demonstrate an automated analysis method for CMR images, which is based on a fully convolutional network (FCN). The network is trained and evaluated on a large-scale dataset from the UK Biobank, consisting of 4,875 subjects with 93,500 pixelwise annotated images. The performance of the method has been evaluated using a number of technical metrics, including the Dice metric, mean contour distance and Hausdorff distance, as well as clinically relevant measures, including left ventricle (LV) end-diastolic volume (LVEDV) and end-systolic volume (LVESV), LV mass (LVM); right ventricle (RV) end-diastolic volume (RVEDV) and end-systolic volume (RVESV). Results: By combining FCN with a large-scale annotated dataset, the proposed automated method achieves a high performance in segmenting the LV and RV on short-axis CMR images and the left atrium (LA) and right atrium (RA) on long-axis CMR images. On a short-axis image test set of 600 subjects, it achieves an average Dice metric of 0.94 for the LV cavity, 0.88 for the LV myocardium and 0.90 for the RV cavity. The mean absolute difference between automated measurement and manual measurement is 6.1 mL for LVEDV, 5.3 mL for LVESV, 6.9 gram for LVM, 8.5 mL for RVEDV and 7.2 mL for RVESV. On long-axis image test sets, the average Dice metric is 0.93 for the LA cavity (2-chamber view), 0.95 for the LA cavity (4-chamber view) and 0.96 for the RA cavity (4-chamber view). The performance is comparable to human inter-observer variability. Conclusions: We show that an automated method achieves a performance on par with human experts in analysing CMR images and deriving clinically relevant measures. [ABSTRACT FROM AUTHOR]

Published

2018

41. The Effect of Blood Lipids on the Left Ventricle: A Mendelian Randomization Study.

Author

Aung, Nay, Sanghvi, Mihir M, Piechnik, Stefan K, Neubauer, Stefan, Munroe, Patricia B, and Petersen, Steffen E

Subjects

*TRIGLYCERIDES, *RESEARCH, *RESEARCH methodology, *LDL cholesterol, *MAGNETIC resonance imaging, *EVALUATION research, *MEDICAL cooperation, *HEART ventricles, *COMPARATIVE studies, *RESEARCH funding, *LONGITUDINAL method

Abstract

Background: Cholesterol and triglycerides are among the most well-known risk factors for cardiovascular disease.Objectives: This study investigated whether higher low-density lipoprotein (LDL) cholesterol and triglyceride levels and lower high-density lipoprotein cholesterol level are causal risk factors for changes in prognostically important left ventricular (LV) parameters.Methods: One-sample Mendelian randomization (MR) of 17,311 European individuals from the UK Biobank with paired lipid and cardiovascular magnetic resonance data was performed. Two-sample MR was performed by using summary-level data from the Global Lipid Genetics Consortium (n = 188,577) and UK Biobank Cardiovascular Magnetic Resonance substudy (n = 16,923) for sensitivity analyses.Results: In 1-sample MR analysis, higher LDL cholesterol was causally associated with higher LV end-diastolic volume (β = 1.85 ml; 95% confidence interval [CI]: 0.59 to 3.14 ml; p = 0.004) and higher LV mass (β = 0.81 g; 95% CI: 0.11 to 1.51 g; p = 0.023) and triglycerides with higher LV mass (β = 1.37 g; 95% CI: 0.45 to 2.3 g; p = 0.004). High-density lipoprotein cholesterol had no significant association with any LV parameter. Similar results were obtained by using 2-sample MR. Observational analyses were frequently discordant with those derived from MR.Conclusions: MR analysis demonstrates that LDL cholesterol and triglycerides are associated with adverse changes in cardiac structure and function, in particular in relation to LV mass. These findings suggest that LDL cholesterol and triglycerides may have a causal effect in influencing cardiac morphology in addition to their established role in atherosclerosis. [ABSTRACT FROM AUTHOR]

Published

2020

42. The diagnostic performance of novel techniques for the detection of acute myocarditis: a clinical study using cardiovascular magnetic resonance imaging.

Author

Ferreira, Vanessa, Piechnik, Stefan K., Dall'Armellina, Erica, Karamitsos, Theodoros, Francis, Jane M., Ntusi, Ntobeko, Holloway, Cameron, Choudhury, Robin P., Kardos, Attila, Robson, Matthew D., Friedrich, Matthias G., and Neubauer, Stefan

Subjects

CARDIOMYOPATHIES, CARDIOVASCULAR disease diagnosis, CONFERENCES & conventions, MAGNETIC resonance imaging, DIAGNOSIS

Abstract

An abstract of the article "The diagnostic performance of novel techniques for the detection of acute myocarditis: a clinical study using cardiovascular magnetic resonance imaging," by Vanessa Ferreira and colleagues is presented.

Published

2013

43. Global extracellular volume (ECVglobal) in HCM - the "next generation" test for risk in hypertrophic cardiomyopathy?

Author

Sado, Daniel, Maestrini, Viviana, White, Steven K, Piechnik, Stefan K, Robson, Matthew D, Flett, Andrew, Tome Esteban, Maria T., Pantazis, Antonios, McKenna, William J, Neubauer, Stefan, Elliott, Perry, and Moon, James

Subjects

CARDIAC hypertrophy, CONFERENCES & conventions, EXTRACELLULAR fluid, DISEASE risk factors

Abstract

An abstract of the article "Global extracellular volume (ECVglobal) in HCM - the next generation test for risk in hypertrophic cardiomyopathy?," by Daniel Sado and colleagues is presented.

