Cell-Fiber-Based 3D Tissue Array for Drug Response Assay

Abstract: For the establishment of a reproducible and sensitive assay system for three-dimensional (3D) tissue-based drug screening, it is essential to develop 3D tissue arrays with uniform shapes and high-cell numbers that prevent cell death in the center of the tissue. In recent years, 3D tissue arrays based on spheroids have attracted increased attention. However, they have only been used in specific tissues with hypoxic regions, such as cancer tissues, because nutrient deprivation and hypoxic regions are formed in t… Show more

“…Thus, the stabilization and localization of these ECM-protein hydrogels without any chemical modification is needed. Secondly, many researchers have already established their 3D tissue models in various shapes and sizes, from a microscaled spheroid to a tissue fiber of several millimeters (mm) 18 . Preferably, multiple-hydrogel localization should be adaptable to these existing models without complicating the already established protocols.…”

Localization of multiple hydrogels with MultiCUBE platform spatially guides 3D tissue morphogenesis in vitro

“…Thus, the stabilization and localization of these ECM-protein hydrogels without any chemical modification is needed. Secondly, many researchers have already established their 3D tissue models in various shapes and sizes, from a microscaled spheroid to a tissue fiber of several millimeters (mm) 18 . Preferably, multiple-hydrogel localization should be adaptable to these existing models without complicating the already established protocols.…”

Localization of multiple hydrogels with MultiCUBE platform spatially guides 3D tissue morphogenesis in vitro