玻璃

Analysis of Long-term Morphological Changes of Micro-patterned Molecules and Cells on PDMS and Glass Surfaces;Notes

ty10086 提交于 周四, 08/26/2021 - 13:00
We demonstrated that our previously developed gas-phase fluoroalkylsilane patterning method was applicable to polydimethylsiloxane (PDMS) and we compared the stability of patterned proteins and cultured cells between PDMS and glass surfaces. The shapes of the protein patterns were stable on both glass and PDMS surfaces for more than 1 week. The cell patterns were stable on glass surfaces for 1 week, while those on PDMS collapsed within a few days.

聚二甲基硅氧烷以外:制造A芯片器官装置和微生理系统的替代材料。

ty10086 提交于 周三, 08/25/2021 - 15:36
聚二甲基硅氧烷( PDMS )具有使用方便、弹性好、光学透明、微加工成本低等优点,是用于芯片上器官设备和微生理系统的主要材料。然而,PDMS对小分子疏水分子的吸附以及PDMS负载器件的高通量制造能力有限,严重限制了这些系统在个性化医学、药物发现、体外药动学/药效学( PK / PD )建模以及细胞对药物反应研究中的应用。因此,相对年轻的片上器官设备和MPS领域正逐步开始为这些关键应用过渡到替代的非吸收材料。本综述审查了在开发由弹性体、水凝胶、热塑性聚合物和无机材料等替代材料组成的片上器官装置和MPS方面所采取的一些第一步。同时也提供了PDMS-交替器件走向何处以及基于PDMS替代材料的多功能器件发展中必须克服的障碍的展望。