Add to ORKGThe surface topography of biomaterials can have an important impact on cellular adhesion, growth and proliferation. Apart from the overall roughness, the detailed morphological features, at all length scales, significantly affect the cell-biomaterial interactions in a plethora of applications including structural implants, tissue engineering scaffolds and biosensors. In this study, we present a simple, one-step direct laser patterning technique to fabricate nanoripples and dual-rough hierarchical micro/nano structures to control SW10 cell attachment and migration. It is shown that, depending on the laser processing conditions, distinct cell-philic or cell-repellant patterned areas can be attained with a desired motif. We envisage that our t...
Artificial biomimetic substrates provide useful models for studying cell adhesion, signaling, and di...
Micro and nanoscale topographical structuring of biomaterial surfaces has been a valuable tool for i...
Cell shape in vitro can be directed by geometrically defined micropatterned adhesion substrates. How...
The extracellular matrix (ECM) is a nanostructured environment that provides chemical, mechanical, a...
International audienceCell shape in vitro can be directed by geometrically defined micropatterned ad...
Activities: Fibroblast and neuronal cultures on micro/nano structured silicon scaffolds The main aim...
The last decade has seen exciting and unprecedented work at the interface between biology and materi...
Cell shape in vitro can be directed by geometrically-defined micropatterned adhesion substrates. How...
Cells are known to interact with their physical environment and respond to cues such as substrate to...
The fabrication of complex, reproducible, and accurate micro-and nanostructured interfaces that impe...
The control of the interaction between materials and biological tissues is a key factor to optimize ...
This article discusses the adhesion of C2C12 mouse myoblast cells to a microstructured polydimethyls...
abstract: Precise spatial positioning and isolation of mammalian cells is a critical component of ma...
International audienceUnderstanding how topographical cues can control cell behavior is a major fund...
Cell responses depend on the stimuli received by the surrounding extracellular environment, which pr...
Artificial biomimetic substrates provide useful models for studying cell adhesion, signaling, and di...
Micro and nanoscale topographical structuring of biomaterial surfaces has been a valuable tool for i...
Cell shape in vitro can be directed by geometrically defined micropatterned adhesion substrates. How...
The extracellular matrix (ECM) is a nanostructured environment that provides chemical, mechanical, a...
International audienceCell shape in vitro can be directed by geometrically defined micropatterned ad...
Activities: Fibroblast and neuronal cultures on micro/nano structured silicon scaffolds The main aim...
The last decade has seen exciting and unprecedented work at the interface between biology and materi...
Cell shape in vitro can be directed by geometrically-defined micropatterned adhesion substrates. How...
Cells are known to interact with their physical environment and respond to cues such as substrate to...
The fabrication of complex, reproducible, and accurate micro-and nanostructured interfaces that impe...
The control of the interaction between materials and biological tissues is a key factor to optimize ...
This article discusses the adhesion of C2C12 mouse myoblast cells to a microstructured polydimethyls...
abstract: Precise spatial positioning and isolation of mammalian cells is a critical component of ma...
International audienceUnderstanding how topographical cues can control cell behavior is a major fund...
Cell responses depend on the stimuli received by the surrounding extracellular environment, which pr...
Artificial biomimetic substrates provide useful models for studying cell adhesion, signaling, and di...
Micro and nanoscale topographical structuring of biomaterial surfaces has been a valuable tool for i...
Cell shape in vitro can be directed by geometrically defined micropatterned adhesion substrates. How...