This paper focuses on tissue engineering (TE) from the biomaterialist\u2019s point of view. With the aim of answering some simple but key questions about TE, the related literature is here reviewed. In order to obtain an engineered tissue the following steps are mandatory: (a) cell selection, (b) identification of the ideal three-dimensional scaffold for cell seeding and proliferation, (c) choice of the most suitable type of cell culture. Whereas the biotechnologist working in the TE field is responsible for optimizing the cell seeding and culture, the biomaterialist has the challenging task of optimizing the three-dimensional cell support, or scaffold. Therefore, in the present paper, scaffold properties, biomaterials and fabrication techn...
The aim of tissue engineering is to develop cell, construct, and living system technologies to resto...
Every day thousands of surgical procedures are performed to replace or repair tissue that has been d...
Three-dimensional (3D) printing has demonstrated its great potential in producing functional scaffol...
This paper focuses on tissue engineering (TE) from the biomaterialist’s point of view. With the aim ...
Scaffolds for tissue engineering are devices exploiting specific and complex physical and biological...
Tissue engineering is a concept whereby cells are taken from a patient, their number expanded and se...
Today, tissue engineers are attempting to engineer virtually every human tissue. Potential tissue-en...
Tissue regeneration is an auto-healing mechanism, initiating immediately following tissue damage to ...
Tissue engineering (TE) and regenerative medicine combines the principles of biomaterials and cell t...
Tissue engineering is a multidisciplinary area that has been put forward to offer solutions to the p...
Introduction Tissue engineering (TE) is a multidisciplinary field that combines the principles of en...
In tissue engineering, a highly porous artificial extracellular matrix or scaffold is required to ac...
Tissue engineering has emerged as a promising scientific field potentially yielding in vitro develop...
Tissue engineering involves creation of three-dimensional tissue structures, also referred to as sca...
7th Textile Bioengineering and Informatics Symposium (TBIS 2014) / 5th Asian Protective Clothing Con...
The aim of tissue engineering is to develop cell, construct, and living system technologies to resto...
Every day thousands of surgical procedures are performed to replace or repair tissue that has been d...
Three-dimensional (3D) printing has demonstrated its great potential in producing functional scaffol...
This paper focuses on tissue engineering (TE) from the biomaterialist’s point of view. With the aim ...
Scaffolds for tissue engineering are devices exploiting specific and complex physical and biological...
Tissue engineering is a concept whereby cells are taken from a patient, their number expanded and se...
Today, tissue engineers are attempting to engineer virtually every human tissue. Potential tissue-en...
Tissue regeneration is an auto-healing mechanism, initiating immediately following tissue damage to ...
Tissue engineering (TE) and regenerative medicine combines the principles of biomaterials and cell t...
Tissue engineering is a multidisciplinary area that has been put forward to offer solutions to the p...
Introduction Tissue engineering (TE) is a multidisciplinary field that combines the principles of en...
In tissue engineering, a highly porous artificial extracellular matrix or scaffold is required to ac...
Tissue engineering has emerged as a promising scientific field potentially yielding in vitro develop...
Tissue engineering involves creation of three-dimensional tissue structures, also referred to as sca...
7th Textile Bioengineering and Informatics Symposium (TBIS 2014) / 5th Asian Protective Clothing Con...
The aim of tissue engineering is to develop cell, construct, and living system technologies to resto...
Every day thousands of surgical procedures are performed to replace or repair tissue that has been d...
Three-dimensional (3D) printing has demonstrated its great potential in producing functional scaffol...