Add to ORKGCombining cellular self-alignment within tethered collagen gels with stabilization through subsequent removal of interstitial fluid has yielded a new process for the fabrication of aligned cellular biomaterials. This commentary discusses the generation of engineered neural tissue for peripheral nerve repair using this combination of techniques, providing additional insight into the rationale underpinning the approach. By describing the potential benefits of using cell and matrix interactions to organize 3D hydrogels that can be stabilized to form tissue-like constructs, the article aims to highlight the potential for th
Tissue-engineered cellular bridging devices for surgical implantation into peripheral nerve injury s...
Injuries to the peripheral nervous system affect 1 in 1,000 individuals each year. The implication o...
The desire for repair of tissue defects and injury is the major need prompting research into tissue ...
Combining cellular self-alignment within tethered collagen gels with stabilization through subsequen...
Many tissues (e.g. nervous system, cardiac and musculoskeletal) have anisotropic structures and cell...
There is a clinical demand to shorten the delay of reinnervation and improve functional recovery aft...
AbstractA new combination of tissue engineering techniques provides a simple and effective method fo...
Tissue-engineered bridging devices for surgical implantation into peripheral nerve injury sites coul...
Despite significant progress in the field of peripheral nerve repair, clinical success is still limi...
Introduction: A peripheral nerve repair device with the ability to enhance regeneration would be a p...
We report a novel implantable device that will deliver a tethered aligned collagen guidance conduit ...
Journal articleThe development of nerve guidance conduits is constantly evolving as the need arises ...
Peripheral nerve injury can be debilitating and may result in loss of sensory or motor function. Ner...
A new combination of tissue engineering techniques provides a simple and effective method for buildi...
Understanding and controlling the interactions that occur between cells and engineered materials (i....
Tissue-engineered cellular bridging devices for surgical implantation into peripheral nerve injury s...
Injuries to the peripheral nervous system affect 1 in 1,000 individuals each year. The implication o...
The desire for repair of tissue defects and injury is the major need prompting research into tissue ...
Combining cellular self-alignment within tethered collagen gels with stabilization through subsequen...
Many tissues (e.g. nervous system, cardiac and musculoskeletal) have anisotropic structures and cell...
There is a clinical demand to shorten the delay of reinnervation and improve functional recovery aft...
AbstractA new combination of tissue engineering techniques provides a simple and effective method fo...
Tissue-engineered bridging devices for surgical implantation into peripheral nerve injury sites coul...
Despite significant progress in the field of peripheral nerve repair, clinical success is still limi...
Introduction: A peripheral nerve repair device with the ability to enhance regeneration would be a p...
We report a novel implantable device that will deliver a tethered aligned collagen guidance conduit ...
Journal articleThe development of nerve guidance conduits is constantly evolving as the need arises ...
Peripheral nerve injury can be debilitating and may result in loss of sensory or motor function. Ner...
A new combination of tissue engineering techniques provides a simple and effective method for buildi...
Understanding and controlling the interactions that occur between cells and engineered materials (i....
Tissue-engineered cellular bridging devices for surgical implantation into peripheral nerve injury s...
Injuries to the peripheral nervous system affect 1 in 1,000 individuals each year. The implication o...
The desire for repair of tissue defects and injury is the major need prompting research into tissue ...