Titlebook: Bone Adaptation; In Silico Approach Yoshitaka Kameo,Ken-ichi Tsubota,Taiji Adachi Book 2018 Springer Japan KK 2018 Bone Remodeling.Cellular

商議

https://doi.org/10.1007/978-4-431-56514-7Bone Remodeling; Cellular Mechanosensing; Functional Adaptation; Hierarchical Bone Structure; Mechanotra

杠桿支點(diǎn)

978-4-431-56808-7Springer Japan KK 2018

證明無(wú)罪

無(wú)意

Overview: , Approaches to Understand Bone Adaptation, driven by the local non-uniformity of stress distribution on the trabecular surface. The trabecular remodeling simulations incorporating this phenomenological model can successfully represent the functional adaptation of the trabecular architecture from the tissue level to the organ level.

河潭

Microscopic Fluid Flow Analysis in an Osteocyte Canaliculus,s in the pericellular space, owing to the microscopic surface roughness of the canalicular wall and the osteocyte process. These flow patterns may contribute to the amplification of mechanical stimuli to osteocytes through deformation of cytoskeletal elements in the cell processes.

CRP743

Macroscopic Fluid Flow Analysis in a Poroelastic Trabecula,nsient and steady-state responses by solving the governing equations for the quasi-static poroelasticity. The results suggest the possibility that osteocytes embedded in the neighborhood of the trabecular surface play a primary role as mechanosensory cells during the bone remodeling process.

Modicum

灌輸

其他

曲解

Book 2018d molecular biology, and medical sciences. These .in silico. approaches towards exploring the mechanisms by which the functioning of dynamic living systems is established and maintained have potential for facilitating the efforts of graduate students and young researchers pioneering new frontiers of biomechanics..