Validation of diffusion tensor MRI measurements of cardiac microstructure with structure tensor synchrotron radiation imaging
Validation of diffusion tensor MRI measurements of cardiac microstructure with structure tensor synchrotron radiation imaging
BACKGROUND: Diffusion tensor imaging (DTI) is widely used to assess tissue microstructure non-invasively. Cardiac DTI enables inference of cell and sheetlet orientations, which are altered under pathological conditions. However, DTI is affected by many factors, therefore robust validation is critical. Existing histological validation is intrinsically flawed, since it requires further tissue processing leading to sample distortion, is routinely limited in field-of-view and requires reconstruction of three-dimensional volumes from two-dimensional images. In contrast, synchrotron radiation imaging (SRI) data enables imaging of the heart in 3D without further preparation following DTI. The objective of the study was to validate DTI measurements based on structure tensor analysis of SRI data.
METHODS: One isolated, fixed rat heart was imaged ex vivo with DTI and X-ray phase contrast SRI, and reconstructed at 100 μm and 3.6 μm isotropic resolution respectively. Structure tensors were determined from the SRI data and registered to the DTI data.
RESULTS: Excellent agreement in helix angles (HA) and transverse angles (TA) was observed between the DTI and structure tensor synchrotron radiation imaging (STSRI) data, where HADTI-STSRI = -1.4° ± 23.2° and TADTI-STSRI = -1.4° ± 35.0° (mean ± 1.96 standard deviation across all voxels in the left ventricle). STSRI confirmed that the primary eigenvector of the diffusion tensor corresponds with the cardiomyocyte long-axis across the whole myocardium.
CONCLUSIONS: We have used STSRI as a novel and high-resolution gold standard for the validation of DTI, allowing like-with-like comparison of three-dimensional tissue structures in the same intact heart free of distortion. This represents a critical step forward in independently verifying the structural basis and informing the interpretation of cardiac DTI data, thereby supporting the further development and adoption of DTI in structure-based electro-mechanical modelling and routine clinical applications.
Animals, Computer Simulation, Diffusion Magnetic Resonance Imaging/methods, Diffusion Tensor Imaging/methods, Female, Heart/diagnostic imaging, Image Interpretation, Computer-Assisted, Myocardium/cytology, Myocytes, Cardiac, Predictive Value of Tests, Rats, Sprague-Dawley, Reproducibility of Results, Synchrotrons
1-14
Teh, Irvin
99a29012-b268-4787-9407-8b4c2313b6c7
McClymont, Darryl
e6a1327c-b43c-4a30-96c8-692f3878be85
Zdora, Marie-Christine
a2e3b04b-aef4-42f8-9e96-4707149589fb
Whittington, Hannah J.
654fab84-a8d8-451d-b264-40bf8103e078
Davidoiu, Valentina
96c6a53a-4e6b-4e08-a625-44a8c393ab5d
Lee, Jack
8aa3b791-e793-4f60-97d5-ad01a93c2231
Lygate, Craig A.
764402c3-9995-4947-8e1e-8efb5cd925f6
Rau, Christoph
f29342b8-92a1-4855-a20c-3960de6e6053
Zanette, Irene
39ee899c-0aae-4fac-aec6-826f848a8022
Schneider, Jürgen E.
6959a5bf-cfa0-4eff-9dd8-71adc52b7441
10 March 2017
Teh, Irvin
99a29012-b268-4787-9407-8b4c2313b6c7
McClymont, Darryl
e6a1327c-b43c-4a30-96c8-692f3878be85
Zdora, Marie-Christine
a2e3b04b-aef4-42f8-9e96-4707149589fb
Whittington, Hannah J.
654fab84-a8d8-451d-b264-40bf8103e078
Davidoiu, Valentina
96c6a53a-4e6b-4e08-a625-44a8c393ab5d
Lee, Jack
8aa3b791-e793-4f60-97d5-ad01a93c2231
Lygate, Craig A.
