Translation of atherosclerotic plaque phase-contrast CT imaging from synchrotron radiation to a conventional lab-based X-ray source.

Translation of atherosclerotic plaque phase-contrast CT imaging from synchrotron radiation to a conventional lab-based X-ray source.

OBJECTIVES: Phase-contrast imaging is a novel X-ray based technique that provides enhanced soft tissue contrast. The aim of this study was to evaluate the feasibility of visualizing human carotid arteries by grating-based phase-contrast tomography (PC-CT) at two different experimental set-ups: (i) a...

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Main Authors: Tobias Saam, Julia Herzen, Holger Hetterich, Sandra Fill, Marian Willner, Marco Stockmar, Klaus Achterhold, Irene Zanette, Timm Weitkamp, Ulrich Schüller, Sigrid Auweter, Silvia Adam-Neumair, Konstantin Nikolaou, Maximilian F Reiser, Franz Pfeiffer, Fabian Bamberg
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2013-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3767700?pdf=render
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spelling doaj-ea4e31aebdc44ce89455a3dac864454d2020-11-25T01:26:06ZengPublic Library of Science (PLoS)PLoS ONE1932-62032013-01-0189e7351310.1371/journal.pone.0073513Translation of atherosclerotic plaque phase-contrast CT imaging from synchrotron radiation to a conventional lab-based X-ray source.Tobias SaamJulia HerzenHolger HetterichSandra FillMarian WillnerMarco StockmarKlaus AchterholdIrene ZanetteTimm WeitkampUlrich SchüllerSigrid AuweterSilvia Adam-NeumairKonstantin NikolaouMaximilian F ReiserFranz PfeifferFabian BambergOBJECTIVES: Phase-contrast imaging is a novel X-ray based technique that provides enhanced soft tissue contrast. The aim of this study was to evaluate the feasibility of visualizing human carotid arteries by grating-based phase-contrast tomography (PC-CT) at two different experimental set-ups: (i) applying synchrotron radiation and (ii) using a conventional X-ray tube. MATERIALS AND METHODS: Five ex-vivo carotid artery specimens were examined with PC-CT either at the European Synchrotron Radiation Facility using a monochromatic X-ray beam (2 specimens; 23 keV; pixel size 5.4 µm), or at a laboratory set-up on a conventional X-ray tube (3 specimens; 35-40 kVp; 70 mA; pixel size 100 µm). Tomographic images were reconstructed and compared to histopathology. Two independent readers determined vessel dimensions and one reader determined signal-to-noise ratios (SNR) between PC-CT and absorption images. RESULTS: In total, 51 sections were included in the analysis. Images from both set-ups provided sufficient contrast to differentiate individual vessel layers. All PCI-based measurements strongly predicted but significantly overestimated lumen, intima and vessel wall area for both the synchrotron and the laboratory-based measurements as compared with histology (all p<0.001 with slope >0.53 per mm(2), 95%-CI: 0.35 to 0.70). Although synchrotron-based images were characterized by higher SNRs than laboratory-based images; both PC-CT set-ups had superior SNRs compared to corresponding conventional absorption-based images (p<0.001). Inter-reader reproducibility was excellent (ICCs >0.98 and >0.84 for synchrotron and for laboratory-based measurements; respectively). CONCLUSION: Experimental PC-CT of carotid specimens is feasible with both synchrotron and conventional X-ray sources, producing high-resolution images suitable for vessel characterization and atherosclerosis research.http://europepmc.org/articles/PMC3767700?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Tobias Saam
Julia Herzen
Holger Hetterich
Sandra Fill
Marian Willner
Marco Stockmar
Klaus Achterhold
Irene Zanette
Timm Weitkamp
Ulrich Schüller
Sigrid Auweter
Silvia Adam-Neumair
Konstantin Nikolaou
Maximilian F Reiser
Franz Pfeiffer
Fabian Bamberg
spellingShingle Tobias Saam
Julia Herzen
Holger Hetterich
Sandra Fill
Marian Willner
Marco Stockmar
Klaus Achterhold
Irene Zanette
Timm Weitkamp
Ulrich Schüller
Sigrid Auweter
Silvia Adam-Neumair
Konstantin Nikolaou
Maximilian F Reiser
Franz Pfeiffer
Fabian Bamberg
Translation of atherosclerotic plaque phase-contrast CT imaging from synchrotron radiation to a conventional lab-based X-ray source.
PLoS ONE
author_facet Tobias Saam
Julia Herzen
Holger Hetterich
Sandra Fill
Marian Willner
Marco Stockmar
Klaus Achterhold
Irene Zanette
Timm Weitkamp
Ulrich Schüller
Sigrid Auweter
Silvia Adam-Neumair
Konstantin Nikolaou
Maximilian F Reiser
Franz Pfeiffer
Fabian Bamberg
author_sort Tobias Saam
title Translation of atherosclerotic plaque phase-contrast CT imaging from synchrotron radiation to a conventional lab-based X-ray source.
title_short Translation of atherosclerotic plaque phase-contrast CT imaging from synchrotron radiation to a conventional lab-based X-ray source.
title_full Translation of atherosclerotic plaque phase-contrast CT imaging from synchrotron radiation to a conventional lab-based X-ray source.
title_fullStr Translation of atherosclerotic plaque phase-contrast CT imaging from synchrotron radiation to a conventional lab-based X-ray source.
title_full_unstemmed Translation of atherosclerotic plaque phase-contrast CT imaging from synchrotron radiation to a conventional lab-based X-ray source.
title_sort translation of atherosclerotic plaque phase-contrast ct imaging from synchrotron radiation to a conventional lab-based x-ray source.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2013-01-01
description OBJECTIVES: Phase-contrast imaging is a novel X-ray based technique that provides enhanced soft tissue contrast. The aim of this study was to evaluate the feasibility of visualizing human carotid arteries by grating-based phase-contrast tomography (PC-CT) at two different experimental set-ups: (i) applying synchrotron radiation and (ii) using a conventional X-ray tube. MATERIALS AND METHODS: Five ex-vivo carotid artery specimens were examined with PC-CT either at the European Synchrotron Radiation Facility using a monochromatic X-ray beam (2 specimens; 23 keV; pixel size 5.4 µm), or at a laboratory set-up on a conventional X-ray tube (3 specimens; 35-40 kVp; 70 mA; pixel size 100 µm). Tomographic images were reconstructed and compared to histopathology. Two independent readers determined vessel dimensions and one reader determined signal-to-noise ratios (SNR) between PC-CT and absorption images. RESULTS: In total, 51 sections were included in the analysis. Images from both set-ups provided sufficient contrast to differentiate individual vessel layers. All PCI-based measurements strongly predicted but significantly overestimated lumen, intima and vessel wall area for both the synchrotron and the laboratory-based measurements as compared with histology (all p<0.001 with slope >0.53 per mm(2), 95%-CI: 0.35 to 0.70). Although synchrotron-based images were characterized by higher SNRs than laboratory-based images; both PC-CT set-ups had superior SNRs compared to corresponding conventional absorption-based images (p<0.001). Inter-reader reproducibility was excellent (ICCs >0.98 and >0.84 for synchrotron and for laboratory-based measurements; respectively). CONCLUSION: Experimental PC-CT of carotid specimens is feasible with both synchrotron and conventional X-ray sources, producing high-resolution images suitable for vessel characterization and atherosclerosis research.
url http://europepmc.org/articles/PMC3767700?pdf=render
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