peer-reviewedThe mechanical and electromechanical behaviour of bone such as elasticity and piezoelectricity have long been considered to be a consequence of its hierarchical architecture, the basic building block of which, at the nanostructural level, is a finely interleaved composite of collagen fibrils and apatite, a substituted calcium orthophosphate. Also, stress generated surface charge in bone in the form of piezoelectricity and streaming potential is believed to be the driving force behind bone remodelling. However, very little is known about the basic mechanism for dissipating stress and surface charge at the local level of organisation between the composites. In this study, the relationship between electromechanical propert...
Bone tissue possesses piezoelectric properties, allowing mechanical forces to be converted into elec...
According to “Wolff's Law”, bone is deposited and reinforced at areas of greatest stress. From a cli...
Abstract-This review focus on the bone physiology and mechanotransduction elements and mechanisms. B...
Electromechanical coupling is ubiquitous in nature and is a functional characteristic in a large ran...
An investigation into the effects of micro electric currents on the material of bone is presented al...
Although bone is piezoelectric, the signal from bent bone cannot be described by the piezoelectric e...
According to “Wolff’s Law”, bone is deposited and reinforced at areas of greatest stress. From a cli...
Hierarchical structure of connective and calcified tissues from the macro- to nanoscale level determ...
In the present paper we have investigated the impact of electro stimulation on microstructural param...
The mechanism of bone deposition and resorption, under stress, is incompletely understood. The direc...
Summary—Unlike the dental hard tissues, bone remodels when subjected to orthodontic forces. Bone is ...
Abstract Piezoresponse force microscopy was applied to directly study individual type I collagen fib...
International audienceThis paper presents a theoretical investigation of the multiphysical phenomena...
The relationship between stress and bony architecture has long been recognized, but the actual cellu...
Physiology of bone tissue is strongly controlled by its mechanical environment. Bone is under consta...
Bone tissue possesses piezoelectric properties, allowing mechanical forces to be converted into elec...
According to “Wolff's Law”, bone is deposited and reinforced at areas of greatest stress. From a cli...
Abstract-This review focus on the bone physiology and mechanotransduction elements and mechanisms. B...
Electromechanical coupling is ubiquitous in nature and is a functional characteristic in a large ran...
An investigation into the effects of micro electric currents on the material of bone is presented al...
Although bone is piezoelectric, the signal from bent bone cannot be described by the piezoelectric e...
According to “Wolff’s Law”, bone is deposited and reinforced at areas of greatest stress. From a cli...
Hierarchical structure of connective and calcified tissues from the macro- to nanoscale level determ...
In the present paper we have investigated the impact of electro stimulation on microstructural param...
The mechanism of bone deposition and resorption, under stress, is incompletely understood. The direc...
Summary—Unlike the dental hard tissues, bone remodels when subjected to orthodontic forces. Bone is ...
Abstract Piezoresponse force microscopy was applied to directly study individual type I collagen fib...
International audienceThis paper presents a theoretical investigation of the multiphysical phenomena...
The relationship between stress and bony architecture has long been recognized, but the actual cellu...
Physiology of bone tissue is strongly controlled by its mechanical environment. Bone is under consta...
Bone tissue possesses piezoelectric properties, allowing mechanical forces to be converted into elec...
According to “Wolff's Law”, bone is deposited and reinforced at areas of greatest stress. From a cli...
Abstract-This review focus on the bone physiology and mechanotransduction elements and mechanisms. B...