Shear wave elastography (SWE) has been widely adopted for clinical in vivo imaging of tissue elasticity for disease diagnosis, and this modality can be a valuable tool for in vitro mechanobiology studies but its full potential has yet to be explored. Here we present a laser speckle contrast SWE system for noncontact monitoring the spatiotemporal changes of the extracellular matrix (ECM) stiffness in three-dimensional cancer cell culture system while providing submillimeter spatial resolution and temporal resolution of 10?s. The shear modulus measured was found to be strongly correlated with the ECM fiber density in two types of cell culture system (r?=?0.832 with P??0.001, and r?=?0.642 with P?=?0.024 for cell culture systems containing 4?mg/ml Matrigel with 1?mg/ml and 2?mg/ml collagen type I hydrogel, respectively). Cell migration along the stiffness gradient in the cell culture system and an association between cell proliferation and the local ECM stiffness was observed. As the elasticity measurement is performed without the need of exogenous probes, the proposed method can be used to study how the microenvironmental stiffness interacts with cancer cell behaviors without possible adverse effects of the exogenous particles, and could potentially be an effective screening tool when developing new treatment strategies.
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机译:剪切波弹性成像(SWE)已被广泛用于组织弹性的临床体内成像以进行疾病诊断,这种方式可能是进行体外力学生物学研究的有价值的工具,但其全部潜力尚待探索。在这里,我们介绍了一种激光散斑对比度SWE系统,用于非接触式监测三维癌细胞培养系统中细胞外基质(ECM)刚度的时空变化,同时提供亚毫米级的空间分辨率和10 s的时间分辨率。发现在两种类型的细胞培养系统中,测得的剪切模量与ECM纤维密度密切相关(对于细胞培养,r?=?0.832,P?<?0.001,r?=?0.642,P?=?0.024)。含有4?mg / ml Matrigel和1?mg / ml和2?mg / ml I型胶原水凝胶的系统)。观察到细胞沿着细胞培养系统中的刚度梯度迁移,并且观察到细胞增殖与局部ECM刚度之间的关联。由于无需外部探针即可进行弹性测量,因此该方法可用于研究微环境刚度如何与癌细胞行为相互作用,而不会受到外部微粒的不利影响,并且在开发新的方法时可能是有效的筛选工具治疗策略。
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