Publications (2)5.39 Total impact
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Article: Mechanical properties of sensory and supporting cells in the organ of Corti of the guinea pig cochlea--study by atomic force microscopy.
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ABSTRACT: Mammalian hearing is refined by amplification of the motion of the cochlear partition. To understand the cochlear amplification, mechanical models of the cochlea have been used. When the dynamic behavior of the cochlea is analyzed by a model, elastic properties of the cells in the organ of Corti must be determined in advance. Recently, elastic properties of outer hair cells (OHCs) and pillar cells have been elucidated. However, those of other cells have not yet been clarified. Therefore, in this study, using an atomic force microscope (AFM), elastic properties of Hensen's cells, Deiters' cells and inner hair cells (IHCs) in the apical turn and those in the basal and second turns were estimated. As a result, slopes indicative of cell elastic properties were (8.9 +/- 5.8) x 10(3) m(-1) for Hensen's cells (n = 30), (5.5 +/- 5.3) x 10(3) m(-1) for Deiters' cells (n = 20) and (3.8 +/- 2.6) x 10(3) m(-1) for IHCs (n = 20), and Young's modulus were 0.69 +/- 0.45 kPa for Hensen's cells and 0.29 +/- 0.20 kPa for IHCs. There was no significant difference between elastic properties of each type of cell in the apical turn and those in the basal and second turns. However, it was found that there is a significant difference between Young's moduli of cells estimated in this study and those of the OHCs and pillar cells reported previously.Hearing Research 07/2004; 192(1-2):57-64. · 2.70 Impact Factor -
Article: Local mechanical properties of guinea pig outer hair cells measured by atomic force microscopy.
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ABSTRACT: In this study, mechanical properties of guinea pig outer hair cells (OHCs) were measured by atomic force microscopy (AFM). First, in order to confirm the availability of AFM for measurement of the mechanical properties of the OHC, Young's moduli of the OHCs measured in this study were converted into stiffnesses using a one-dimensional model of the cell and then compared with the values reported in the literature. Next, the difference in local mechanical properties of the OHC along the cell axis was measured. Finally, the relationship between Young's modulus in the middle region of the OHC and the cell length was evaluated. The results were as follows. (1) AFM is an adequate tool for the measurement of mechanical properties of the OHC. (2) Mechanical properties in the apical region of the OHC are a maximum of three times larger than those in the basal and middle regions of the cell. (3) Young's modulus in the middle region of a long OHC obtained from the apical turn of the cochlea and that of a short OHC obtained from the basal turn or the second turn are 2.0+/-0.81 kPa (n=10) and 3.7+/-0.96 kPa (n=10), respectively. In addition, it was found that Young's modulus decreases with an increase in the cell length.Hearing Research 01/2003; 174(1-2):222-9. · 2.70 Impact Factor
