Add to ORKGBones 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...
According to “Wolff’s Law”, bone is deposited and reinforced at areas of greatest stress. From a cli...
Bone and tendon are piezoelectric materials. When they are homogeneously stressed, they obey the cla...
High power, high frequency pulsed electric fields known as pulsed power (PP) has been applied recent...
Bones generate electricity under pressure, and this electromechanical behavior is thought to be esse...
This is the peer reviewed version of the following article: Vazquez Sancho, F., Abdollahi, A., Damja...
The recent discovery of bone flexoelectricity (strain-gradient-induced electrical polarization) sugg...
Although bone is piezoelectric, the signal from bent bone cannot be described by the piezoelectric e...
Bone tissue possesses piezoelectric properties, allowing mechanical forces to be converted into elec...
The relationship between stress and bony architecture has long been recognized, but the actual cellu...
Summary—Unlike the dental hard tissues, bone remodels when subjected to orthodontic forces. Bone is ...
In the present paper we have investigated the impact of electro stimulation on microstructural param...
peer-reviewedThe mechanical and electromechanical behaviour of bone such as elasticity and piezoele...
Bone is a complex composite material with hierarchical structures and anisotropic mechanical propert...
Physiology of bone tissue is strongly controlled by its mechanical environment. Bone is under consta...
According to “Wolff’s Law”, bone is deposited and reinforced at areas of greatest stress. From a cli...
Bone and tendon are piezoelectric materials. When they are homogeneously stressed, they obey the cla...
High power, high frequency pulsed electric fields known as pulsed power (PP) has been applied recent...
Bones generate electricity under pressure, and this electromechanical behavior is thought to be esse...
This is the peer reviewed version of the following article: Vazquez Sancho, F., Abdollahi, A., Damja...
The recent discovery of bone flexoelectricity (strain-gradient-induced electrical polarization) sugg...
Although bone is piezoelectric, the signal from bent bone cannot be described by the piezoelectric e...
Bone tissue possesses piezoelectric properties, allowing mechanical forces to be converted into elec...
The relationship between stress and bony architecture has long been recognized, but the actual cellu...
Summary—Unlike the dental hard tissues, bone remodels when subjected to orthodontic forces. Bone is ...
In the present paper we have investigated the impact of electro stimulation on microstructural param...
peer-reviewedThe mechanical and electromechanical behaviour of bone such as elasticity and piezoele...
Bone is a complex composite material with hierarchical structures and anisotropic mechanical propert...
Physiology of bone tissue is strongly controlled by its mechanical environment. Bone is under consta...
According to “Wolff’s Law”, bone is deposited and reinforced at areas of greatest stress. From a cli...
Bone and tendon are piezoelectric materials. When they are homogeneously stressed, they obey the cla...
High power, high frequency pulsed electric fields known as pulsed power (PP) has been applied recent...