Calibration of myocardial T2 and T1 against iron concentration
© 2014 Carpenter et al.; licensee BioMed Central. Background: The assessment of myocardial iron using T2∗ cardiovascular magnetic resonance (CMR) has been validated and calibrated, and is in clinical use. However, there is very limited data assessing the relaxation parameters T1 and T2 for measureme...
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th-mahidol.339292018-11-09T09:35:02Z Calibration of myocardial T2 and T1 against iron concentration John Paul Carpenter Taigang He Paul Kirk Michael Roughton Lisa J. Anderson Sofia V. De Noronha A. John Baksi Mary N. Sheppard John B. Porter J. Malcolm Walker John C. Wood Gianluca Forni Gualtiero Catani Gildo Matta Suthat Fucharoen Adam Fleming Mike House Greg Black David N. Firmin Timothy G. St. Pierre Dudley J. Pennell Royal Brompton Hospital National Heart and Lung Institute St George's Healthcare NHS Trust UCL Children's Hospital Los Angeles E.O. Ospedali Galliera Azienda Ospedaliera Brotzu Mahidol University University of Western Australia Health Professions Medicine © 2014 Carpenter et al.; licensee BioMed Central. Background: The assessment of myocardial iron using T2∗ cardiovascular magnetic resonance (CMR) has been validated and calibrated, and is in clinical use. However, there is very limited data assessing the relaxation parameters T1 and T2 for measurement of human myocardial iron. Methods. Twelve hearts were examined from transfusion-dependent patients: 11 with end-stage heart failure, either following death (n = 7) or cardiac transplantation (n = 4), and 1 heart from a patient who died from a stroke with no cardiac iron loading. Ex-vivo R1 and R2 measurements (R1 = 1/T1 and R2 = 1/T2) at 1.5 Tesla were compared with myocardial iron concentration measured using inductively coupled plasma atomic emission spectroscopy. Results: From a single myocardial slice in formalin which was repeatedly examined, a modest decrease in T2 was observed with time, from mean (±SD) 23.7 ± 0.93 ms at baseline (13 days after death and formalin fixation) to 18.5 ± 1.41 ms at day 566 (p < 0.001). Raw T2 values were therefore adjusted to correct for this fall over time. Myocardial R2 was correlated with iron concentration [Fe] (R20.566, p < 0.001), but the correlation was stronger between LnR2 and Ln[Fe] (R20.790, p < 0.001). The relation was [Fe] = 5081•(T2)-2.22between T2 (ms) and myocardial iron (mg/g dry weight). Analysis of T1 proved challenging with a dichotomous distribution of T1, with very short T1 (mean 72.3 ± 25.8 ms) that was independent of iron concentration in all hearts stored in formalin for greater than 12 months. In the remaining hearts stored for <10 weeks prior to scanning, LnR1 and iron concentration were correlated but with marked scatter (R20.517, p < 0.001). A linear relationship was present between T1 and T2 in the hearts stored for a short period (R20.657, p < 0.001). Conclusion: Myocardial T2 correlates well with myocardial iron concentration, which raises the possibility that T2 may provide additive information to T2∗ for patients with myocardial siderosis. However, ex-vivo T1 measurements are less reliable due to the severe chemical effects of formalin on T1 shortening, and therefore T1 calibration may only be practical from in-vivo human studies. 2018-11-09T02:20:20Z 2018-11-09T02:20:20Z 2014-08-12 Article Journal of Cardiovascular Magnetic Resonance. Vol.16, No.1 (2014) 10.1186/s12968-014-0062-4 1532429X 10976647 2-s2.0-84906932304 https://repository.li.mahidol.ac.th/handle/123456789/33929 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84906932304&origin=inward |
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Health Professions Medicine John Paul Carpenter Taigang He Paul Kirk Michael Roughton Lisa J. Anderson Sofia V. De Noronha A. John Baksi Mary N. Sheppard John B. Porter J. Malcolm Walker John C. Wood Gianluca Forni Gualtiero Catani Gildo Matta Suthat Fucharoen Adam Fleming Mike House Greg Black David N. Firmin Timothy G. St. Pierre Dudley J. Pennell Calibration of myocardial T2 and T1 against iron concentration |
