Microscale mechanical properties of single elastic fibers: the role of fibrillin-microfibrils.

Koenders MM; Yang L; Wismans RG; van-der-Werf KO; Reinhardt DP; Daamen W; Bennink ML; Dijkstra PJ; van-Kuppevelt TH; Feijen J

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Microscale mechanical properties of single elastic fibers: the role of fibrillin-microfibrils.

机译：单根弹性纤维的微观机械性能：原纤维微纤维的作用。

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Micromechanical properties of single elastic fibers and fibrillin-microfibrils, isolated from equine ligamentum nuchae using chemical and enzymatic methods, were determined with atomic force microscopy (AFM). Young's moduli of single elastic fibers immersed in water, devoid of or containing fibrillin-microfibrils, were determined using bending tests. Bending freely suspended elastic fibers on a micro-channeled substrate by a tip-less AFM cantilever generated a force versus displacement curve from which Young's moduli were calculated. For single elastic fibers, Young's moduli in the range of 0.3-1.5 MPa were determined, values not significantly affected by the presence of fibrillin-microfibrils. To further understand the role of fibrillin-microfibrils in vertebrate elastic fibers, layers of fibrillin-microfibrils were subjected to nano-indentation tests. From the slope of the force versus indentation curves, Young's moduli ranging between 0.56 and 0.74 MPa were calculated. The results suggest that fibrillin-microfibrils are not essential for the mechanical properties of single vertebrate elastic fibers.

机译：用原子力显微镜（AFM）测定了用化学和酶促方法从马韧带韧带分离出的单根弹性纤维和原纤维微纤维的微机械性能。使用弯曲试验确定浸没在水中的单根弹性纤维的杨氏模量，该弹性纤维不包含或不包含原纤细蛋白微纤维。通过无尖AFM悬臂在微通道基材上弯曲自由悬浮的弹性纤维，产生了力与位移的关系曲线，从中可以计算出杨氏模量。对于单根弹性纤维，测定的杨氏模量在0.3-1.5 MPa的范围内，其值不受原纤维蛋白微纤丝的存在影响不明显。为了进一步了解原纤维微细纤维在脊椎动物弹性纤维中的作用，对原纤维微细纤维层进行了纳米压痕测试。根据力与压痕曲线的斜率，计算出杨氏模量在0.56到0.74 MPa之间。结果表明原纤维微纤维对于单条脊椎动物弹性纤维的机械性能不是必需的。

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来源
《Biomaterials》 |2009年第13期|共8页
作者
Koenders MM; Yang L; Wismans RG; van-der-Werf KO; Reinhardt DP; Daamen W; Bennink ML; Dijkstra PJ; van-Kuppevelt TH; Feijen J;
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正文语种 eng
中图分类医用一般科学;
关键词
elastic; fibrillin; Unmarried; Young;

机译：弹性;原纤维蛋白;未婚;年轻;

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Microscale mechanical properties of single elastic fibers: the role of fibrillin-microfibrils.

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