Add to ORKGExtracellular matrix (ECM) biomaterials have shown promise for treating small artucular-joint defetcs. However, ECM-based biomaterials generally lack appropriate mechanical properties to support physiological loads and are prone to delamination in larger cartilage defects. To overcome these common mechanical limitations, a collagen hyaluronic-acid (CHyA) matrix, with proven regenerative potential, was reinforced with a bioabsorbable 3D-printed framework to support physiological loads. Polycaprolactone (PCL) was 3D-printed in two configurations, rectilinear and gyroid designs, that were extensively mechanically characterised. Both scaffold designs increased the compressive modulus of the CHyA matrices by three orders of magnitude, mimicking ...
Cartilage consists of chondrocytes and a special extracellular matrix (ECM) having unique biochemica...
The limited self-healing ability of cartilage necessitates the application of alternative tissue eng...
Articular cartilage possesses complex mechanical properties that provide healthy joints the ability ...
Articular cartilage has limited self-healing capacity and damaged cartilage can lead to osteoarthri...
Articular cartilage defects affect millions of people worldwide, including children, adolescents, an...
Cartilage is highly dependent on its extracellular matrix (ECM) for many of its vital characteristic...
Current cartilage tissue engineering strategies cannot as yet fabricate new tissue that is indisting...
Osteoarthritis is the leading cause of pain and disability worldwide. Progressive pathological cha...
Articular cartilage was thought to be one of the first tissues to be successfully engineered. Despit...
Achieving regeneration of articular cartilage is challenging due to the low healing capacity of the ...
Focal articular cartilage (AC) defects, if left untreated, can lead to debilitating diseases such as...
Current therapies to repair damaged articular cartilage fail to consistently or fully restore the bi...
Achieving regeneration of articular cartilage is challenging due to the low healing capacity of the ...
Due to the limited regenerative capacity of cartilage, untreated joint defects can advance to more e...
Articular cartilage (AC) has long been known as the tissue that “once destroyed, is not repaired”. D...
Cartilage consists of chondrocytes and a special extracellular matrix (ECM) having unique biochemica...
The limited self-healing ability of cartilage necessitates the application of alternative tissue eng...
Articular cartilage possesses complex mechanical properties that provide healthy joints the ability ...
Articular cartilage has limited self-healing capacity and damaged cartilage can lead to osteoarthri...
Articular cartilage defects affect millions of people worldwide, including children, adolescents, an...
Cartilage is highly dependent on its extracellular matrix (ECM) for many of its vital characteristic...
Current cartilage tissue engineering strategies cannot as yet fabricate new tissue that is indisting...
Osteoarthritis is the leading cause of pain and disability worldwide. Progressive pathological cha...
Articular cartilage was thought to be one of the first tissues to be successfully engineered. Despit...
Achieving regeneration of articular cartilage is challenging due to the low healing capacity of the ...
Focal articular cartilage (AC) defects, if left untreated, can lead to debilitating diseases such as...
Current therapies to repair damaged articular cartilage fail to consistently or fully restore the bi...
Achieving regeneration of articular cartilage is challenging due to the low healing capacity of the ...
Due to the limited regenerative capacity of cartilage, untreated joint defects can advance to more e...
Articular cartilage (AC) has long been known as the tissue that “once destroyed, is not repaired”. D...
Cartilage consists of chondrocytes and a special extracellular matrix (ECM) having unique biochemica...
The limited self-healing ability of cartilage necessitates the application of alternative tissue eng...
Articular cartilage possesses complex mechanical properties that provide healthy joints the ability ...