Piezoelectric actuator: searching inspiration in nature for osteoblast stimulation
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Abstract
Bone is a composite with piezoelectric properties. Bone mass and structure are dependent on mechanical
stress and adaptive response at cellular and tissue levels, but the role piezoelectricity plays in bone physiology
is yet to be understood. Physical activity enhances bone density, through mechanical stimulation.
Osteocytes and osteoblasts are essential for mechanosensing and mechanotransduction. Strategies have
been tested for mechanical stimulation of cells and tissues in vitro. The aim of this work was to experimentally
validate the use of piezoelectric materials as a mean of directly straining bone cells by converse
piezoelectric effect. To estimate the magnitude of stress/strain, finite numerical models were applied and
theoretical data was complemented by optic experimental data. Osteoblasts were then grown on the surface
of the piezoelectric material and cell response studied.
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Frias C, Reis J, Capela e Silva F, Potes J, Simões J, Marques AT. Piezoelectric actuator: searching inspiration in nature for osteoblast stimulation. Composites Science and Technology 2010; 70: 1920-1925.