Cytocompatibility of MG-63 osteosarcoma cells on chitosan/hydroxyapatite/lignin hybrid composite scaffold in vitro

Author:

Kandil HebaORCID,Ekram Basma,Abo-Zeid Mona A M

Abstract

Abstract This study aims at fabricating promising cytocompatible hybrid biocomposite scaffolds from chitosan (CS), hydroxyapatite (HAP) and lignin (L) for bone tissue engineering by using freeze-drying technique. Different ratios of HAP to L (50:0, 37.5:12.5, 25:25 and 12.5:37.5) were taken to determine the optimum ratio for obtaining a composite with superior properties. The mechanical and biological properties of the resulting composites were investigated. The mechanical results showed that the prepared composite with a ratio of 25:25 of HAP/L exhibited a remarkable enhancement in the mechanical properties compared to the others. Additionally, it was found from the in vitro results that the addition of L enhanced the water uptake value of the resulting scaffolds indicating their increased hydrophilicity. As a result, a significant increase in the attachment and proliferation of MG-63 cell line (osteoblast like cells) was observed in composite scaffolds with L over the scaffold without L (CS/HAP). From these results, it could be suggested that the prepared composite scaffold with 25:25 of HAP/L is very promising biomaterials in bone tissue-engineering as it exhibited a better mechanical and biological properties than the other prepared composites.

Publisher

IOP Publishing

Subject

Biomedical Engineering,Biomaterials,Bioengineering

Reference46 articles.

1. New hybrid bioactive composites for bone substitution;Ślósarczyk;Processes,2020

2. Chitosan–amylopectin/hydroxyapatite and chitosan–chondroitin sulphate/hydroxyapatite composite scaffolds for bone tissue engineering;Venkatesan;Int. J. Biol. Macromol.,2012

3. Bone regeneration using bio-nanocomposite tissue reinforced with bioactive nanoparticles for femoral defect applications in medicine;Maghsoudlou;Avicenna J. Med. Biotechnol.,2020

4. Gelatin—alginate—cerium oxide nanocomposite scaffold for bone regeneration;Purohit;Mater. Sci. Eng. C,2020

5. Bone grafts and biomaterials substitutes for bone defect repair: a review;Wang;Bioact. Mater.,2017

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