Response to Letter to Editor

1. Cassinotto C, Feldis M, Vergniol J, Mouries A, Cochet Het al. MR relaxometry in chronic liver diseases: comparison of T1 mapping, T2 mapping, and diffusion-weighted imaging for assessing cirrhosis diagnosis and severity. European journal of radiology. 2015;84(8):1459-65.

   Article  Google Scholar 

2. Heye T, Yang S-R, Bock M, Brost S, Weigand Ket al. MR relaxometry of the liver: significant elevation of T1 relaxation time in patients with liver cirrhosis. European radiology. 2012;22(6):1224-32.

   Article  Google Scholar 

3. Hoad CL, Palaniyappan N, Kaye P, Chernova Y, James MWet al. A study of T1 relaxation time as a measure of liver fibrosis and the influence of confounding histological factors. NMR in Biomedicine. 2015;28(6):706-14.

   Article  CAS  Google Scholar 

4. Katsube T, Okada M, Kumano S, Hori M, Imaoka Iet al. Estimation of liver function using T1 mapping on Gd-EOB-DTPA-enhanced magnetic resonance imaging. Investigative radiology. 2011;46(4):277-83.

   Article  Google Scholar 

5. Tirkes T, Zhao X, Lin C, Stuckey AJ, Li Let al. Evaluation of variable flip angle, MOLLI, SASHA, and IR-SNAPSHOT pulse sequences for T 1 relaxometry and extracellular volume imaging of the pancreas and liver. Magnetic Resonance Materials in Physics, Biology and Medicine. 2019;32(5):559-66.

   Article  CAS  Google Scholar 

6. Jin K, Wang H, Zeng M, Rao S, Yan Let al. A comparative study of MR extracellular volume fraction measurement and two-dimensional shear-wave elastography in assessment of liver fibrosis with chronic hepatitis B. Abdominal Radiology. 2019;44(4):1407-14.

   Article  Google Scholar 

7. Wang H-q, Jin K-p, Zeng M-s, Chen C-z, Rao S-xet al. Assessing liver fibrosis in chronic hepatitis B using MR extracellular volume measurements: comparison with serum fibrosis indices. Magnetic Resonance Imaging. 2019;59:39-45.

   Article  CAS  Google Scholar 

8. Flett AS, Hayward MP, Ashworth MT, Hansen MS, Taylor AMet al. Equilibrium contrast cardiovascular magnetic resonance for the measurement of diffuse myocardial fibrosis. Circulation. 2010;122(2):138-44.

   Article  Google Scholar 

9. Gai N, Turkbey EB, Nazarian S, Van Der Geest RJ, Liu CYet al. T1 mapping of the gadolinium‐enhanced myocardium: adjustment for factors affecting interpatient comparison. Magnetic resonance in medicine. 2011;65(5):1407-15.

   Article  Google Scholar 

10. Kehr E, Sono M, Chugh SS, Jerosch-Herold M. Gadolinium-enhanced magnetic resonance imaging for detection and quantification of fibrosis in human myocardium in vitro. The international journal of cardiovascular imaging. 2008;24(1):61-8.

    Article  Google Scholar 

11. Kellman P, Wilson JR, Xue H, Bandettini WP, Shanbhag SMet al. Extracellular volume fraction mapping in the myocardium, part 2: initial clinical experience. Journal of Cardiovascular Magnetic Resonance. 2012;14(1):1-8.

    Article  Google Scholar 

12. Kellman P, Wilson JR, Xue H, Ugander M, Arai AE. Extracellular volume fraction mapping in the myocardium, part 1: evaluation of an automated method. Journal of Cardiovascular Magnetic Resonance. 2012;14(1):1-11.

    Article  Google Scholar 

13. Tirkes T, Mitchell JR, Li L, Zhao X, Lin C. Normal T 1 relaxometry and extracellular volume of the pancreas in subjects with no pancreas disease: correlation with age and gender. Abdominal Radiology. 2019;44(9):3133-8.

    Article  Google Scholar 

14. Ugander M, Oki AJ, Hsu L-Y, Kellman P, Greiser Aet al. Extracellular volume imaging by magnetic resonance imaging provides insights into overt and sub-clinical myocardial pathology. European heart journal. 2012;33(10):1268-78.

    Article  CAS  Google Scholar 

Download references