Keyphrases
Cartilage Tissue Engineering
100%
Particulate Leaching
100%
Organic Solvents
100%
Poly(L-lactic acid)
100%
Solvent Casting
100%
Bioresorbable Scaffold
100%
Leaching Process
100%
Thermal Process
75%
NaCl Particles
75%
Pore Size Distribution
75%
Interconnected Pores
50%
Sodium Chloride
25%
Scaffold for Tissue Engineering
25%
Tissue Engineering Applications
25%
Pore Size
25%
Particle Size
25%
Weight Ratio
25%
Mechanical Properties
25%
Heat Treatment
25%
NaCl Salt
25%
Scanning Electron Microscopic
25%
Melting Temperature
25%
Polymer Particles
25%
Uniform Distribution
25%
Tissue Scaffolds
25%
Cartilaginous Tissue
25%
Porogen
25%
Open-pore Structure
25%
Electron Microscopic Examination
25%
Pore Structure
25%
Conventional Solvents
25%
Powder Particles
25%
Distribution Properties
25%
Porosity Size
25%
Solvent Residue
25%
Biodegradable Polymer Scaffolds
25%
Polyglycolic Acid
25%
Closed-pore Structure
25%
Pore Structure Distribution
25%
Transplantation Site
25%
Mercury Intrusion Porosimetry
25%
Scaffold Porosity
25%
Engineering
Cartilage Tissue Engineering
100%
Thermal Process
100%
Fabricated Scaffold
100%
Biodegradable Scaffold
100%
Porosity
66%
Tissue Regeneration
66%
Engineering Application
33%
Engineering
33%
Heat Treatment
33%
Melting Temperature
33%
Engineering Scaffold
33%
Closed Pore Structure
33%
Mercury Intrusion Porosimetry
33%
Melting Point
33%
Material Science
Organic Solvents
100%
Pore Structure
100%
Plasticizer
100%
Pore Size
75%
Scaffold for Tissue Engineering
25%
Biodegradable Polymer
25%
Heat Treatment
25%
Polymer Particle
25%
Microscopy
25%
Pore Size Distribution
25%
Porosimetry
25%
Chemical Engineering
Lactic Acid
100%
Biodegradable Polymer
25%