Add to ORKGThe aim of the present work is to generate at laboratory scale a biomaterial developed by in-vitro technology with similar characteristics to genuine leather. The generation of an in-vitro tissue from bovine fibroblasts is carried out using a scaffold to generate a three-dimensional extra-cellular matrix (3D ECM). The development of a biopelt is by an in-vitro production at lab scale in a bioreactor with specific culturing conditions.1 New methodologies to stabilize the biomaterial generated were investigated. In particular, the biomaterial was stabilized by immersion in solutions of vegetable tannins and cross-linking agents in an aqueous-solvent medium
In biofabrication, researchers aim to produce three-dimensional (3D) constructs for the regeneration...
Inspired from additive manufacturing's success, the structuring of biocompatible materials through b...
Three-dimensional bioprinting, thanks to its great versatility, flexibility, perfect reproducibility...
The aim of the present work is to generate by in vitro technology at laboratory scale a biomaterial ...
In order to fabricate an ideal scaffold to mimic the dermis skin layer, the scaffold must have the m...
The goal of regenerative medicine is the synthesis of replacement tissue by positioning vital cells ...
Biomaterials development for 3D bioprinting processes has become one of the major objectives of tiss...
Abstract Collagen, the most abundant extracellular matrix protein in animal kingdom belongs to a fam...
Three-dimensional scaffolds (3D) with controlled shape, dual porosity and long-term mechanical and d...
Bottom-up approach is an appealing strategy to build complex three-dimensional (3D) viable tissues i...
Bioinspiration (also known as bioinspired design) utilizes engineering and science to take lessons f...
Recently, bioprinting technology has gained attentions as a viable option to overcome current limita...
The construction of biomaterial scaffolds for cell seeding is now seen as the most common approach f...
© Copyright 2019, Mary Ann Liebert, Inc., publishers 2019. We present a modified method of embedded ...
The extracellular matrix of most natural tissues comprises various types of cells, including fibrobl...
In biofabrication, researchers aim to produce three-dimensional (3D) constructs for the regeneration...
Inspired from additive manufacturing's success, the structuring of biocompatible materials through b...
Three-dimensional bioprinting, thanks to its great versatility, flexibility, perfect reproducibility...
The aim of the present work is to generate by in vitro technology at laboratory scale a biomaterial ...
In order to fabricate an ideal scaffold to mimic the dermis skin layer, the scaffold must have the m...
The goal of regenerative medicine is the synthesis of replacement tissue by positioning vital cells ...
Biomaterials development for 3D bioprinting processes has become one of the major objectives of tiss...
Abstract Collagen, the most abundant extracellular matrix protein in animal kingdom belongs to a fam...
Three-dimensional scaffolds (3D) with controlled shape, dual porosity and long-term mechanical and d...
Bottom-up approach is an appealing strategy to build complex three-dimensional (3D) viable tissues i...
Bioinspiration (also known as bioinspired design) utilizes engineering and science to take lessons f...
Recently, bioprinting technology has gained attentions as a viable option to overcome current limita...
The construction of biomaterial scaffolds for cell seeding is now seen as the most common approach f...
© Copyright 2019, Mary Ann Liebert, Inc., publishers 2019. We present a modified method of embedded ...
The extracellular matrix of most natural tissues comprises various types of cells, including fibrobl...
In biofabrication, researchers aim to produce three-dimensional (3D) constructs for the regeneration...
Inspired from additive manufacturing's success, the structuring of biocompatible materials through b...
Three-dimensional bioprinting, thanks to its great versatility, flexibility, perfect reproducibility...