Circulation Journal
Online ISSN : 1347-4820
Print ISSN : 1346-9843
ISSN-L : 1346-9843
Biomedical Engineering
Development and Evaluation of a Perfusion Decellularization Porcine Heart Model
– Generation of 3-Dimensional Myocardial Neoscaffolds –
Alexander WeymannSivakkanan LoganathanHiroaki TakahashiCarsten SchiesBenjamin ClausKristóf HirschbergPál SoósSevil KorkmazBastian SchmackMatthias KarckGábor Szabó
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2011 Volume 75 Issue 4 Pages 852-860


Background: Reports about the generation of 3-dimensional neoscaffolds for myocardial tissue engineering are limited. The architecture provided by perfusion decellularization of whole hearts would support the production of human-sized 3-dimensional living tissues from an acellular matrix. The aim of this study was to evaluate the potential of a perfusion decellularization model for whole heart tissue engineering. Methods and Results: Hearts were obtained from 12 German Landrace pigs from a selected abattoir. After preparation, the hearts were mounted and perfused on a modified Langendorff decellularization model specifically constructed for this reason. Decellularization was achieved by an ionic detergent-based perfusion protocol. The quality of the decellularization process was quantified by histology and fluorescence microscopy. Data regarding the presence of residual DNA within the decellularized hearts was measured with spectrophotometric quantification and compared to controls. After histological examination, all hearts lacked intracellular components but retained various types of collagen, proteoglycan and elastin. Quantitative DNA analysis demonstrated a significant reduction of DNA in decellularized hearts compared to controls (84.32±3.99ng DNA/mg tissue vs. 470.13±18.77ng DNA/mg tissue (P<0.05)). Conclusions: The modified Langendorff perfusion decellularization model described here is applicable for whole porcine hearts by removing cellular content and DNA. The resulting 3-dimensional matrix provides an interesting tool for further studies in the field of whole heart tissue engineering. (Circ J 2011; 75: 852-860)

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