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International Journal of Computer Assisted Radiology and Surgery
Published in: International Journal of Computer Assisted Radiology and Surgery 5/2013

01-09-2013 | Original Article

Performance evaluation of a C-Arm CT perfusion phantom

Authors: Axel Boese, Sebastian Gugel, Steffen Serowy, Jonas Purmann, Georg Rose, Oliver Beuing, Martin Skalej, Yiannis Kyriakou, Yu Deuerling-Zheng

Published in: International Journal of Computer Assisted Radiology and Surgery | Issue 5/2013

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Abstract

Purpose Brain perfusion measurement in stroke patients provides important information on the infarct area and state of involved tissue. Interventional C-Arm angiography systems can provide perfusion measurements. A CT perfusion phantom was developed for C-Arm perfusion imaging to test and evaluate this method and to aid in the design and validation of scan protocols.
Methods A phantom test device was designed based on the anatomy of the human head. Four feeding arteries divided into sixteen sub-branches that lead into a sintered board simulating brain parenchyma. Perfusion measurements were performed using two conventional clinical CT scanners as the gold standard and with a C-Arm CT system to test and compare the implementations. The phantom’s input parameters, contrast medium and flow properties were varied. A cerebral perfusion deficit was simulated by occlusion of a feeding artery tube.
Results CT perfusion maps of the sintered board brain tissue surrogate were computed and qualitatively compared for both conventional CT and C-Arm CT systems. A characteristic flow pattern of the tissue board was identifiable in both modalities. The characteristic flow pattern of the resulting perfusion maps is reproducible. The calculated flow and volume were directly related.
Conclusions A new CT perfusion phantom was developed and tested. This phantom is an appropriate model for CT-based tissue perfusion measurements in both conventional CT scanners and C-Arm CT scanners. The influence of input parameter changes can be visualized. Perfusion deficits after occlusion of a feeding artery are readily simulated and identified with CT.
Literature
1.
Mackay J, Mensah GA, Mendis S, Greenlund K, Organization WH (2004) The atlas of heart disease and stroke. World Health Organization, Geneva
2.
Adams HP, del Zoppo G, Alberts MJ et al (2007) Guidelines for the early management of adults with ischemic stroke: a guideline from the American Heart Association/American Stroke Association. Stroke 38(5):1655–1711
3.
Ahmed AS, Zellerhoff M, Strother CM, Pulfer KA, Redel T, Deuerling-Zheng Y, Royalty K, Consigny D, Niemann DB (2009) C-Arm CT measurement of cerebral blood volume: an experimental study in canines. AJNR Am J Neuroradiol 30(5):917–922PubMedCrossRef
4.
Bley T, Strother CM, Pulfer K, Royalty K, Zellerhoff M, Deuerling-Zheng Y, Bender F, Consigny D, Yasuda R, Niemann D (2010) C-arm CT measurement of cerebral blood volume in ischemic stroke: an experimental study in canines. AJNR Am J Neuroradiol 31(3):536–540PubMedCrossRef
5.
Bogunovic H, Loncaric S (2005) Estimating perfusion using X-ray angiography. In: Proceedings of the 4th international symposium on image and signal processing and analysis, 2005. ISPA 2005. IEEE, pp 147–150
6.
Ganguly A, Fieselmann A, Marks M, Rosenberg J, Boese J, Deuerling-Zheng Y, Straka M, Zaharchuk G, Bammer R, Fahrig R (2011) Cerebral CT perfusion using an interventional C-Arm imaging system: cerebral blood flow measurements. Am J Neuroradiol 32(8):1525–1531PubMedCrossRef
7.
Zellerhoff M, Deuerling-Zheng Y, Strother CM, Ahmed A, Pulfer K, Redel T, Royalty K, Grinde J, Consigny D (2009) Measurement of cerebral blood volume using angiographic C-arm systems. Proc of SPIE 7262(1):72620H-1–72620H-8
8.
