The biofunctionalization of scaffolds for tissue engineering is crucial to improve the results of regenerative therapies. This study compared the effect of platelet-functionalization of 2D electrospun and 3D centrifugal spun scaffolds on the osteogenic potential of hMSCs. Scaffolds prepared from poly-ε-caprolactone, using electrospinning and centrifugal spinning technology, were functionalized using five different concentrations of platelets. Cell proliferation, metabolic activity and osteogenic differentiation were tested using hMSCs cultured in differential and non-differential medium. The porous 3D structure of the centrifugal spun fibers resulted in higher cell proliferation. Furthermore, the functionalization of the scaffolds with platelets resulted in a dose-dependent increase in cell metabolic activity, proliferation and production of an osteogenic marker - alkaline phosphatase. The effect was further promoted by culture in an osteogenic differential medium. The increase in combination of both platelets and osteogenic media shows an improved osteoinduction by platelets in environments rich in inorganic phosphate and ascorbate. Nevertheless, the results of the study showed that the optimal concentration of platelets for induction of hMSC osteogenesis is in the range of 900-3000 × 109 platelets/L. The study determines the potential of electrospun and centrifugal spun fibers with adhered platelets, for use in bone tissue engineering.

InoCure s r o Politických vězňů 935 13 Prague 1 Czech Republic

Laboratory of Biomechanics Faculty of Mechanical Engineering Czech Technical University Prague Prague 6 Czech Republic

Laboratory of Tissue Engineering Institute of Experimental Medicine Czech Academy of Sciences Vídeňská 1083 142 40 Prague Czech Republic

University Center for Energy Efficient Buildings Czech Technical University Prague Třinecká 1024 273 43 Buštěhrad Czech Republic; InoCure s r o Politických vězňů 935 13 Prague 1 Czech Republic

University Center for Energy Efficient Buildings Czech Technical University Prague Třinecká 1024 273 43 Buštěhrad Czech Republic; Laboratory of Tissue Engineering Institute of Experimental Medicine Czech Academy of Sciences Vídeňská 1083 142 40 Prague Czech Republic

University Center for Energy Efficient Buildings Czech Technical University Prague Třinecká 1024 273 43 Buštěhrad Czech Republic; Laboratory of Tissue Engineering Institute of Experimental Medicine Czech Academy of Sciences Vídeňská 1083 142 40 Prague Czech Republic; Department of Cell Biology Faculty of Science Charles University Albertov 6 128 43 Prague Czech Republic

University Center for Energy Efficient Buildings Czech Technical University Prague Třinecká 1024 273 43 Buštěhrad Czech Republic; Laboratory of Tissue Engineering Institute of Experimental Medicine Czech Academy of Sciences Vídeňská 1083 142 40 Prague Czech Republic; InoCure s r o Politických vězňů 935 13 Prague 1 Czech Republic

University Center for Energy Efficient Buildings Czech Technical University Prague Třinecká 1024 273 43 Buštěhrad Czech Republic; Laboratory of Tissue Engineering Institute of Experimental Medicine Czech Academy of Sciences Vídeňská 1083 142 40 Prague Czech Republic; Institute of Biophysics 2nd Faculty of Medicine Charles University Prague 5 Uvalu 84 Prague 5 Motol 150 06 Czech Republic

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