In vivo cellularization of a cross-linked matrix by intraperitoneal implantation: a new tool in heart valve tissue engineering

doi:10.1093/eurheartj/ehl422

European Heart Journal Advance Access originally published online on January 23, 2007
European Heart Journal 2007 28(11):1389-1396; doi:10.1093/eurheartj/ehl422

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In vivo cellularization of a cross-linked matrix by intraperitoneal implantation: a new tool in heart valve tissue engineering

Geofrey De Visscher^*, Ilse Vranken, An Lebacq, Christiaan Van Kerrebroeck, Javier Ganame, Erik Verbeken and Willem Flameng

Laboratory for Experimental Cardiac Surgery, Department of Cardiovascular Diseases, Katholieke Universiteit Leuven, Minderbroedersstraat 17, 3000 Leuven, Belgium

Received 21 April 2006; revised 26 October 2006; accepted 10 November 2006; online publish-ahead-of-print 23 January 2007.

^* Corresponding author. Tel: +32 16 33 71 20; fax: +32 16 33 71 22. E-mail address: geofrey.devisscher{at}med.kuleuven.be

Aim: To use in vivo instead of in vitro cell seeding in heart valvetissue engineering.

Methods and results: Intraperitoneally preseeded, photo-oxidized bovine pericardialpulmonary valve constructs (group 1) were compared with non-preseededconstructs (group 2) implanted in sheep. All valves functionednormally and were macroscopically intact at explantation [1week (n = 6) and 1 month (n = 6) in each group], except forone thrombosed leaflet in a group-2 valve at 1 month. Almost10-fold higher neomatrix deposition and doubling of the leafletthickness were found in group 1 vs. 2 (P < 0.05). A concomitantsignificant decrease in leaflet length (15%) was found at 1month in group 1. The total cross-sectional surface and totalamount of collagen of the original matrix remained unchangedin both groups at all times. Immunohistochemistry showed a lowimmune response, stem/progenitor cell infiltration, appropriateddifferentiation, and spontaneous endothelialization of the valves.Significantly, increased re-cellularization was found afterIP preseeding compared with spontaneous seeding: cell coverageof the leaflet was 71–100 vs. 8–26% (P < 0.05),respectively.

Conclusion: Complete re-cellularization can be obtained by IP preseedingof an acellularized cross-linked matrix. Well-functioning valveconstructs show cellularization and differentiation into myofibroblastphenotype and concomitant neomatrix deposition.

Key Words: Tissue engineering • Endogenous seeding • Heart valve

This paper was guest edited by Prof. Julie H. Campbell, Universityof Queensland, Australia

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