Poroelastic Bulk Properties of the Tectorial Membrane Measured with Osmotic Stress

@article{citeulike:822474, abstract = {The equilibrium stress-strain relation and the pore radius of the isolated tectorial membrane (TM) of the mouse were determined. Polyethylene glycol (PEG), with molecular mass (MM) in the range 20-511 kDa, added to the TM bathing solution was used to exert an osmotic pressure. Strain on the TM induced by isosmotic PEG solutions of different molecular masses was approximately the same for MM [\≥] 200 kDa. However, for MM [\≤] 100 kDa, the TM strain was appreciably smaller. We infer that for the smaller molecular mass, PEG entered the TM and exerted a smaller effective osmotic pressure. The pore radius of the TM was estimated as 22 nm. The equilibrium stress-strain relation of the TM was measured using PEG with a molecular mass of 511 kDa. This relation was nonlinear and was fit with a power function. In the radial cochlear direction, the transverse stiffness of the TM was 20\% stiffer in the inner than in the outer region. TM segments from the basal region had a larger transverse stiffness on average compared to sections from the apical-middle region. These measurements provide a quantitative basis for a poroelastic model of the TM. 10.1529/biophysj.105.078121}, author = {Masaki, Kinuko and Weiss, Thomas F. and Freeman, Dennis M. }, citeulike-article-id = {822474}, journal = {Biophys. J.}, keywords = {auditory, biomechanics, cochlea}, month = {September}, number = {6}, pages = {2356--2370}, posted-at = {2006-08-31 00:57:26}, priority = {2}, title = {Poroelastic Bulk Properties of the Tectorial Membrane Measured with Osmotic Stress}, url = {http://www.biophysj.org/cgi/content/abstract/91/6/2356}, volume = {91}, year = {2006} }

TY - JOUR ID - citeulike:822474 L3 - citeulike-article-id:822474 TI - Poroelastic Bulk Properties of the Tectorial Membrane Measured with Osmotic Stress JF - Biophys. J. VL - 91 IS - 6 SP - 2356 EP - 2370 N2 - The equilibrium stress-strain relation and the pore radius of the isolated tectorial membrane (TM) of the mouse were determined. Polyethylene glycol (PEG), with molecular mass (MM) in the range 20-511 kDa, added to the TM bathing solution was used to exert an osmotic pressure. Strain on the TM induced by isosmotic PEG solutions of different molecular masses was approximately the same for MM [≥] 200 kDa. However, for MM [≤] 100 kDa, the TM strain was appreciably smaller. We infer that for the smaller molecular mass, PEG entered the TM and exerted a smaller effective osmotic pressure. The pore radius of the TM was estimated as 22 nm. The equilibrium stress-strain relation of the TM was measured using PEG with a molecular mass of 511 kDa. This relation was nonlinear and was fit with a power function. In the radial cochlear direction, the transverse stiffness of the TM was 20% stiffer in the inner than in the outer region. TM segments from the basal region had a larger transverse stiffness on average compared to sections from the apical-middle region. These measurements provide a quantitative basis for a poroelastic model of the TM. 10.1529/biophysj.105.078121 KW - auditory KW - biomechanics KW - cochlea AU - Masaki, Kinuko AU - Weiss, Thomas AU - Freeman, Dennis PY - 2006/09/15/ UR - http://www.biophysj.org/cgi/content/abstract/91/6/2356 ER -