Add to ORKGScaffold-free systems have emerged as viable approaches for engineering load-bearing tissues. However, the tensile properties of engineered tissues have remained far below the values for native tissue. Here, by using self-assembled articular cartilage as a model to examine the effects of intermittent and continuous tension stimulation on tissue formation, we show that the application of tension alone, or in combination with matrix remodelling and synthesis agents, leads to neocartilage with tensile properties approaching those of native tissue. Implantation of tension-stimulated tissues results in neotissues that are morphologically reminiscent of native cartilage. We also show that tension stimulation can be translated to a human cell sour...
Recent work has established methods to engineer self-assembled, scaffold-free neocartilage from an e...
Tissue-engineered musculoskeletal soft tissues typically lack the appropriate mechanical robustness ...
In the rapidly growing field of tissue engineering, the functional properties of tissue substitutes ...
ii Tissue engineering has the potential of becoming an effective approach for the replacement of art...
Mechanical strength and the production of extracellular matrix (ECM) are essential characteristics f...
The use of tissue-engineered articular cartilage (TEAC) constructs has the potential to become a pow...
Tissue engineering aims to create implantable biomaterials for the repair and regeneration of damage...
This study aimed to improve the functional properties of anatomically-shaped meniscus constructs thr...
This study aimed to improve the functional properties of anatomically-shaped meniscus constructs thr...
Hyaline articular cartilage, the smooth, white, tissue that is found at the ends of long bones, does...
Neocartilage tissue engineering aims to address the shortcomings of current clinical treatments for ...
In vivo cartilage is in a state of constant mechanical stimulation. It is therefore reasonable to de...
In vivo cartilage is in a state of constant mechanical stimulation. It is therefore reasonable to de...
Cartilage tissue engineering typically involves the combination of a biodegradable polymeric support...
Tissue engineering and regenerative medicine provides the possibility for generating organs in labor...
Recent work has established methods to engineer self-assembled, scaffold-free neocartilage from an e...
Tissue-engineered musculoskeletal soft tissues typically lack the appropriate mechanical robustness ...
In the rapidly growing field of tissue engineering, the functional properties of tissue substitutes ...
ii Tissue engineering has the potential of becoming an effective approach for the replacement of art...
Mechanical strength and the production of extracellular matrix (ECM) are essential characteristics f...
The use of tissue-engineered articular cartilage (TEAC) constructs has the potential to become a pow...
Tissue engineering aims to create implantable biomaterials for the repair and regeneration of damage...
This study aimed to improve the functional properties of anatomically-shaped meniscus constructs thr...
This study aimed to improve the functional properties of anatomically-shaped meniscus constructs thr...
Hyaline articular cartilage, the smooth, white, tissue that is found at the ends of long bones, does...
Neocartilage tissue engineering aims to address the shortcomings of current clinical treatments for ...
In vivo cartilage is in a state of constant mechanical stimulation. It is therefore reasonable to de...
In vivo cartilage is in a state of constant mechanical stimulation. It is therefore reasonable to de...
Cartilage tissue engineering typically involves the combination of a biodegradable polymeric support...
Tissue engineering and regenerative medicine provides the possibility for generating organs in labor...
Recent work has established methods to engineer self-assembled, scaffold-free neocartilage from an e...
Tissue-engineered musculoskeletal soft tissues typically lack the appropriate mechanical robustness ...
In the rapidly growing field of tissue engineering, the functional properties of tissue substitutes ...