Stress-strain curves of oral mucosal tissues were measured using direct mechanical testing. Measurements were conducted on both natural oral mucosal tissues and engineered devices, specifically a clinically developed ex vivo produced oral mucosal equivalent (EVPOME). As seeded cells proliferate on EVPOME devices, they produce a keratinized protective upper layer which fills in surface irregularities. These transformations can further alter stress-strain parameters as cells in EVPOME differentiate, more similar to natural oral mucosal tissues in contrast to an unseeded scaffold. In addition to tissue devices grown under normal conditions (37°C), EVPOMEs were also produced at 43°C. These thermally stressed specimens model possible failure mechanisms. Results from a mechanical deformation system capable of accurate measurements on small (approximately 1.0–1.5 cm2) cylindrical tissue samples are presented. Deformations are produced by lowering a circular piston, with a radius smaller than the sample radius, onto the center of the sample. Resulting force is measured with a precision electronic balance. Cultured EVPOME was less stiff than AlloDerm®, but similar to native porcine buccal tissue. Porcine skin and porcine palate tissues were even less stiff. Thermally stressed EVPOME was less stiff than normally cultured EVPOME as expected because stressed keratin cells were damaged reducing the structural integrity of the tissue.
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机译:使用直接机械测试测量口腔粘膜组织的应力-应变曲线。测量是在天然口腔粘膜组织和工程设备上进行的,特别是临床开发的离体产生的口腔粘膜当量(EVPOME)。随着种子细胞在EVPOME设备上增殖,它们会产生角化的保护性上层,该上层填充了表面不规则性。这些转变可以进一步改变应力应变参数,因为EVPOME中的细胞分化了,与无种子的支架相比,它更类似于天然的口腔粘膜组织。除了在正常条件下(37°C)下生长的组织设备外,还在43°C下生产了EVPOMEs。这些受热应力的样本对可能的失效机理进行了建模。给出了能够精确测量小的(大约1.0–1.5 cm 2 )圆柱形组织样本的机械变形系统的结果。通过将半径小于样品半径的圆形活塞降低到样品中心产生变形。用精密电子天平测量合力。培养的EVPOME的硬度不如AlloDerm®,但类似于天然的猪颊组织。猪皮肤和猪pa组织的僵硬程度甚至更低。如预期的那样,热应激的EVPOME的硬度不如正常培养的EVPOME硬,这是因为应激的角蛋白细胞受损,从而降低了组织的结构完整性。
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