Dentin is a mesenchymal tissue, and, as such, is based on a collagenous matrix that is reinforced by apatite mineral. Collagen fibrils show piezoelectricity, a phenomenon that is used by piezoresponse force microscopy (PFM) to obtain high-resolution images. We applied PFM to image human dentin with 10-nm resolution, and to test the hypothesis that zones of piezoactivity, indicating the presence of collagen fibrils, can be distinguished in dentin. Piezoelectricity was observed by PFM in the dentin intertubular matrix, while the peritubular dentin remained without response. High-resolution imaging of chemically treated intertubular dentin attributed the piezoelectric effect to individual collagen fibrils that differed in the signal strength, ...
Piezoelectricity is a well-established property of biological materials, yet its functional role has...
International audienceIn this paper, the 3D-morphology of the porosity in dentin is investigated wit...
Piezoelectric properties of rat tail tendons, sectioned at angles of 0, 59, and 90° relative to the ...
High-resolution studies of dental tissues are of considerable interest for biomedical engineering an...
Electromechanical imaging of tooth dentin and enamel has been performed with sub-10 nm resolution us...
Hierarchical structure of connective and calcified tissues from the macro- to nanoscale level determ...
Abstract Piezoresponse force microscopy was applied to directly study individual type I collagen fib...
The majority of calcified and connective tissues possess complex hierarchical structure spanning the...
AbstractThe piezoelectric properties of single collagen type I fibrils in fascia were imaged with su...
In this study we sought to gain insights of the structural and mechanical heterogeneity of dentin at...
Electromechanical coupling is ubiquitous in nature and is a functional characteristic in a large ran...
Summary—Unlike the dental hard tissues, bone remodels when subjected to orthodontic forces. Bone is ...
To investigate age and site-related changes to human dentin collagen, sound human teeth collected fr...
The functional role of collagen piezoelectricity has been under debate since the discovery of piezoe...
In recent years, piezoresponse force microscopy (PFM) has been used to investigate the piezoelectric...
Piezoelectricity is a well-established property of biological materials, yet its functional role has...
International audienceIn this paper, the 3D-morphology of the porosity in dentin is investigated wit...
Piezoelectric properties of rat tail tendons, sectioned at angles of 0, 59, and 90° relative to the ...
High-resolution studies of dental tissues are of considerable interest for biomedical engineering an...
Electromechanical imaging of tooth dentin and enamel has been performed with sub-10 nm resolution us...
Hierarchical structure of connective and calcified tissues from the macro- to nanoscale level determ...
Abstract Piezoresponse force microscopy was applied to directly study individual type I collagen fib...
The majority of calcified and connective tissues possess complex hierarchical structure spanning the...
AbstractThe piezoelectric properties of single collagen type I fibrils in fascia were imaged with su...
In this study we sought to gain insights of the structural and mechanical heterogeneity of dentin at...
Electromechanical coupling is ubiquitous in nature and is a functional characteristic in a large ran...
Summary—Unlike the dental hard tissues, bone remodels when subjected to orthodontic forces. Bone is ...
To investigate age and site-related changes to human dentin collagen, sound human teeth collected fr...
The functional role of collagen piezoelectricity has been under debate since the discovery of piezoe...
In recent years, piezoresponse force microscopy (PFM) has been used to investigate the piezoelectric...
Piezoelectricity is a well-established property of biological materials, yet its functional role has...
International audienceIn this paper, the 3D-morphology of the porosity in dentin is investigated wit...
Piezoelectric properties of rat tail tendons, sectioned at angles of 0, 59, and 90° relative to the ...