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© 2014 Carpenter et al.; licensee BioMed Central. Background: The assessment of myocardial iron using T2∗ cardiovascular magnetic resonance (CMR) has been validated and calibrated, and is in clinical use. However, there is very limited data assessing the relaxation parameters T1 and T2 for measurement of human myocardial iron. Methods. Twelve hearts were examined from transfusion-dependent patients: 11 with end-stage heart failure, either following death (n = 7) or cardiac transplantation (n = 4), and 1 heart from a patient who died from a stroke with no cardiac iron loading. Ex-vivo R1 and R2 measurements (R1 = 1/T1 and R2 = 1/T2) at 1.5 Tesla were compared with myocardial iron concentration measured using inductively coupled plasma atomic emission spectroscopy. Results: From a single myocardial slice in formalin which was repeatedly examined, a modest decrease in T2 was observed with time, from mean (±SD) 23.7 ± 0.93 ms at baseline (13 days after death and formalin fixation) to 18.5 ± 1.41 ms at day 566 (p < 0.001). Raw T2 values were therefore adjusted to correct for this fall over time. Myocardial R2 was correlated with iron concentration [Fe] (R20.566, p < 0.001), but the correlation was stronger between LnR2 and Ln[Fe] (R20.790, p < 0.001). The relation was [Fe] = 5081•(T2)-2.22between T2 (ms) and myocardial iron (mg/g dry weight). Analysis of T1 proved challenging with a dichotomous distribution of T1, with very short T1 (mean 72.3 ± 25.8 ms) that was independent of iron concentration in all hearts stored in formalin for greater than 12 months. In the remaining hearts stored for <10 weeks prior to scanning, LnR1 and iron concentration were correlated but with marked scatter (R20.517, p < 0.001). A linear relationship was present between T1 and T2 in the hearts stored for a short period (R20.657, p < 0.001). Conclusion: Myocardial T2 correlates well with myocardial iron concentration, which raises the possibility that T2 may provide additive information to T2∗ for patients with myocardial siderosis. However, ex-vivo T1 measurements are less reliable due to the severe chemical effects of formalin on T1 shortening, and therefore T1 calibration may only be practical from in-vivo human studies. |
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Royal Brompton Hospital |
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Royal Brompton Hospital John Paul Carpenter Taigang He Paul Kirk Michael Roughton Lisa J. Anderson Sofia V. De Noronha A. John Baksi Mary N. Sheppard John B. Porter J. Malcolm Walker John C. Wood Gianluca Forni Gualtiero Catani Gildo Matta Suthat Fucharoen Adam Fleming Mike House Greg Black David N. Firmin Timothy G. St. Pierre Dudley J. Pennell |
format |
Article |
author |
John Paul Carpenter Taigang He Paul Kirk Michael Roughton Lisa J. Anderson Sofia V. De Noronha A. John Baksi Mary N. Sheppard John B. Porter J. Malcolm Walker John C. Wood Gianluca Forni Gualtiero Catani Gildo Matta Suthat Fucharoen Adam Fleming Mike House Greg Black David N. Firmin Timothy G. St. Pierre Dudley J. Pennell |
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John Paul Carpenter |
title |
Calibration of myocardial T2 and T1 against iron concentration |
title_short |
Calibration of myocardial T2 and T1 against iron concentration |
title_full |
Calibration of myocardial T2 and T1 against iron concentration |
title_fullStr |
Calibration of myocardial T2 and T1 against iron concentration |
title_full_unstemmed |
Calibration of myocardial T2 and T1 against iron concentration |
title_sort |
calibration of myocardial t2 and t1 against iron concentration |
publishDate |
2018 |
url |
https://repository.li.mahidol.ac.th/handle/123456789/33929 |
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1763493945427361792 |