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  1. Hemabarathy Bharatham, Siti Fathiah Masre, Leo Hwee Xien, Nurnadiah Ahmad
    Sains Malaysiana, 2018;47:2557-2563.
    In vivo stability of biomaterial-based bone scaffolds often present a significant drawback in the development of materials
    for tissue engineering purpose. Previously developed nanobiocomposite bone scaffold using alginate and nano cockle shell
    powder has shown ideal characteristics. However, it showed high degradation rate and reduced stability in an in vivo
    setting. In this study, we aim to observe the effect of cross-linking glutaraldehyde (GA) in three different concentrations
    of 0.5%, 1% and 2% during the fabrication process as a potential factor in increasing scaffold stability. Microstructure
    observations of scaffolds using scanning electron microscope (SEM) showed all scaffolds crossed linked with GA and
    control had an ideal pore size ranging from 166.8-203.5 µm. Increase in porosity compared to the control scaffolds
    was observed in scaffolds cross-linked with 2% GA which also presented better structural integrity as scored through
    semi-quantitative methods. Tested pH values during the degradation period showed that scaffolds from all groups
    remained within the range of 7.73-8.76. In vitro studies using osteoblast showed no significant changes in cell viability
    but a significant increase in ALP enzyme levels in scaffold cross-linked with 2% GA. The calcium content released from
    all scaffold showed significant differences within and between the groups. It can be concluded that the use of GA in the
    preparation stage of the scaffold did not affect the growth and proliferation of osteoblast and use of 2% GA showed
    improved scaffold structural integrity and porosity.
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