The primary aim in tissue engineering is to repair, replace, and regenerate dysfunctional tissues to restore homeostasis. Cell delivery for repair and regeneration is gaining impetus with our understanding of constructing tissue-like environments. However, the perpetual challenge is to identify innovative materials or re-engineer natural materials to model cell-specific tissue-like 3D modules, which can seamlessly integrate and restore functions of the target organ. To devise an optimal functional microenvironment, it is essential to define how simple is complex enough to trigger tissue regeneration or restore cellular function. Here, the purposeful transition of cell immobilization from a cytoprotection point of view to that of a cell-inst...
Biomimetic approaches to the fabrication of advanced biomaterials and biostructures are used to addr...
Tissue grafting and organ transplantation are common techniques in modern medicine, but suffer from ...
Abstract Humans have a limited postinjury regenerative ability. Therefore, cell-derived biomaterials...
Despite important advances in tissue repair and regeneration over the past few decades, complete fun...
Cell encapsulation systems are being increasingly applied as multifunctional strategies to regenerat...
Tissue engineering approaches, with the goals of replacing or recovering damaged or diseased tissues...
Introduction: Successful tissue engineering strategies leading to the regeneration of a tissue depen...
In the primordial cell encapsulation systems, the main goal is to treat endocrine diseases avoiding ...
Cells in our tissues are exposed to complex arrays of biochemical and biophysical cues from their pr...
Tissue engineering (TE) is a rapidly evolving interdisciplinary field that joins together materials ...
The innate ability of stem cells to self-renew and differentiate into multiple cell types makes them...
In a developing organism, tissues emerge from coordinated sequences of cell renewal, differentiation...
Tissue engineering intends to create functionalized tissues/organs for regenerating the injured part...
ABSTRACT In recent years the science of tissue engineering has emerged as a powerful tool for the de...
Abstract Mesenchymal stem cell (MSC) encapsulation technique has long been emerged in tissue enginee...
Biomimetic approaches to the fabrication of advanced biomaterials and biostructures are used to addr...
Tissue grafting and organ transplantation are common techniques in modern medicine, but suffer from ...
Abstract Humans have a limited postinjury regenerative ability. Therefore, cell-derived biomaterials...
Despite important advances in tissue repair and regeneration over the past few decades, complete fun...
Cell encapsulation systems are being increasingly applied as multifunctional strategies to regenerat...
Tissue engineering approaches, with the goals of replacing or recovering damaged or diseased tissues...
Introduction: Successful tissue engineering strategies leading to the regeneration of a tissue depen...
In the primordial cell encapsulation systems, the main goal is to treat endocrine diseases avoiding ...
Cells in our tissues are exposed to complex arrays of biochemical and biophysical cues from their pr...
Tissue engineering (TE) is a rapidly evolving interdisciplinary field that joins together materials ...
The innate ability of stem cells to self-renew and differentiate into multiple cell types makes them...
In a developing organism, tissues emerge from coordinated sequences of cell renewal, differentiation...
Tissue engineering intends to create functionalized tissues/organs for regenerating the injured part...
ABSTRACT In recent years the science of tissue engineering has emerged as a powerful tool for the de...
Abstract Mesenchymal stem cell (MSC) encapsulation technique has long been emerged in tissue enginee...
Biomimetic approaches to the fabrication of advanced biomaterials and biostructures are used to addr...
Tissue grafting and organ transplantation are common techniques in modern medicine, but suffer from ...
Abstract Humans have a limited postinjury regenerative ability. Therefore, cell-derived biomaterials...