Topics
polycaprolactoneChemical substance
gram-positiveSpecies
tetracycline hydrochlorideChemical substance
chitosanChemical substance
The cellWork
fibroblastAnatomical structure
Two semicrystalline polymers were blended to fabricate porous scaffolds for tissue engineering applications. Scaffolds containing polycaprolactone (PCL)/chitosan and nanohydroxyapatite (nHA) incorporated nHA/PCL/chitosan were produced using the freeze-drying technique. A model drug, tetracycline hydrochloride (tetracycline HCL), was incorporated into the scaffolds. The scaffolds were characterized using a scanning electron microscope (SEM), EDX, and water contact angle. The antibacterial properties of the nHA/PCL/chitosan/tetracycline HCL scaffold were tested and the scaffolds showed positive results on gram-positive and gram-negative bacteria. The cell biocompatibility using human skin fibroblast cells (HSF 1184) was examined. The scaffold...
Polyester films are modified with their bioactivity for tissue engineering by grafting a nano-struct...
Polymers have been extensively used to fabricate scaffolds for tissue regeneration in order to repai...
Tissue engineering is an evolving technique to reduce the limitations of the bone graft. It provides...
Two semicrystalline polymers were blended to fabricate porous scaffolds for tissue engineering appli...
Highly porous 3Dimensional (3D) scaffold becomes a promising alternative approach for bone repairing...
Highly porous 3Dimensional (3D) scaffold becomes a promising alternative approach for bone repairing...
Highly porous 3Dimensional (3D) scaffold becomes a promising alternative approach for bone repairing...
Tissue engineering is an evolving technique to reduce the limitations of the bone graft. It provides...
Three dimensional (3D) biodegradable porous scaffolds play a crucial role in bone tissue repair. In ...
The scaffold material and architecture of the scaffold can affect cell seeding and tissue growth bot...
Biomaterial-based scaffolds with suitable characteristics are highly desired in tissue engineering (...
Objective(s): Fabrication of scaffolds with improved mechanical properties and favorable cellular co...
Polymer blend made from poly(ε - caprolactone)/chitosan (PCL/CHT) offers interesting opportunities f...
Abstract: In this work, chitosan and collagen-chitosan porous scaffolds were produced by the freeze ...
Novel porous scaffolds were fabricated using biodegradable polylactide/chitosan blends. A combinatio...
Polyester films are modified with their bioactivity for tissue engineering by grafting a nano-struct...
Polymers have been extensively used to fabricate scaffolds for tissue regeneration in order to repai...
Tissue engineering is an evolving technique to reduce the limitations of the bone graft. It provides...
Two semicrystalline polymers were blended to fabricate porous scaffolds for tissue engineering appli...
Highly porous 3Dimensional (3D) scaffold becomes a promising alternative approach for bone repairing...
Highly porous 3Dimensional (3D) scaffold becomes a promising alternative approach for bone repairing...
Highly porous 3Dimensional (3D) scaffold becomes a promising alternative approach for bone repairing...
Tissue engineering is an evolving technique to reduce the limitations of the bone graft. It provides...
Three dimensional (3D) biodegradable porous scaffolds play a crucial role in bone tissue repair. In ...
The scaffold material and architecture of the scaffold can affect cell seeding and tissue growth bot...
Biomaterial-based scaffolds with suitable characteristics are highly desired in tissue engineering (...
Objective(s): Fabrication of scaffolds with improved mechanical properties and favorable cellular co...
Polymer blend made from poly(ε - caprolactone)/chitosan (PCL/CHT) offers interesting opportunities f...
Abstract: In this work, chitosan and collagen-chitosan porous scaffolds were produced by the freeze ...
Novel porous scaffolds were fabricated using biodegradable polylactide/chitosan blends. A combinatio...
Polyester films are modified with their bioactivity for tissue engineering by grafting a nano-struct...
Polymers have been extensively used to fabricate scaffolds for tissue regeneration in order to repai...
Tissue engineering is an evolving technique to reduce the limitations of the bone graft. It provides...
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