764402c3-9995-4947-8e1e-8efb5cd925f6
Rau, Christoph
f29342b8-92a1-4855-a20c-3960de6e6053
Zanette, Irene
39ee899c-0aae-4fac-aec6-826f848a8022
Schneider, Jürgen E.
6959a5bf-cfa0-4eff-9dd8-71adc52b7441
Teh, Irvin, McClymont, Darryl, Zdora, Marie-Christine, Whittington, Hannah J., Davidoiu, Valentina, Lee, Jack, Lygate, Craig A., Rau, Christoph, Zanette, Irene and Schneider, Jürgen E.
(2017)
Validation of diffusion tensor MRI measurements of cardiac microstructure with structure tensor synchrotron radiation imaging.
Journal of Cardiovascular Magnetic Resonance, 19 (1), , [31].
(doi:10.1186/s12968-017-0342-x).
Abstract
BACKGROUND: Diffusion tensor imaging (DTI) is widely used to assess tissue microstructure non-invasively. Cardiac DTI enables inference of cell and sheetlet orientations, which are altered under pathological conditions. However, DTI is affected by many factors, therefore robust validation is critical. Existing histological validation is intrinsically flawed, since it requires further tissue processing leading to sample distortion, is routinely limited in field-of-view and requires reconstruction of three-dimensional volumes from two-dimensional images. In contrast, synchrotron radiation imaging (SRI) data enables imaging of the heart in 3D without further preparation following DTI. The objective of the study was to validate DTI measurements based on structure tensor analysis of SRI data.
METHODS: One isolated, fixed rat heart was imaged ex vivo with DTI and X-ray phase contrast SRI, and reconstructed at 100 μm and 3.6 μm isotropic resolution respectively. Structure tensors were determined from the SRI data and registered to the DTI data.
RESULTS: Excellent agreement in helix angles (HA) and transverse angles (TA) was observed between the DTI and structure tensor synchrotron radiation imaging (STSRI) data, where HADTI-STSRI = -1.4° ± 23.2° and TADTI-STSRI = -1.4° ± 35.0° (mean ± 1.96 standard deviation across all voxels in the left ventricle). STSRI confirmed that the primary eigenvector of the diffusion tensor corresponds with the cardiomyocyte long-axis across the whole myocardium.
CONCLUSIONS: We have used STSRI as a novel and high-resolution gold standard for the validation of DTI, allowing like-with-like comparison of three-dimensional tissue structures in the same intact heart free of distortion. This represents a critical step forward in independently verifying the structural basis and informing the interpretation of cardiac DTI data, thereby supporting the further development and adoption of DTI in structure-based electro-mechanical modelling and routine clinical applications.
Text
s12968-017-0342-x
- Version of Record
More information
Accepted/In Press date: 16 February 2017
Published date: 10 March 2017
Keywords:
Animals, Computer Simulation, Diffusion Magnetic Resonance Imaging/methods, Diffusion Tensor Imaging/methods, Female, Heart/diagnostic imaging, Image Interpretation, Computer-Assisted, Myocardium/cytology, Myocytes, Cardiac, Predictive Value of Tests, Rats, Sprague-Dawley, Reproducibility of Results, Synchrotrons
Identifiers
Local EPrints ID: 439011
URI: http://eprints.soton.ac.uk/id/eprint/439011
ISSN: 1097-6647
PURE UUID: db9952ad-0b69-4774-8674-2e8bde02142c
Catalogue record
Date deposited: 31 Mar 2020 16:31
Last modified: 16 Mar 2024 07:11
Export record
Altmetrics
Contributors
Author:
Irvin Teh
Author:
Darryl McClymont
Author:
Marie-Christine Zdora
Author:
Hannah J. Whittington
Author:
Valentina Davidoiu
Author:
Jack Lee
Author:
Craig A. Lygate
Author:
Christoph Rau
Author:
Irene Zanette
Author:
Jürgen E. Schneider
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics