Cardiac Diffusion: Technique and Practical Applications

doi:10.1002/jmri.26912

Review

. 2020 Aug;52(2):348-368.

doi: 10.1002/jmri.26912. Epub 2019 Sep 4.

Cardiac Diffusion: Technique and Practical Applications

Sonia Nielles-Vallespin^{1

2}, Andrew Scott^{1

2}, Pedro Ferreira^{1

2}, Zohya Khalique^{1

2}, Dudley Pennell^{1

2}, David Firmin^{1

2}

Affiliations

¹ Cardiovascular MR Unit, Royal Brompton And Harefield NHS Foundation Trust, London, UK.
² NHLI, Imperial College of Science, Technology and Medicine, London, UK.

PMID: 31482620
DOI: 10.1002/jmri.26912

Review

Cardiac Diffusion: Technique and Practical Applications

Sonia Nielles-Vallespin et al. J Magn Reson Imaging. 2020 Aug.

. 2020 Aug;52(2):348-368.

doi: 10.1002/jmri.26912. Epub 2019 Sep 4.

Authors

Sonia Nielles-Vallespin^{1

2}, Andrew Scott^{1

2}, Pedro Ferreira^{1

2}, Zohya Khalique^{1

2}, Dudley Pennell^{1

2}, David Firmin^{1

2}

Affiliations

¹ Cardiovascular MR Unit, Royal Brompton And Harefield NHS Foundation Trust, London, UK.
² NHLI, Imperial College of Science, Technology and Medicine, London, UK.

PMID: 31482620
DOI: 10.1002/jmri.26912

Abstract

The 3D microarchitecture of the cardiac muscle underlies the mechanical and electrical properties of the heart. Cardiomyocytes are arranged helically through the depth of the wall, and their shortening leads to macroscopic torsion, twist, and shortening during cardiac contraction. Furthermore, cardiomyocytes are organized in sheetlets separated by shear layers, which reorientate, slip, and shear during macroscopic left ventricle (LV) wall thickening. Cardiac diffusion provides a means for noninvasive interrogation of the 3D microarchitecture of the myocardium. The fundamental principle of MR diffusion is that an MRI signal is attenuated by the self-diffusion of water in the presence of large diffusion-encoding gradients. Since water molecules are constrained by the boundaries in biological tissue (cell membranes, collagen layers, etc.), depicting their diffusion behavior elucidates the shape of the myocardial microarchitecture they are embedded in. Cardiac diffusion therefore provides a noninvasive means to understand not only the dynamic changes in cardiac microstructure of healthy myocardium during cardiac contraction but also the pathophysiological changes in the presence of disease. This unique and innovative technology offers tremendous potential to enable improved clinical diagnosis through novel microstructural and functional assessment. in vivo cardiac diffusion methods are immediately translatable to patients, opening new avenues for diagnostic investigation and treatment evaluation in a range of clinically important cardiac pathologies. This review article describes the 3D microstructure of the LV, explains in vivo and ex vivo cardiac MR diffusion acquisition and postprocessing techniques, as well as clinical applications to date. Level of Evidence: 1 Technical Efficacy: Stage 3 J. Magn. Reson. Imaging 2019. J. Magn. Reson. Imaging 2020;52:348-368.

Keywords: cardiovascular magnetic resonance imaging; diffusion tensor MRI; diffusion weighted MRI; helix angle; laminar structure; myocardial architecture; sheetlet angle.

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References

1. Pope AJ, Sands GB, Smaill BH, LeGrice IJ. Three-dimensional transmural organization of perimysial collagen in the heart. Am J Physiol Heart Circ Physiol 2008;295:H1243-H1252.
1. Streeter DD, Spotnitz HM, Patel DP, Ross J, Sonnenblick EH. Fiber orientation in the canine left ventricle during diastole and systole. Circ Res 1969 Mar;24:339-347.
1. Streeter DD Jr, Bassett DL. An engineering analysis of myocardial fiber orientation in pig's left ventricle in systole. Anat Rec 1966;155:503-511.
1. Axel L, Wedeen VJ, Ennis DB. Probing dynamic myocardial microstructure with cardiac magnetic resonance diffusion tensor imaging. J Cardiovasc Magn Reson 2014;16:89.
1. Olivetti G, Cigola E, Maestri R, et al. Aging, cardiac hypertrophy and ischemic cardiomyopathy do not affect the proportion of mononucleated and multinucleated myocytes in the human heart. J Mol Cell Cardiol 1996;28:1463-1477.

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[1] Pope AJ, Sands GB, Smaill BH, LeGrice IJ. Three-dimensional transmural organization of perimysial collagen in the heart. Am J Physiol Heart Circ Physiol 2008;295:H1243-H1252.

[2] Pope AJ, Sands GB, Smaill BH, LeGrice IJ. Three-dimensional transmural organization of perimysial collagen in the heart. Am J Physiol Heart Circ Physiol 2008;295:H1243-H1252.

[3] Streeter DD, Spotnitz HM, Patel DP, Ross J, Sonnenblick EH. Fiber orientation in the canine left ventricle during diastole and systole. Circ Res 1969 Mar;24:339-347.

[4] Streeter DD, Spotnitz HM, Patel DP, Ross J, Sonnenblick EH. Fiber orientation in the canine left ventricle during diastole and systole. Circ Res 1969 Mar;24:339-347.

[5] Streeter DD Jr, Bassett DL. An engineering analysis of myocardial fiber orientation in pig's left ventricle in systole. Anat Rec 1966;155:503-511.

[6] Streeter DD Jr, Bassett DL. An engineering analysis of myocardial fiber orientation in pig's left ventricle in systole. Anat Rec 1966;155:503-511.

[7] Axel L, Wedeen VJ, Ennis DB. Probing dynamic myocardial microstructure with cardiac magnetic resonance diffusion tensor imaging. J Cardiovasc Magn Reson 2014;16:89.

[8] Axel L, Wedeen VJ, Ennis DB. Probing dynamic myocardial microstructure with cardiac magnetic resonance diffusion tensor imaging. J Cardiovasc Magn Reson 2014;16:89.

[9] Olivetti G, Cigola E, Maestri R, et al. Aging, cardiac hypertrophy and ischemic cardiomyopathy do not affect the proportion of mononucleated and multinucleated myocytes in the human heart. J Mol Cell Cardiol 1996;28:1463-1477.

[10] Olivetti G, Cigola E, Maestri R, et al. Aging, cardiac hypertrophy and ischemic cardiomyopathy do not affect the proportion of mononucleated and multinucleated myocytes in the human heart. J Mol Cell Cardiol 1996;28:1463-1477.

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Cardiac Diffusion: Technique and Practical Applications

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Cardiac Diffusion: Technique and Practical Applications

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