Cartilage tissue repair procedures currently under development aim to create a construct in which patient-derived cells are seeded and expanded ex vivo before implantation back into the body. The key challenge is producing physiologically realistic constructs that mimic real tissue structure and function. One option with vast potential is to print strands of material in a 3D structure called a scaffold that imitates the real tissue structure; the strands are composed of gel seeded with cells and so provide a template for cartilaginous tissue growth. The scaffold is placed in the construct and pumped with nutrient-rich culture medium to supply nutrients to the cells and remove waste products, thus promoting tissue growth.In this paper we use...
The treatment of articular cartilage defects remains a significant clinical challenge. This is parti...
Articular cartilage is a unique tissue with limited self-repair ability. The field of articular cart...
Successful tissue engineering requires the generation of human scale implants that mimic the structu...
Cartilage tissue repair procedures currently under development aim to create a construct in which pa...
Damage to cartilage, caused either by disease or injury, affects a large number of people worldwide,...
Structure of tissue scaffold plays a critical role in guiding and supporting cell proliferation and ...
The limited healing capacity of articular cartilage forms a major clinical problem. In general, curr...
This research posits a fundamental change in design philosophy for tissue engineering scaffolds from...
[[abstract]]Cartilage is a unique tissue with structures specifically designed for its intended func...
Tissue failure due to aging or diseases reduces the quality of life for individuals. In the case of ...
Today, tissue engineers are attempting to engineer virtually every human tissue. Potential tissue-en...
Regenerating the load-bearing tissues requires 3D scaffolds that balance the temporary mechanical fu...
Tissue engineering (TE) is known as a methodology that mimics the physiological microenvironment by...
Osteochondral tissue is a biphasic material comprised of articular cartilage integrated atop subch...
Articular cartilage, which is a white transparent tissue with 1–2 mm thickness, is located in the in...
The treatment of articular cartilage defects remains a significant clinical challenge. This is parti...
Articular cartilage is a unique tissue with limited self-repair ability. The field of articular cart...
Successful tissue engineering requires the generation of human scale implants that mimic the structu...
Cartilage tissue repair procedures currently under development aim to create a construct in which pa...
Damage to cartilage, caused either by disease or injury, affects a large number of people worldwide,...
Structure of tissue scaffold plays a critical role in guiding and supporting cell proliferation and ...
The limited healing capacity of articular cartilage forms a major clinical problem. In general, curr...
This research posits a fundamental change in design philosophy for tissue engineering scaffolds from...
[[abstract]]Cartilage is a unique tissue with structures specifically designed for its intended func...
Tissue failure due to aging or diseases reduces the quality of life for individuals. In the case of ...
Today, tissue engineers are attempting to engineer virtually every human tissue. Potential tissue-en...
Regenerating the load-bearing tissues requires 3D scaffolds that balance the temporary mechanical fu...
Tissue engineering (TE) is known as a methodology that mimics the physiological microenvironment by...
Osteochondral tissue is a biphasic material comprised of articular cartilage integrated atop subch...
Articular cartilage, which is a white transparent tissue with 1–2 mm thickness, is located in the in...
The treatment of articular cartilage defects remains a significant clinical challenge. This is parti...
Articular cartilage is a unique tissue with limited self-repair ability. The field of articular cart...
Successful tissue engineering requires the generation of human scale implants that mimic the structu...