Published

2013

44. Native T1 lowering in iron overload and Anderson Fabry disease; a novel and early marker of disease.

Author

Sado, Daniel, White, Steven K., Piechnik, Stefan K., Banypersad, Sanjay M., Treibel, Thomas A., Fontana, Marianna, Captur, Gaby, Maestrini, Viviana, Lachmann, Robin, Hughes, Derralyn, Murphy, Elaine, Porter, John, Mehta, Atul, Elliott, Perry, and Moon, James

Subjects

ANGIOKERATOMA corporis diffusum, BIOMARKERS, CONFERENCES & conventions, IRON in the body, MAGNETIC resonance imaging, TIME, DIAGNOSIS

Abstract

An abstract of the article "Native T1 lowering in iron overload and Anderson Fabry disease; a novel and early marker of disease," by Daniel Sado and colleagues is presented.

Published

2013

45. Impaired myocardial perfusion in moderate asymptomatic aortic stenosis relates to longitudinal strain but not non-contrast T1 values.

Author

Bull, Sacha, Loudon, Margaret, Ntusi, Ntobeko, Joseph, Jubin P., Francis, Jane M., Ferreira, Vanessa, Piechnik, Stefan K., Karamitsos, Theodoros, Neubauer, Stefan, and Myerson, Saul

Subjects

AORTIC stenosis, BLOOD circulation, CONFERENCES & conventions, MAGNETIC resonance imaging, MYOCARDIUM, DIAGNOSIS

Abstract

An abstract of the article "Impaired myocardial perfusion in moderate asymptomatic aortic stenosis relates to longitudinal strain but not non-contrast T1 values," by Sacha Bull and colleagues is presented.

Published

2013

46. T1 mapping for myocardial extracellular volume measurement by cardiovascular magnetic resonance: bolus only vs primed infusion technique.

Author

White, Steven K., Sado, Daniel, Fontana, Marianna, Banypersad, Sanjay M., Maestrini, Viviana, Piechnik, Stefan K., Robson, Matthew D., Hausenloy, Derek J., Sheikh, Amir M., Hawkins, Philip N., and Moon, James

Subjects

MYOCARDIUM physiology, EXTRACELLULAR space, CARDIOVASCULAR disease diagnosis, CONFERENCES & conventions, MAGNETIC resonance imaging, PHYSIOLOGY

Abstract

An abstract of the article "T1 mapping for myocardial extracellular volume measurement by cardiovascular magnetic resonance: bolus only vs primed infusion technique," by Steven K. White and colleagues is presented.

Published

2013

47. T1-mapping accurately detects acute myocardial edema: a comparison to T2-weighted cardiovascular magnetic resonance imaging.

Author

Ferreira, Vanessa, Piechnik, Stefan K., Dall'Armellina, Erica, Karamitsos, Theodoros, Francis, Jane M., Choudhury, Robin P., Friedrich, Matthias G., Robson, Matthew D., and Neubauer, Stefan

Subjects

CARDIOVASCULAR system, EDEMA, MAGNETIC resonance imaging

Abstract

An abstract of the conference paper "T1-mapping accurately detects acute myocardial edema: A comparison to T2-weighted cardiovascular magnetic resonance imaging," by Daniel Messroghli and colleagues is presented.

Published

2012

48. Single breath-hold Vd(m) calculation as good as multi breath-hold technique in Equilibrium Contrast CMR.

Author

Sado, Daniel, Piechnik, Stefan K., Robson, Matthew D., Maestrini, Viviana, Flett, Andrew, White, Steven K., Banypersad, Sanjay M., and Moon, James

Subjects

CARDIOVASCULAR system, MAGNETIC resonance imaging

Abstract

An abstract of the conference paper "Single breath-hold Vd(m) calculation as good as multi breath-hold technique in Equilibrium Contrast CMR," by Daniel Sado and colleagues is presented.

Published

2012

49. Age and gender dependence of pre-contrast T1-relaxation times in normal human myocardium at 1.5T using ShMOLLI.

Author

Piechnik, Stefan K., Ferreira, Vanessa, Lewandowski, Adam J., Ntusi, Ntobeko, Sado, Daniel, Maestrini, Viviana, White, Steven K., Lazdam, Merzaka, Banerjee, Rajarshi, Hofman, Mark B., Moon, James, Neubauer, Stefan, Leeson, Paul, and Robson, Matthew D.

Subjects

MYOCARDIUM

Abstract

An abstract of the conference paper "Age and gender dependence of pre-contrast T1-relaxation times in normal human myocardium at 1.5T using ShMOLLI," by Stefan K. Piechnik and colleagues is presented.

Published

2012

50. The diagnostic performance of non-contrast T1-mapping in patients with acute myocarditis on cardiovascular magnetic resonance imaging.

Author

Ferreira, Vanessa, Piechnik, Stefan K., Dall'Armellina, Erica, Karamitsos, Theodoros, Francis, Jane M., Choudhury, Robin P., Kardos, Attila, Friedrich, Matthias G., Robson, Matthew D., and Neubauer, Stefan

Subjects

MYOCARDITIS

Abstract

An abstract of the article " The diagnostic performance of non-contrast T1-mapping in patients with acute myocarditis on cardiovascular magnetic resonance imaging," by Vanessa Ferreira and colleagues is presented.

Published

2012