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Title One Step 3D Printing of Surface Functionalized Composite Scaffolds for Tissue Engineering Applications
Date 06.07.2018
Number 55552
Abstract A successful approach widely used in materials science to adapt approved materials to specific applications is to design their surface properties. A main challenge in this area is the development of processing routes enabling for a simple but efficient surface design of complex shaped geometries. Against this background, this work aimed at the implementation of self-assembly principle<br />s for surface functionalization of 3D-printed poly(lactic-co-glycolicacid) (PLGA)-based constructs with macro- and microporous geometries via precision extruding deposition. Methods: Three-component melts from PLGA, CaCO3 and amphiphilic polymers (poly(2-oxazoline) block copolymer) were printed and their bulk and surface properties were studied. Results: Melts with up to 30 mass % of CaCO3 could be successfully printed with homogeneously distributed mineral particles.PLGA degradation during the printing process was temperature and time dependent: the molecular weight reached 10 to 15% of theinitial values after ca. 120 min of heat exposure. Filament surfaces from melts containing CaCO3 show an increasing microroughness along with increasing CaCO3 content. Surface roughness and am phiphilic polymer content imp rove scaffold wettability with both factors showing synergistic effects. The CaCO3 content of the melts affected the inner filament structure during in vitro degradation in PBS, resulting in a homogeneous mineral particle-associated micropor osity for mineral conten ts of 20 mass % and above. Conclusions These results provide novel insights into the behavior of three -component melts from PLGA, CaCO3 and amphiphilic polymers during precision extruding deposition and show for the first time that self-assembly processes can be used to tailor scaffolds surface properties under such processing conditions.
Publisher Acta of Bioengineering and Biomechanics
Identifier
Citation Acta of Bioengineering and Biomechanics 20 (2018) ID24, 11pages
DOI https://doi.org/10.5277/ABB-01131-2018-02
Authors Kotlarz, M. ; Jordan, R. ; Wegener, E. ; Dobrzynski, P. ; Neunzehn, J. ; Lederer, A. ; Wolf-Brandstetter, C. ; Pamula, E. ; Scharnweber, D.
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