使用原子力显微镜评估实验性动静脉内瘘的微观力学变化。
Assessment of micro-mechanical variations in experimental arteriovenous fistulae using atomic force microscopy.
作者信息
Laurito Tyler, Sueiras Vivian, Fernandez Natasha, Escobar Luis A, Martinez Laisel, Andreopoulos Fotios, Salman Loay H, Vazquez-Padron Roberto I, Ziebarth Noël M
机构信息
Department of Biomedical Engineering, University of Miami College of Engineering, Coral Gables, Florida - USA.
DeWitt Daughtry Family Department of Surgery, University of Miami Miller School of Medicine, Miami, Florida - USA.
出版信息
J Vasc Access. 2016 May 7;17(3):279-83. doi: 10.5301/jva.5000514. Epub 2016 Mar 26.
PURPOSE
This study presents a method to quantify micro-stiffness variations in experimental arteriovenous fistulae (AVF).
METHODS
AVF created by anastomosing the superficial epigastric vein to the femoral artery in Sprague-Dawley rats were allowed to remodel for 21 days before being harvested and preserved in culture medium. A custom atomic force microscope was used to measure microvascular stiffness (Young's modulus) in three areas of the AVF: the inflow artery, the juxta-anastomotic area, and the outflow vein. Morphometric measurements and collagen and elastin contents were also determined.
RESULTS
Atomic force microscopy indentation revealed an increased stiffness in the juxta-anastomotic area of the AVF compared to the outflow vein and inflow artery. The juxta-anastomotic area was also significantly stiffer than the contralateral vein. The lack of elasticity (higher Young's modulus) of the juxta-anastomotic region was associated with a thicker vascular wall that was rich in collagen but poor in elastin.
CONCLUSIONS
This study demonstrates for the first time the feasibility of using atomic force microscopy to measure local stiffness variations in experimental AVF. This technique could be instrumental in advancing our understanding of how micro-spatial organization of the AVF wall determines the overall biomechanical performance of this type of vascular access.
目的
本研究提出一种量化实验性动静脉内瘘(AVF)微观硬度变化的方法。
方法
在Sprague-Dawley大鼠中,将腹壁浅静脉与股动脉吻合建立AVF,使其重塑21天,然后收获并保存在培养基中。使用定制的原子力显微镜测量AVF三个区域的微血管硬度(杨氏模量):流入动脉、吻合口附近区域和流出静脉。还进行了形态测量以及胶原蛋白和弹性蛋白含量的测定。
结果
原子力显微镜压痕显示,与流出静脉和流入动脉相比,AVF吻合口附近区域的硬度增加。吻合口附近区域也明显比同侧静脉更硬。吻合口附近区域缺乏弹性(较高的杨氏模量)与血管壁增厚有关,血管壁富含胶原蛋白但弹性蛋白含量低。
结论
本研究首次证明了使用原子力显微镜测量实验性AVF局部硬度变化的可行性。这项技术可能有助于推进我们对AVF壁的微观空间组织如何决定这种血管通路的整体生物力学性能的理解。
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