A review on pore and porosity in tissue engineering
G Beniwal, KK Saxena - Materials Today: Proceedings, 2021 - Elsevier
Now a days, tissue engineering plays an important role in replacement of damaged tissues
and organs made using conventional method of manufacturing ie, rapid prototyping. In this …
and organs made using conventional method of manufacturing ie, rapid prototyping. In this …
Polymer-based composite scaffolds for tissue engineering
A Gloria, R De Santis… - Journal of Applied …, 2010 - journals.sagepub.com
Tissue engineering may be defined as the application of biological, chemical and
engineering principles toward the repair, restoration or regeneration of living tissue using …
engineering principles toward the repair, restoration or regeneration of living tissue using …
3D printing of PCL/nano-hydroxyapatite scaffolds derived from biogenic sources for bone tissue engineering
F Cestari, M Petretta, Y Yang, A Motta, B Grigolo… - Sustainable Materials …, 2021 - Elsevier
Bioactive composites made of∽ 85 wt% poly (ε-caprolactone)(PCL) and∽ 15 wt%
nanometric hydroxyapatite (HA) produced from biogenic sources were 3D printed by an …
nanometric hydroxyapatite (HA) produced from biogenic sources were 3D printed by an …
Three-dimensional plotted scaffolds with controlled pore size gradients: Effect of scaffold geometry on mechanical performance and cell seeding efficiency
Scaffolds produced by rapid prototyping (RP) techniques have proved their value for tissue
engineering applications, due to their ability to produce predetermined forms and structures …
engineering applications, due to their ability to produce predetermined forms and structures …
A tailored polylactic acid/polycaprolactone biodegradable and bioactive 3D porous scaffold containing gelatin nanofibers and Taurine for bone regeneration
The focus of the current study was to develop a functional and bioactive scaffold through the
combination of 3D polylactic acid (PLA)/polycaprolactone (PCL) with gelatin nanofibers …
combination of 3D polylactic acid (PLA)/polycaprolactone (PCL) with gelatin nanofibers …
Modulating mechanical behaviour of 3D-printed cartilage-mimetic PCL scaffolds: influence of molecular weight and pore geometry
Abstract Three-dimensional (3D)-printed poly (ε)-caprolactone (PCL)-based scaffolds are
increasingly being explored for cartilage tissue engineering (CTE) applications. However …
increasingly being explored for cartilage tissue engineering (CTE) applications. However …
Optimizing PANi doped electroactive substrates as patches for the regeneration of cardiac muscle
In scaffold aided regeneration of muscular tissue, composite materials are currently utilized
as a temporary substrate to stimulate tissue formation by controlled electrochemical signals …
as a temporary substrate to stimulate tissue formation by controlled electrochemical signals …
Dispersion strategies for low-dimensional nanomaterials and their application in biopolymer implants
Low-dimensional nanomaterials have great potential in enhancing mechanical properties of
biopolymer implants due to their unique structure and properties. However, irreversible …
biopolymer implants due to their unique structure and properties. However, irreversible …
Polylactic acid fibre-reinforced polycaprolactone scaffolds for bone tissue engineering
The employment of composite scaffolds with a well-organized architecture and multi-scale
porosity certainly represents a valuable approach for achieving a tissue engineered …
porosity certainly represents a valuable approach for achieving a tissue engineered …
Design, evaluation, and optimization of 3D printed truss scaffolds for bone tissue engineering
One of tissue engineering's main goals is to fabricate three-dimensional (3D) scaffolds with
interconnected pores to reconstruct and regenerate damaged or deformed tissues and …
interconnected pores to reconstruct and regenerate damaged or deformed tissues and …