In recent years, there has been an increasing interest in interactive application principles of biology and engineering for the development of valid biological systems for tissue regeneration, such as for the treatment of bone fractures or skeletal defects. The application of stem cells together with biomaterials releasing bioactive factors promotes the formation of bone tissue by inducing proliferation and/or cell differentiation. In this study, we used a clonal cell line from human adipose tissue-derived mesenchymal stem cells (hADSCs or preadipocytes), named PA2-E12, to evaluate the effects of strontium (Sr(2+)) released in the culture medium from an amidated carboxymethylcellulose (CMCA) hydrogel enriched with different Sr(2+) concentrations on osteodifferentiation. The osteoinductive effect was evaluated through both the expression of alkaline phophatase (ALP) activity and the hydroxyapatite (HA) production during 42 days of induction. Present data have shown that Sr(2+) released from CMCA promotes the osteodifferentiation induced by an osteogenic medium as shown by the increase of ALP activity at 7 and 14 days and of HA production at 14 days. In conclusion, the use of biomaterials able to release in situ osteoinductive agents, like Sr(2+), could represent a new strategy for future applications in bone tissue engineering.
Osteodifferentiation of human preadipocytes induced by strontium released from hydrogels / V. Nardone; S. Fabbri; F. Marini; R. Zonefrati; G. Galli; A. Carossino; A. Tanini; M.L. Brandi. - In: INTERNATIONAL JOURNAL OF BIOMATERIALS. - ISSN 1687-8787. - ELETTRONICO. - 2012:(2012), pp. 865291-865301. [10.1155/2012/865291]
Osteodifferentiation of human preadipocytes induced by strontium released from hydrogels.
NARDONE, VALERIA;FABBRI, SERGIO;MARINI, FRANCESCA;ZONEFRATI, ROBERTO;GALLI, GIANNA;CAROSSINO, ANNA MARIA;TANINI, ANNALISA;BRANDI, MARIA LUISA
2012
Abstract
In recent years, there has been an increasing interest in interactive application principles of biology and engineering for the development of valid biological systems for tissue regeneration, such as for the treatment of bone fractures or skeletal defects. The application of stem cells together with biomaterials releasing bioactive factors promotes the formation of bone tissue by inducing proliferation and/or cell differentiation. In this study, we used a clonal cell line from human adipose tissue-derived mesenchymal stem cells (hADSCs or preadipocytes), named PA2-E12, to evaluate the effects of strontium (Sr(2+)) released in the culture medium from an amidated carboxymethylcellulose (CMCA) hydrogel enriched with different Sr(2+) concentrations on osteodifferentiation. The osteoinductive effect was evaluated through both the expression of alkaline phophatase (ALP) activity and the hydroxyapatite (HA) production during 42 days of induction. Present data have shown that Sr(2+) released from CMCA promotes the osteodifferentiation induced by an osteogenic medium as shown by the increase of ALP activity at 7 and 14 days and of HA production at 14 days. In conclusion, the use of biomaterials able to release in situ osteoinductive agents, like Sr(2+), could represent a new strategy for future applications in bone tissue engineering.File | Dimensione | Formato | |
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