The culture of cells in a three-dimensional (3D) scaffold has been reported as a key issue influencing the newly formed tissue organization, either in vitro or in vivo. Scaffolds can present different material chemistry, geometry, structure, physical properties and degradation, as it has been explored in several chapters of this book. Herein, we intend to give the reader an overview of the most used tests for evaluation of cells cytotoxicity and their response to natural materials in vitro.(undefined)info:eu-repo/semantics/publishedVersio
Introduction: Studies on biomaterials involve assays aimed to assess the interactions between the bi...
With the recent improvements in three dimensional (3D) printing technologies, the potential for tiss...
Background: In cell-based therapies, in vitro studies on biomimetic cell–scaffold constructs can fa...
The culture of cells in a three-dimensional (3D) scaffold has been reported as a key issue influenci...
AbstractTissue engineered scaffolds are an integral part of future regenerative efforts, whether as ...
morphology, cellular environment and understanding their behavioral changes. The implementation of 3...
Biomimetic materials are designed to stimulate specific cellular responses at the molecular level. T...
Advanced biomaterials are increasingly used for numerous medical applications from the delivery of c...
In the past few years, biomaterials technologies together with significant efforts on developing bio...
This thesis shows new approaches to influence known materials to identify optimal physical parameter...
Biomimetic materials are designed to stimulate specific cellular responses at the molecular level. T...
The cytotoxicity of biomaterials can be tested in vitro using various culture systems. Liquid cultur...
Research in mammalian cell biology often relies on developing in vitro models to enable the growth o...
Animal models have been extensively developed in the last decades in biomedical field. Their use has...
Abstract: The use of biopolymers as a three dimensional (3D) support structure for cell growth is a ...
Introduction: Studies on biomaterials involve assays aimed to assess the interactions between the bi...
With the recent improvements in three dimensional (3D) printing technologies, the potential for tiss...
Background: In cell-based therapies, in vitro studies on biomimetic cell–scaffold constructs can fa...
The culture of cells in a three-dimensional (3D) scaffold has been reported as a key issue influenci...
AbstractTissue engineered scaffolds are an integral part of future regenerative efforts, whether as ...
morphology, cellular environment and understanding their behavioral changes. The implementation of 3...
Biomimetic materials are designed to stimulate specific cellular responses at the molecular level. T...
Advanced biomaterials are increasingly used for numerous medical applications from the delivery of c...
In the past few years, biomaterials technologies together with significant efforts on developing bio...
This thesis shows new approaches to influence known materials to identify optimal physical parameter...
Biomimetic materials are designed to stimulate specific cellular responses at the molecular level. T...
The cytotoxicity of biomaterials can be tested in vitro using various culture systems. Liquid cultur...
Research in mammalian cell biology often relies on developing in vitro models to enable the growth o...
Animal models have been extensively developed in the last decades in biomedical field. Their use has...
Abstract: The use of biopolymers as a three dimensional (3D) support structure for cell growth is a ...
Introduction: Studies on biomaterials involve assays aimed to assess the interactions between the bi...
With the recent improvements in three dimensional (3D) printing technologies, the potential for tiss...
Background: In cell-based therapies, in vitro studies on biomimetic cell–scaffold constructs can fa...