Title :
A model for the role of integrins in flow induced mechanotransduction in osteyocytes
Author :
Wang, Y. ; McNamara, L.M. ; Schaffler, M.B. ; Weinbaum, S.
Author_Institution :
City Coll. of New York, New York
Abstract :
Recent studies demonstrate that osteocyte processes directly attach to the canalicular wall at discrete, infrequent collagen hillocks, most likely via integrins. In the current paper, we develop a model for these attachment complexes to determine whether they would induce focal strain amplification. Our model predicts that axial strains on the osteocyte process membrane in the vicinity of integrin-based attachments are approximately two orders of magnitude larger than whole bone tissue strains due to the sliding of actin filaments relative to integrin-based attachments. This large strain amplification can provide a mechanism for osteocyte excitation.
Keywords :
biological fluid dynamics; biomechanics; biomembranes; bone; cellular biophysics; molecular biophysics; proteins; actin filaments; axial strains; bone tissue strains; canalicular; collagen hillocks; flow-induced mechanotransduction; focal strain amplification; integrins; membrane; osteocytes; Biomedical engineering; Biomembranes; Bone tissue; Capacitive sensors; Cities and towns; Educational institutions; Fluid flow; Irrigation; Orthopedic surgery; Predictive models;
Conference_Titel :
Bioengineering Conference, 2007. NEBC '07. IEEE 33rd Annual Northeast
Conference_Location :
Long Island, NY
Print_ISBN :
978-1-4244-1033-0
Electronic_ISBN :
978-1-4244-1033-0
DOI :
10.1109/NEBC.2007.4413269
