Evaluation of tissue-engineered bone constructs using rabbit fetal osteoblasts on acellular bovine cancellous bone matrix

Aim: The aim of this study was to generate composite bone graft and investigate the rabbit fetal osteoblasts adhesion, proliferation and penetration on acellular matrices of cancellous bone. Materials and Methods: Acellular cancellous bone was prepared and developed as in the previous study with li...

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Main Authors: Rashmi, Rekha Pathak, Amarpal, H. P. Aithal, P. Kinjavdekar, A. M. Pawde, A. K. Tiwari, P. Sangeetha, P. Tamilmahan, A. B. Manzoor
Format: Article
Language:English
Published: Veterinary World 2017-02-01
Series:Veterinary World
Subjects:
Online Access:http://www.veterinaryworld.org/Vol.10/February-2017/5.pdf
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Summary:Aim: The aim of this study was to generate composite bone graft and investigate the rabbit fetal osteoblasts adhesion, proliferation and penetration on acellular matrices of cancellous bone. Materials and Methods: Acellular cancellous bone was prepared and developed as in the previous study with little modification. These matrices were decellularized by rapid freeze and thaw cycle. To remove the cell debris, they were then treated with hydrogen peroxide (3%) and ethanol to remove antigenic cellular and nuclear materials from the scaffold. Primary osteoblast cells were harvested from 20 to 22 days old rabbit fetal long and calvarial bone. These cells were cultured and characterized using a specific marker. The third passaged fetal osteoblast cells were then seeded on the scaffold and incubated for 14 days. The growth pattern of the cells was observed. Scanning electron microscope and hematoxylin and eosin staining were used to investigate cells proliferation. Results: The cells were found to be growing well on the surface of the scaffold and were also present in good numbers with the matrix filopodial extensions upto inside of the core of the tissue. Conclusion: Thus, a viable composite scaffold of bone could be developed which has a great potential in the field of bone tissue engineering.
ISSN:0972-8988
2231-0916