Regional Atherosclerotic Plaque Properties in ApoE–/– Mice Quantified by Atomic Force, Immunofluorescence, and Light Microscopy

弹性蛋白 刚度 原子力显微镜 病理 显微镜 动脉壁 病变 化学 纤维帽 生物物理学 解剖 材料科学 医学 复合材料 生物 纳米技术 内科学
作者
Heather N. Hayenga,Andreea Trache,Jerome P. Trzeciakowski,Jay D. Humphrey
出处
期刊:Journal of Vascular Research [Karger Publishers]
卷期号:48 (6): 495-504 被引量:41
标识
DOI:10.1159/000329586
摘要

Elucidating regional material properties of arterial tissue is fundamental to predicting transmural stresses and understanding how tissue stiffness influences cellular responses and vice versa. Atomic force microscopy (AFM) was used to measure point-wise the axial compressive stiffness of healthy aortas and atherosclerotic plaques at micron level separation distances. Cross sections of plaques were obtained from a widely used animal model of atherosclerosis (ApoE–/– mice). Median point-wise values of material stiffness were 18.7 and 1.5 kPa for the unloaded healthy wall (n = 25 specimens) and plaque (n = 18), respectively. When the healthy wall was distended uniformly during AFM testing, two mechanically distinct populations emerged from comparisons of normal cumulative distributions, with median values of 9.8 and 76.7 kPa (n = 16). The higher values of stiffness may have been due to extended elastin, which was not present in the plaques. Rather, most plaques were identified via standard and immunofluorescent histology to be largely lipid laden, and they exhibited a nearly homogeneous linear elastic behavior over the small AFM indentations. Understanding the mechanics and mechanobiological factors involved in lesion development and remodeling could lead to better treatments for those lesions that are vulnerable to rupture.

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