Add to ORKGRecent studies have shown that cell shape and tissue structure can dictate functional behavior in engineered tissues 1. One method for controlling tissue structure in vitro is microcontact printing, where extracellular matrix proteins are patterned on a substrate to construct arrays of single cells or multicellular tissues. This technique is used to create tissues that mimic in vivo architecture which can be used to study tissue properties and disease mechanisms 2. Traditional seeding of cells on the substrate is imprecise, but our group has developed a microfluidic device for spatial control of cell seeding, which creates more replicable high-fidelity tissues. However, the current method is low-throughput and labor intensive. Here, we pres...
Bioprinting is a powerful technology with the potential to transform medical device manufacturing, o...
Enabling the high-throughput biological assays requires a favorable biomimetic environment with appr...
Tissues are complex mixtures of different cell subtypes, and this diversity is increasingly characte...
This report describes a high throughput microfluidic method to control cell placement in two-dimensi...
This paper shows both experimental and in-depth theoretical studies (including simulations and analy...
Intercellular communication is a fundamental driver of tissue function across developing, mature, as...
Cell patterning has been widely used in research on fundamental cell biology and in applications suc...
Micropatterning strategies, which enable control over cell and tissue architecture in vitro, have em...
Micropatterning strategies, which enable control over cell and tissue architecture in vitro, have em...
Surface chemistry meets tissue engineering: A novel surface-patterning approach for creating arrays ...
Surface chemistry meets tissue engineering: A novel surface-patterning approach for creating arrays ...
Cellular spheroids serving as three-dimensional (3D) in vitro tissue models have attracted increasin...
Herein we report an easy but versatile method for patterning different cells on a single substrate b...
Herein we report an easy but versatile method for patterning different cells on a single substrate b...
International audienceA novel technology is reported to immobilize different types of particles or c...
Bioprinting is a powerful technology with the potential to transform medical device manufacturing, o...
Enabling the high-throughput biological assays requires a favorable biomimetic environment with appr...
Tissues are complex mixtures of different cell subtypes, and this diversity is increasingly characte...
This report describes a high throughput microfluidic method to control cell placement in two-dimensi...
This paper shows both experimental and in-depth theoretical studies (including simulations and analy...
Intercellular communication is a fundamental driver of tissue function across developing, mature, as...
Cell patterning has been widely used in research on fundamental cell biology and in applications suc...
Micropatterning strategies, which enable control over cell and tissue architecture in vitro, have em...
Micropatterning strategies, which enable control over cell and tissue architecture in vitro, have em...
Surface chemistry meets tissue engineering: A novel surface-patterning approach for creating arrays ...
Surface chemistry meets tissue engineering: A novel surface-patterning approach for creating arrays ...
Cellular spheroids serving as three-dimensional (3D) in vitro tissue models have attracted increasin...
Herein we report an easy but versatile method for patterning different cells on a single substrate b...
Herein we report an easy but versatile method for patterning different cells on a single substrate b...
International audienceA novel technology is reported to immobilize different types of particles or c...
Bioprinting is a powerful technology with the potential to transform medical device manufacturing, o...
Enabling the high-throughput biological assays requires a favorable biomimetic environment with appr...
Tissues are complex mixtures of different cell subtypes, and this diversity is increasingly characte...