大鼠纤维肉瘤组织拉伸或细胞收缩对大分子穿透深度的影响

S. Mcguire, F. Yuan
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引用次数: 0

摘要

间质渗透是药物在肿瘤组织中传递的关键。为了实验确定大分子在稳态下的渗透深度,将大鼠纤维肉瘤组织切成600 /spl mu/m的薄片,分别在分子量为10 kDa、70 kDa和2000 kDa的右旋糖酐溶液中培养。孵育后,取10 /spl mu/m的横截面并成像,以确定归一化稳态浓度曲线与分子大小的关系。10 kDa葡聚糖浓度分布相对均匀。然而,70 kDa葡聚糖浓度分布不均匀,2000 kDa葡聚糖浓度分布最不均匀。在1 M甘露醇溶液中拉伸或孵育组织可以改善组织中大分子的渗透。这些结果表明,通过拉伸或缩小细胞大小来创造更多的间质空间可以改善组织中大分子的分布。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of tissue stretching or cell shrinkage on penetration depth of macromolecules in a rat fibrosarcoma
Interstitial penetration is critical for drug delivery in tumor tissues. To experimentally determine the penetration depth of macromolecules at the steady state, rat fibrosarcoma tissues were sectioned into 600 /spl mu/m slices and incubated in solutions of dextrans with molecular weights of 10 kDa, 70 kDa, and 2000 kDa, respectively. After incubation, 10 /spl mu/m cross-sections were taken and imaged to determine normalized steady-state concentration profiles as a function of molecular size. 10 kDa dextran had a relatively uniform concentration distribution. However, the concentration profile was nonuniform for 70 kDa dextran and the least uniform for 2000 kDa dextran. Stretching or incubation of tissues in 1 M mannitol solution improved the penetration of macromolecules in tissues. These results indicate that creating more interstitial space by either stretching or reducing cell size improves macromolecule distribution in tissues.
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