Title of article
Biomechanical response of collagen fascicles to restressing after stress deprivation during culture
Author/Authors
Ei Yamamoto، نويسنده , , Daisuke Kogawa، نويسنده , , Susumu Tokura، نويسنده , , Kozaburo Hayashi، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2007
Pages
8
From page
2063
To page
2070
Abstract
In vitro tissue culture experiments were performed to study the biomechanical response of collagen fascicles to restressing after exposure to non-loaded condition. Collagen fascicles of approximately 300 μm in diameter were aseptically dissected from rabbit patellar tendons. They were cultured under no-load condition for 1 week, and then under a static stress of approximately 1.2 MPa for the subsequent 1 or 2 weeks. After culture, their mechanical properties were determined with a micro-tensile tester, and were compared to those of fascicles cultured under no-load condition and non-cultured, control fascicles. Tangent modulus and tensile strength of the non-loaded fascicles were significantly lower than those of the control fascicles at 1 week and gradually decreased thereafter. However, the modulus and strength were increased by restressing. After 2-week restressing, both parameters were significantly greater than those of the time-matched, non-loaded fascicles, although these values were still significantly lower than those of the control fascicles. That is, the application of stress after exposure to non-loaded condition suppressed the deterioration of the biomechanical properties of fascicles, although it did not improve. These results indicate that a short period of stressing is not sufficient for cultured collagen fascicles to completely recover their mechanical properties, if they are once exposed to no-stress condition even for a short period of time. These are similar to previous results observed in tendons and ligaments inside the body.
Keywords
Nuclear envelope , nuclear lamina , Viscoelasticity , Micropipette aspiration , Nuclear mechanics , Finite element model
Journal title
Journal of Biomechanics
Serial Year
2007
Journal title
Journal of Biomechanics
Record number
452635
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