TY - GEN
T1 - Grating interferometry-based phase microtomography of atherosclerotic human arteries
AU - Buscema, Marzia
AU - Holme, Margaret N.
AU - Deyhle, Hans
AU - Schulz, Georg
AU - Schmitz, Rüdiger
AU - Thalmann, Peter
AU - Hieber, Simone E.
AU - Chicherova, Natalia
AU - Beckmann, Felix
AU - Herzen, Julia
AU - Weitkamp, Timm
AU - Saxer, Till
AU - Müller, Bert
N1 - Publisher Copyright:
© 2014 SPIE.
PY - 2014
Y1 - 2014
N2 - Cardiovascular diseases are the number one cause of death and morbidity in the world. Understanding disease development in terms of lumen morphology and tissue composition of constricted arteries is essential to improve treatment and patient outcome. X-ray tomography provides non-destructive three-dimensional data with micrometer-resolution. However, a common problem is simultaneous visualization of soft and hard tissue-containing specimens, such as atherosclerotic human coronary arteries. Unlike absorption based techniques, where X-ray absorption strongly depends on atomic number and tissue density, phase contrast methods such as grating interferometry have significant advantages as the phase shift is only a linear function of the atomic number. We demonstrate that grating interferometry-based phase tomography is a powerful method to three-dimensionally visualize a variety of anatomical features in atherosclerotic human coronary arteries, including plaque, muscle, fat, and connective tissue. Three formalin-fixed, human coronary arteries were measured using advanced laboratory μCT. While this technique gives information about plaque morphology, it is impossible to extract the lumen morphology. Therefore, selected regions were measured using grating based phase tomography, sinograms were treated with a wavelet-Fourier filter to remove ring artifacts, and reconstructed data were processed to allow extraction of vessel lumen morphology. Phase tomography data in combination with conventional laboratory μCT data of the same specimen shows potential, through use of a joint histogram, to identify more tissue types than either technique alone. Such phase tomography data was also rigidly registered to subsequently decalcified arteries that were histologically sectioned, although the quality of registration was insufficient for joint histogram analysis.
AB - Cardiovascular diseases are the number one cause of death and morbidity in the world. Understanding disease development in terms of lumen morphology and tissue composition of constricted arteries is essential to improve treatment and patient outcome. X-ray tomography provides non-destructive three-dimensional data with micrometer-resolution. However, a common problem is simultaneous visualization of soft and hard tissue-containing specimens, such as atherosclerotic human coronary arteries. Unlike absorption based techniques, where X-ray absorption strongly depends on atomic number and tissue density, phase contrast methods such as grating interferometry have significant advantages as the phase shift is only a linear function of the atomic number. We demonstrate that grating interferometry-based phase tomography is a powerful method to three-dimensionally visualize a variety of anatomical features in atherosclerotic human coronary arteries, including plaque, muscle, fat, and connective tissue. Three formalin-fixed, human coronary arteries were measured using advanced laboratory μCT. While this technique gives information about plaque morphology, it is impossible to extract the lumen morphology. Therefore, selected regions were measured using grating based phase tomography, sinograms were treated with a wavelet-Fourier filter to remove ring artifacts, and reconstructed data were processed to allow extraction of vessel lumen morphology. Phase tomography data in combination with conventional laboratory μCT data of the same specimen shows potential, through use of a joint histogram, to identify more tissue types than either technique alone. Such phase tomography data was also rigidly registered to subsequently decalcified arteries that were histologically sectioned, although the quality of registration was insufficient for joint histogram analysis.
KW - Grating interferometry
KW - Heterogeneous soft and hard tissues
KW - Joint histogram
KW - Phase tomography
KW - Stenosed human arteries
KW - Synchrotron radiation
KW - Three-dimensional visualization and representation
KW - Wall shear stress
UR - http://www.scopus.com/inward/record.url?scp=84922998530&partnerID=8YFLogxK
U2 - 10.1117/12.2060443
DO - 10.1117/12.2060443
M3 - Conference contribution
AN - SCOPUS:84922998530
T3 - Proceedings of SPIE - The International Society for Optical Engineering
BT - Developments in X-Ray Tomography IX
A2 - Stock, Stuart R.
PB - SPIE
T2 - Developments in X-Ray Tomography IX
Y2 - 18 August 2014 through 20 August 2014
ER -