Struffert T, Deuerling-Zheng Y, Kloska S, Engelhorn T, Boese J, Zellerhoff M, Schwab S, Doerfler A (2011) Cerebral blood volume imaging by flat detector computed tomography in comparison to conventional multislice perfusion CT. Eur Radiol 21(4):882–889
9.
Serowy S, Gurvit O, Skalej M, Rose G (2007) A Jacobi-like solution to the model based tomographic X-ray perfusion imaging. IEEE Nuclear Science Symposium Conference Record, 2007. NSS ’07. IEEE, pp 3085–3088
10.
Serowy S, Rose G (2008) Modellbasierte Perfusionsbildgebung am Röntgen-C-Arm. CURAC 2008
11.
Serowy S, Skalej M, Rose G (2008) A dedicated storage scheme for the system matrix to the model based tomographic X-ray perfusion imaging. IEEE Nuclear Science Symposium Conference Record, 2008. NSS ’08. IEEE, pp 4182–4183
12.
Neukirchen C, Rose G (2005) Parameter estimation in a model based approach for tomographic perfusion measurement. 2005 IEEE Nuclear Science Symposium Conference Record. IEEE, pp 2235–2239
13.
Haberland U, Cordes J, Lell M, Abolmaali N, Klotz E (2009) A biological phantom for contrast-media-based perfusion studies with CT. Invest Radiol 44(10):676–682
14.
Haberland U, Klotz E, Abolmaali N (2010) Performance assessment of a new dynamic scan mode for perfusion computed tomography using a biological phantom. San Diego, pp 76221F-1–76221F-8
15.
Maciak A, Kronfeld A, Müller-Forell W, Wille C, Kempski O, Stoeter P (2010) Ein kapillarbasiertes Phantom zur Simulation der Gehirnperfusion mit der Magnet-Resonanz-Tomografie. Fortschr Röntgenstr 182(10):883–890CrossRef
16.
Russell K, Blazeski A, Dannecker K, Lee QY, Holscher C, Donahue C, van Kampen W (2010) Dynamic CT head phantom for perfusion and angiography studies. San Diego, p 76261Y–76261Y-5
17.
Klotz E, König M (1999) Perfusion measurements of the brain: using dynamic CT for the quantitative assessment of cerebral ischemia in acute stroke. Eur J Radiol 30(3):170–184PubMedCrossRef
18.
Konerth LC (2009) Entwicklung eines Perfusionsmodells für quantitative und qualitative Messungen mit Perfusions-CT. Dissertation Erlangen, Nürnberg
19.
Kroll A (2004) Quantifizierung der Perfusion mit Arterial Spin-Labeling Techniken in der Magnetresonanz-Tomographie an Hand eines Perfusionsphantoms. Thesis doctoral University, Heidelberg
20.
Moll K-J, Moll M (2006) Anatomie. Kurzlehrbuch zum Gegenstandskatalog 1, 17. A. Urban & Fischer Bei Elsevier
21.
Buxton RB (2001) Introduction to functional magnetic resonance imaging: principles and techniques, 1st edn. Cambridge University Press, Cambridge
22.
von Lanz T, Lang J, Wachsmuth W (2004) Praktische anatomie: ein Lehr- und Hilfsbuch der anatomischen Grundlagen ärztlichen Handelns. Bd. 1. Springer, Berlin
23.
Fieselmann A, Kowarschik M, Ganguly A, Hornegger J, Fahrig R (2011) Deconvolution-based CT and MR brain perfusion measurement: theoretical model revisited and practical implementation details. Int J Biomed Imaging 2011:467563PubMedCrossRef
24.
Axel L (1980) Cerebral blood flow determination by rapid-sequence computed tomography: theoretical analysis. Radiology 137(3):679–686PubMed
25.
Fieselmann A, Ganguly A, Deuerling-Zheng Y, Zellerhoff M, Boese J, Hornegger J, Fahrig R (2010) A dynamic reconstruction approach for cerebral blood flow quantification with an interventional C-arm CT. 2010 IEEE international symposium on biomedical imaging: from nano to macro. pp 53–56
26.
Meier P, Zierler KL (1954) On the theory of the indicator-dilution method for measurement of blood flow and volume. J Appl Physiol 6(12):731–744PubMed
Metadata
Title
Performance evaluation of a C-Arm CT perfusion phantom
Authors
Axel Boese
Sebastian Gugel
Steffen Serowy
Jonas Purmann
Georg Rose
Oliver Beuing
Martin Skalej
Yiannis Kyriakou
Yu Deuerling-Zheng
Publication date
01-09-2013
Publisher
Springer Berlin Heidelberg
Published in
International Journal of Computer Assisted Radiology and Surgery / Issue 5/2013
Print ISSN: 1861-6410
Electronic ISSN: 1861-6429
DOI
https://doi.org/10.1007/s11548-012-0804-4

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