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Materials and Manufacturing Processes Volume 30, 2015 - Issue 3
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Original Articles

Chitosan-Based Nanocomposite Scaffolds for Tissue Engineering Applications

Naznin SultanaDepartment of Clinical Sciences, Faculty of Biosciences and Medical Engineering, UTM-IJN Cardiovascular Engineering Centre, Universiti Teknologi Malaysia, Johor, MalaysiaCorrespondence[email protected] [email protected]
,
Masturah MokhtarDepartment of Clinical Sciences, Faculty of Biosciences and Medical Engineering, UTM-IJN Cardiovascular Engineering Centre, Universiti Teknologi Malaysia, Johor, Malaysia
,
Mohd. Izzat HassanDepartment of Clinical Sciences, Faculty of Biosciences and Medical Engineering, UTM-IJN Cardiovascular Engineering Centre, Universiti Teknologi Malaysia, Johor, Malaysia
,
Rashid Mad JinDepartment of Clinical Sciences, Faculty of Biosciences and Medical Engineering, UTM-IJN Cardiovascular Engineering Centre, Universiti Teknologi Malaysia, Johor, Malaysia
,
Fatemeh RoozbahaniDepartment of Clinical Sciences, Faculty of Biosciences and Medical Engineering, UTM-IJN Cardiovascular Engineering Centre, Universiti Teknologi Malaysia, Johor, Malaysia
&
Tareef Hayat KhanKALAM, Department of Architecture, Faculty of Alam Bina, Universiti Teknologi Malaysia, Johor, Malaysia
Pages 273-278 | Received 02 Oct 2013, Accepted 31 Jan 2014, Published online: 17 Nov 2014
 
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Abstract

This article reports the fabrication of three-dimensional porous chitosan and hydroxyapatite (HA)/chitosan composite scaffolds by the thermally induced phase separation (TIPS) technique, for bone tissue engineering. Different amounts of HA nanoparticles (10%, 20%, and 30% g/g) were added to the chitosan solution to produce HA/chitosan composite scaffolds of varying compositions. The morphology and pore structure of the scaffolds vis-à-vis composition were characterized using scanning electron microscopy (SEM) and an energy dispersive X-ray (EDX). Both pure chitosan and HA/chitosan composite scaffolds were highly porous and had interconnected pores. The pore sizes ranged from several micrometers to a few hundred micrometers. The HA nanoparticles were well dispersed and physically coexisted with chitosan in the composite scaffolds. However, some agglomeration of HA nanoparticles was observed on the surface of pore walls when a relatively large amount of HA was used. The composite 3D scaffolds are very promising for use in bone tissue engineering application.

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