Add to ORKGThe culturing of cancer cells on micropatterned substrates can provide insight into the factors of the extracellular environment that enable the control of cell growth. We report here a novel non-UV-based technique to quickly micropattern a poly-(ethylene) glycol diacrylate (PEGDA)-based hydrogel on top of modified glass substrates, which were then used to control the growth patterns of breast cancer cells. Previously, the fabrication of micropatterned substrates required relatively complicated steps, which made it impractical for researchers to rapidly and systematically investigate the effects of different cell growth patterns. The technique presented herein operates on the principle of optically-induced electrokinetics (OEKs) and uses co...
In this study, we have developed an integrated microfluidic platform for actively patterning mammali...
Synthetic hydrogels have been used widely as extracellular matrix (ECM) mimics due to the ability to...
This paper describes a light-addressable electrolytic system used to perform an electrodeposition of...
The culturing of cancer cells on micropatterned substrates can provide insight into the factors of t...
Fabrication of extracellular microenvironment for cancer cell growth in vitro is an indispensable te...
Our bodies are composed of complex tissues and organs, and each tissue is governed by the careful co...
Fabrication of cell growth environment in vitro to control the cell spatial arrangement and prolifer...
The determination of the mechanical properties of cells plays an important role in biological stud...
Three-dimensional (3D) micro-engineered hydrogel biomaterials incorporating cells is a promising in ...
Cultivation of adherently growing cells in artificial environments is of utmost importance in medici...
A considerable number of studies have examined how intrinsic factors regulate breast cancer cell beh...
The development of microengineered hydrogels co-cultured with cells in vitro could advance in vivo b...
Techniques for cellular encapsulation within three-dimensional (3D) structures, such as bioprinting ...
Many naturally occurring cells possess an intrinsic ability to cross biological barriers that block ...
In this study, we have developed an integrated microfluidic platform for actively patterning mammali...
In this study, we have developed an integrated microfluidic platform for actively patterning mammali...
Synthetic hydrogels have been used widely as extracellular matrix (ECM) mimics due to the ability to...
This paper describes a light-addressable electrolytic system used to perform an electrodeposition of...
The culturing of cancer cells on micropatterned substrates can provide insight into the factors of t...
Fabrication of extracellular microenvironment for cancer cell growth in vitro is an indispensable te...
Our bodies are composed of complex tissues and organs, and each tissue is governed by the careful co...
Fabrication of cell growth environment in vitro to control the cell spatial arrangement and prolifer...
The determination of the mechanical properties of cells plays an important role in biological stud...
Three-dimensional (3D) micro-engineered hydrogel biomaterials incorporating cells is a promising in ...
Cultivation of adherently growing cells in artificial environments is of utmost importance in medici...
A considerable number of studies have examined how intrinsic factors regulate breast cancer cell beh...
The development of microengineered hydrogels co-cultured with cells in vitro could advance in vivo b...
Techniques for cellular encapsulation within three-dimensional (3D) structures, such as bioprinting ...
Many naturally occurring cells possess an intrinsic ability to cross biological barriers that block ...
In this study, we have developed an integrated microfluidic platform for actively patterning mammali...
In this study, we have developed an integrated microfluidic platform for actively patterning mammali...
Synthetic hydrogels have been used widely as extracellular matrix (ECM) mimics due to the ability to...
This paper describes a light-addressable electrolytic system used to perform an electrodeposition of...