Development of an Ex Vivo, Beating Heart Model for CT Myocardial Perfusion

Objective. To test the feasibility of a CT-compatible, ex vivo, perfused porcine heart model for myocardial perfusion CT imaging. Methods. One porcine heart was perfused according to Langendorff. Dynamic perfusion scanning was performed with a second-generation dual source CT scanner. Circulatory pa...

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Veröffentlicht in:BioMed research international 2015-01, Vol.2015 (2015), p.1-8
Hauptverfasser: Wildberger, Joachim E., Vliegenthart, Rozemarijn, Oudkerk, Matthijs, Stijnen, Marco, van Tuijl, Sjoerd, Handayani, Astri, Slump, Cees, Haberland, Ulrike, Das, Marco, Pelgrim, Gert Jan, Klotz, Ernst
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Sprache:eng
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Zusammenfassung:Objective. To test the feasibility of a CT-compatible, ex vivo, perfused porcine heart model for myocardial perfusion CT imaging. Methods. One porcine heart was perfused according to Langendorff. Dynamic perfusion scanning was performed with a second-generation dual source CT scanner. Circulatory parameters like blood flow, aortic pressure, and heart rate were monitored throughout the experiment. Stenosis was induced in the circumflex artery, controlled by a fractional flow reserve (FFR) pressure wire. CT-derived myocardial perfusion parameters were analysed at FFR of 1 to 0.10/0.0. Results. CT images did not show major artefacts due to interference of the model setup. The pacemaker-induced heart rhythm was generally stable at 70 beats per minute. During most of the experiment, blood flow was 0.9–1.0 L/min, and arterial pressure varied between 80 and 95 mm/Hg. Blood flow decreased and arterial pressure increased by approximately 10% after inducing a stenosis with FFR ≤ 0.50. Dynamic perfusion scanning was possible across the range of stenosis grades. Perfusion parameters of circumflex-perfused myocardial segments were affected at increasing stenosis grades. Conclusion. An adapted Langendorff porcine heart model is feasible in a CT environment. This model provides control over physiological parameters and may allow in-depth validation of quantitative CT perfusion techniques.
ISSN:2314-6133
2314-6141
DOI:10.1155/2015/412716