Flexoelectricity in bones

Bones generate electricity under pressure, and this electromechanical behavior is thought to be essential for bone's self-repair and remodeling properties. The origin of this response is attributed to the piezoelectricity of collagen, which is the main structural protein of bones. In theory, ho...

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Detalhes bibliográficos
Autores: Vásquez Sancho, Fabián|||0000-0001-8814-2676, Abdollahi, Amir|||0000-0003-0363-4984, Damjanovic, Dragan|||0000-0002-9596-7438, Catalan, Gustau|||0000-0003-0214-4828
Tipo de documento: artigo
Data de publicação:2018
País:España
Recursos:Universitat Autònoma de Barcelona
Repositório:Dipòsit Digital de Documents de la UAB
Idioma:inglês
OAI Identifier:oai:ddd.uab.cat:214997
Acesso em linha:https://ddd.uab.cat/record/214997
https://dx.doi.org/urn:doi:10.1002/adma.201705316
Access Level:Acceso aberto
Palavra-chave:Bone remodeling
Cracks
Flexoelectricity
Hydroxyapatite
Descrição
Resumo:Bones generate electricity under pressure, and this electromechanical behavior is thought to be essential for bone's self-repair and remodeling properties. The origin of this response is attributed to the piezoelectricity of collagen, which is the main structural protein of bones. In theory, however, any material can also generate voltages in response to strain gradients, thanks to the property known as flexoelectricity. In this work, the flexoelectricity of bone and pure bone mineral (hydroxyapatite) are measured and found to be of the same order of magnitude; the quantitative similarity suggests that hydroxyapatite flexoelectricity is the main source of bending-induced polarization in cortical bone. In addition, the measured flexoelectric coefficients are used to calculate the (flexo)electric fields generated by cracks in bone mineral. The results indicate that crack-generated flexoelectricity is theoretically large enough to induce osteocyte apoptosis and thus initiate the crack-healing process, suggesting a central role of flexoelectricity in bone repair and remodeling.