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    Electrosprayed Nanoapatite: A New Generation of Bioactive Material

    New search for: Thian, E.S.
    New search for: Ahmad, Z.
    New search for: Huang, Jie
    New search for: Edirisinghe, Mohan J.
    New search for: Jayasinghe, S.N.
    New search for: Ireland, D.C.
    New search for: Brooks, Roger A.
    New search for: Rushton, Neil
    New search for: Bonfield, William
    New search for: Best, Serena

    Fine nanoapatite relics were deposited on glass substrates by electrohydrodynamic atomisation, using nanohydroxyapatite (nHA), nano-carbonated hydroxyapatite (nCHA) and nanosilicon- substituted hydroxyapatite (nSiHA) suspensions. These electrosprayed nanoapatites were evaluated in-vitro using simulated body fluid (SBF) and human osteoblast (HOB) cells. The SBF study revealed that newly-formed apatite layers were observed on the surface of the relics. Furthermore, enhanced HOB cell growth was observed on each of the nanoapatites at all time points. Hence, this work demonstrated that electrosprayed nanoapatites offer considerable potential as biomaterials.

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    Electrosprayed Nanoapatite: A New Generation of Bioactive Material

    New search for: Thian, E.S.
    New search for: Ahmad, Z.
    New search for: Huang, Jie
    New search for: Edirisinghe, Mohan J.
    New search for: Jayasinghe, S.N.
    New search for: Ireland, D.C.
    New search for: Brooks, Roger A.
    New search for: Rushton, Neil
    New search for: Bonfield, William
    New search for: Best, Serena

    Fine nanoapatite relics were deposited on glass substrates by electrohydrodynamic atomisation, using nanohydroxyapatite (nHA), nano-carbonated hydroxyapatite (nCHA) and nanosilicon- substituted hydroxyapatite (nSiHA) suspensions. These electrosprayed nanoapatites were evaluated in-vitro using simulated body fluid (SBF) and human osteoblast (HOB) cells. The SBF study revealed that newly-formed apatite layers were observed on the surface of the relics. Furthermore, enhanced HOB cell growth was observed on each of the nanoapatites at all time points. Hence, this work demonstrated that electrosprayed nanoapatites offer considerable potential as biomaterials.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Electrosprayed Nanoapatite: A New Generation of Bioactive Material

    New search for: Thian, E.S.
    New search for: Ahmad, Z.
    New search for: Huang, Jie
    New search for: Edirisinghe, Mohan J.
    New search for: Jayasinghe, S.N.
    New search for: Ireland, D.C.
    New search for: Brooks, Roger A.
    New search for: Rushton, Neil
    New search for: Bonfield, William
    New search for: Best, Serena

    Fine nanoapatite relics were deposited on glass substrates by electrohydrodynamic atomisation, using nanohydroxyapatite (nHA), nano-carbonated hydroxyapatite (nCHA) and nanosilicon- substituted hydroxyapatite (nSiHA) suspensions. These electrosprayed nanoapatites were evaluated in-vitro using simulated body fluid (SBF) and human osteoblast (HOB) cells. The SBF study revealed that newly-formed apatite layers were observed on the surface of the relics. Furthermore, enhanced HOB cell growth was observed on each of the nanoapatites at all time points. Hence, this work demonstrated that electrosprayed nanoapatites offer considerable potential as biomaterials.

    Access

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    Check availability in my library
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    Title:

    Electrosprayed Nanoapatite: A New Generation of Bioactive Material

    Contributors:

    Thian, E.S. / Ahmad, Z. / Huang, Jie / Edirisinghe, Mohan J. / Jayasinghe, S.N. / Ireland, D.C. / Brooks, Roger A. / Rushton, Neil / Bonfield, William / Best, Serena

    Published in:

    Key Engineering Materials ; 361-363 ; 597-600

    Publication date:

    2007-11-20

    Size:

    4 pages

    ISSN:

    1662-9795 , 1013-9826

    DOI:

    https://doi.org/10.4028/www.scientific.net/KEM.361-363.597

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Osteoblast , Carbonate , Nanoapatite , Electrohydrodynamic Atomisation , Silicon

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