Lijun Kong scite author profile

A novel nano-hydroxyapatite (HA)/chitosan composite scaffold with high porosity was developed. The nano-HA particles were made in situ through a chemical method and dispersed well on the porous scaffold. They bound to the chitosan scaffolds very well. This method prevents the migration of nano-HA particles into surrounding tissues to a certain extent. The morphologies, components, and biocompatibility of the composite scaffolds were investigated. Scanning electron microscopy, porosity measurement, thermogravimetric analysis, X-ray diffraction, X-ray photoelectron spectroscopy, and Fourier transformed infrared spectroscopy were used to analyze the physical and chemical properties of the composite scaffolds. The biocompatibility was assessed by examining the proliferation and morphology of MC 3T3-E1 cells seeded on the scaffolds. The composite scaffolds showed better biocompatibility than pure chitosan scaffolds. The results suggest that the newly developed nano-HA/chitosan composite scaffolds may serve as a good three-dimensional substrate for cell attachment and migration in bone tissue engineering.

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Prevalence of Macrosomia and Its Risk Factors in China: A Multicentre Survey Based on Birth Data Involving 101 723 Singleton Term Infants

Kong

et al. 2014

Paediatric Perinatal Epid

103

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Degradation of covalently cross-linked carboxymethyl chitosan and its potential application for peripheral nerve regeneration

Kong

Sheng

et al. 2007

European Polymer Journal

163

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Lijun Kong

A study on the bioactivity of chitosan/nano-hydroxyapatite composite scaffolds for bone tissue engineering

Preparation and characterization of nano‐hydroxyapatite/chitosan composite scaffolds

Prevalence of Macrosomia and Its Risk Factors in China: A Multicentre Survey Based on Birth Data Involving 101 723 Singleton Term Infants

Degradation of covalently cross-linked carboxymethyl chitosan and its potential application for peripheral nerve regeneration

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