Today, tissue engineers are attempting to engineer virtually every human tissue. Potential tissue-engineered products include cartilage, bone, heart valves, nerves, muscle, bladder, liver, etc. Tissue engineering techniques generally require the use of a porous scaffold, which serves as a three-dimensional template for initial cell attachment and subsequent tissue formation both in vitro and in vivo. The scaffold provides the necessary support for cells to attach, proliferate, and maintain their differentiated function. Its architecture defines the ultimate shape of the new grown soft or hard tissue. In the early days of tissue engineering, clinically established materials such as collagen and polyglycolide were primarily considered as the ...
Tissue engineering has emerged as a promising scientific field potentially yielding in vitro develop...
Musculoskeletal tissue, bone and cartilage are under extensive investigation in tissue engineering r...
During the past two decades, tissue engineering and the regenerative medicine field have invested in...
Today, tissue engineers are attempting to engineer virtually every human tissue. Potential tissue-en...
Tissue engineering is a concept whereby cells are taken from a patient, their number expanded and se...
In tissue engineering, a highly porous artificial extracellular matrix or scaffold is required to ac...
Scaffolds for tissue engineering are devices exploiting specific and complex physical and biological...
Numerous surgical procedures are daily performed worldwide to replace and repair damaged tissue. Tis...
Tissue engineering (TE) and regenerative medicine combines the principles of biomaterials and cell t...
Biomaterials are often designed to act as scaffolds, i.e., 3D porous templates that support and stim...
The aim of tissue engineering is to develop cell, construct, and living system technologies to resto...
The more recently coined term "Regenerative Medicine" represents a shift in emphasis from current me...
Tissue engineering (TE) aims at the development of temporary replacement structures to be used in th...
This paper focuses on tissue engineering (TE) from the biomaterialist\u2019s point of view. With the...
Tissue regeneration is an auto-healing mechanism, initiating immediately following tissue damage to ...
Tissue engineering has emerged as a promising scientific field potentially yielding in vitro develop...
Musculoskeletal tissue, bone and cartilage are under extensive investigation in tissue engineering r...
During the past two decades, tissue engineering and the regenerative medicine field have invested in...
Today, tissue engineers are attempting to engineer virtually every human tissue. Potential tissue-en...
Tissue engineering is a concept whereby cells are taken from a patient, their number expanded and se...
In tissue engineering, a highly porous artificial extracellular matrix or scaffold is required to ac...
Scaffolds for tissue engineering are devices exploiting specific and complex physical and biological...
Numerous surgical procedures are daily performed worldwide to replace and repair damaged tissue. Tis...
Tissue engineering (TE) and regenerative medicine combines the principles of biomaterials and cell t...
Biomaterials are often designed to act as scaffolds, i.e., 3D porous templates that support and stim...
The aim of tissue engineering is to develop cell, construct, and living system technologies to resto...
The more recently coined term "Regenerative Medicine" represents a shift in emphasis from current me...
Tissue engineering (TE) aims at the development of temporary replacement structures to be used in th...
This paper focuses on tissue engineering (TE) from the biomaterialist\u2019s point of view. With the...
Tissue regeneration is an auto-healing mechanism, initiating immediately following tissue damage to ...
Tissue engineering has emerged as a promising scientific field potentially yielding in vitro develop...
Musculoskeletal tissue, bone and cartilage are under extensive investigation in tissue engineering r...
During the past two decades, tissue engineering and the regenerative medicine field have invested in...