Add to ORKGABSTRACT: We have designed and developed a microfluidic system to study the response of cells to controlled gradients of mechanical stiffness in 3D collagen gels. An 'H'-shaped, source-sink network was filled with a type I collagen solution, which self-assembled into a fibrillar gel. A 1D gradient of genipin-a natural crosslinker that also causes collagen to fluoresce upon crosslinking-was generated in the cross-channel through the 3D collagen gel to create a gradient of crosslinks and stiffness. The gradient of stiffness was observed via fluorescence. A separate, underlying channel in the microfluidic construct allowed the introduction of cells into the gradient. Neurites from chick dorsal root ganglia explants grew significantly...
Nerve regeneration following a peripheral nerve injury often relies on growth cone- mediated guidanc...
We report on the ability to control three-dimensional Schwann cell (SC) morphology using collagen I–...
Tissue-engineered bridging devices for surgical implantation into peripheral nerve injury sites coul...
Enhancing and directing axon regeneration through an injury site represents a prime goal for therapi...
Supplementary information files for article Impact of type-1 collagen hydrogel density on integrin-l...
Cellular metabolism and behaviour is closely linked to cytoskeletal tension and scaffold mechanics. ...
Elucidation of the interactions between cells and extracellular matrices (ECM) is critical to not on...
Bioengineered nerve guidance conduits (NGCs) offer a less invasive treatment option to current surgi...
Three dimensional (3D) in vitro neuronal cultures can better reproduce physiologically relevant phen...
Nervous system injury leads to the permanent loss of sensory and motor functions. Injectable hydroge...
AbstractThe design of bioactive materials allows tailored studies probing cell–biomaterial interacti...
Biophysical parameters such as substrate topography and stiffness have been shown independently to e...
The ultimate goal of regenerative medicine is to create functional engineered biomaterial to repair ...
peer reviewedOur aim is to devise an artificially reconstituted nerve segment made of a three-dimens...
Cell-embedded hydrogel has been widely used as engineered tissue equivalents in biomedical applicati...
Nerve regeneration following a peripheral nerve injury often relies on growth cone- mediated guidanc...
We report on the ability to control three-dimensional Schwann cell (SC) morphology using collagen I–...
Tissue-engineered bridging devices for surgical implantation into peripheral nerve injury sites coul...
Enhancing and directing axon regeneration through an injury site represents a prime goal for therapi...
Supplementary information files for article Impact of type-1 collagen hydrogel density on integrin-l...
Cellular metabolism and behaviour is closely linked to cytoskeletal tension and scaffold mechanics. ...
Elucidation of the interactions between cells and extracellular matrices (ECM) is critical to not on...
Bioengineered nerve guidance conduits (NGCs) offer a less invasive treatment option to current surgi...
Three dimensional (3D) in vitro neuronal cultures can better reproduce physiologically relevant phen...
Nervous system injury leads to the permanent loss of sensory and motor functions. Injectable hydroge...
AbstractThe design of bioactive materials allows tailored studies probing cell–biomaterial interacti...
Biophysical parameters such as substrate topography and stiffness have been shown independently to e...
The ultimate goal of regenerative medicine is to create functional engineered biomaterial to repair ...
peer reviewedOur aim is to devise an artificially reconstituted nerve segment made of a three-dimens...
Cell-embedded hydrogel has been widely used as engineered tissue equivalents in biomedical applicati...
Nerve regeneration following a peripheral nerve injury often relies on growth cone- mediated guidanc...
We report on the ability to control three-dimensional Schwann cell (SC) morphology using collagen I–...
Tissue-engineered bridging devices for surgical implantation into peripheral nerve injury sites coul...