Publication date 2016 - Basic Science
GUENTHER D, Jagodzinski M., Krettek C, Liu C, NEUNABER C, OMAR M, TENG S

Influence of biomechanical and biochemical stimulation on the proliferation and differentiation of bone marrow stromal cells seeded on polyurethane scaffolds.

The results indicated that BMP-7 and 10 ml/min perfusion promoted cell proliferation, which was inhibited by 5 Hz cyclic compression and DEX. On day 7, the 5 Hz cyclic compression inhibited Runx2 expression, whereas the 0.5 Hz cyclic compression and BMP-7 upregulated the COL1A1 mRNA levels on day 7 and enhanced the osteocalcin expression on day 14. The DEX-treated hBMSCs exhibited downregulated osteocalcin expression. After 14 days, the BMP-7 group exhibited the highest calcium deposition, followed by the 0.5 Hz cyclic compression and the DEX groups. The equilibrium modulus of the engineered constructs significantly increased in the BMP-7, 0.5 Hz cyclic compression and DEX groups. In conclusion, the present results suggest that BMP-7 and perfusion enhance cell proliferation, whereas high frequency cyclic compression inhibits the proliferation and osteogenic differentiation of hBMSCs. Low frequency cyclic compression is more effective than DEX, but less effective compared with BMP-7 on the osteogenic differentiation of hBMSCs seeded on polyurethane scaffolds.

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2021 - Clinical Study

A comparison between Polyurethane and Collagen Meniscal Scaffold for Partial Meniscal Defects: Similar positive clinical results at a mean of 10-Years of Follow-up.

Filardo G, Grassi A, Lucidi GA, Poggi A, Reale D, Zaffagnini S
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2003 - Basic Science

A porous polymer scaffold for meniscal lesion repair–a study in dogs.

Buma P, de Groot JH, Heijkants RG, Pennings AJ., Tienen TG, Veth RP
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