Existing theories for interstitial flows in bone have only examined the contributions from different how systems separately, such as the hows through the microporosity, the canaliculi, and the Haversian canals. An overall model encompassing the hierarchical microstructure is important to our understanding of the actual physics of flows in bone. The how-induced drag forces and streaming electrical potentials could interact with the osteocytes to effect biological responses. A finite element model was developed to study the contributions from various hierarchical how channels in bone. Cortical bone is modelled as a fully hydrated biphasic poroelastic material with a superposing network of one-dimensional channels radiating from the Haversian ...
Compact bone is a well-organised, multi-level porous structure. Strain-derived fluid flow likely ste...
Mechanical loads which are macroscopically acting onto bony organs, are known to influence the activ...
Bone is a complex material showing a hierarchical and porous structure but also a natural ability to...
ABSTRACT To explore the potential role that load-induced fluid flow plays as a mechano-transduction ...
While the mechanotransductive capability of skeletal tissue has been acknowledged for decades, the e...
Both the shape of bone organs and the micro-architecture of bone tissue are significantly influenced...
Both the shape of bone organs and the micro-architecture of bone tissue are significantly influenced...
Both the shape of bone organs and the micro-architecture of bone tissue are significantly influenced...
Abstract Background An osteon consists of a multi-layered bone matrix and interstitial fluid flow in...
Publisher's PDFThe transport of fluid, nutrients, and signaling molecules in the bone lacunar-canali...
Osteocytes play a pivotal role in the regulation of skeletal mass. Osteocyte processes are thought t...
This paper deals with the multiscale description of a single osteon of cortical bones. The cortical ...
Osteocytes buried in bone matrix are major mechanosensory cells that regulate bone remodeling in res...
Bone is a complex material which exhibits several hierarchical levels of structural organization. At...
International audienceBone fluid flow and its induced effects on the bone cells are important player...
Compact bone is a well-organised, multi-level porous structure. Strain-derived fluid flow likely ste...
Mechanical loads which are macroscopically acting onto bony organs, are known to influence the activ...
Bone is a complex material showing a hierarchical and porous structure but also a natural ability to...
ABSTRACT To explore the potential role that load-induced fluid flow plays as a mechano-transduction ...
While the mechanotransductive capability of skeletal tissue has been acknowledged for decades, the e...
Both the shape of bone organs and the micro-architecture of bone tissue are significantly influenced...
Both the shape of bone organs and the micro-architecture of bone tissue are significantly influenced...
Both the shape of bone organs and the micro-architecture of bone tissue are significantly influenced...
Abstract Background An osteon consists of a multi-layered bone matrix and interstitial fluid flow in...
Publisher's PDFThe transport of fluid, nutrients, and signaling molecules in the bone lacunar-canali...
Osteocytes play a pivotal role in the regulation of skeletal mass. Osteocyte processes are thought t...
This paper deals with the multiscale description of a single osteon of cortical bones. The cortical ...
Osteocytes buried in bone matrix are major mechanosensory cells that regulate bone remodeling in res...
Bone is a complex material which exhibits several hierarchical levels of structural organization. At...
International audienceBone fluid flow and its induced effects on the bone cells are important player...
Compact bone is a well-organised, multi-level porous structure. Strain-derived fluid flow likely ste...
Mechanical loads which are macroscopically acting onto bony organs, are known to influence the activ...
Bone is a complex material showing a hierarchical and porous structure but also a natural ability to...