Your search keyword '"Mandibular condylar defect"' showing total 2 results

1. Using three-dimensional porous internal titanium scaffold or allogenic bone scaffold for tissue-engineering condyle as a novel reconstruction of mandibular condylar defects.

Author

Liu, Chang-Kui, Jing, Cai-xia, Tan, Xin-Ying, Xu, Juan, and Hu, Min

Subjects

*THREE-dimensional imaging, *TITANIUM, *TISSUE scaffolds, *JAW abnormalities, *TISSUE engineering, *MANDIBULAR condyle, *BIOCOMPATIBILITY, *THERAPEUTICS

Abstract

Abstract: Mandibular destruction resulting from tumours, trauma, congenital, ankylosis and other reasons leads to disturbed masticatory function. The ideal goal would be to reconstruct a condyle that is similar to the original. However, each of the condylar reconstruction approaches in current has specific shortcomings. Tissue engineering can provide a method to overcome these difficulties. A tissue-engineered mandibular condyle composed of bone and cartilage has been reported, but the strength and shape of the scaffolds used cannot meet the requirement of the clinical use. Freeze-dried allogenic condylar bone is biocompatible, bioresorbable of low antigenicity and provides the morphology for the condyle similar to the original. It is a good scaffold material for tissue engineering. The three-dimensional porous internal titanium scaffold is also biocompatible; it can be easily made into the shape that we need. The two scaffolds have sufficient mechanical strength before no bone formation. Hence, we hypothesise using a three-dimensional porous titanium scaffold or an allogenic bone scaffold combined with osteogenic, chondrogenic material and bone marrow stromal stem cells in vivo tissue engineering to repair condylar defects. This article discusses the hypotheses. [Copyright &y& Elsevier]

Published

2014

2. Using three-dimensional porous internal titanium scaffold or allogenic bone scaffold for tissue-engineering condyle as a novel reconstruction of mandibular condylar defects

Author

Min Hu, Liu Changkui, Tan Xinying, Cai-xia Jing, and Juan Xu

Subjects

Scaffold, Stromal cell, Materials science, Cartilage, General Medicine, medicine.disease, Chondrogenesis, Condyle, Tissue-engineering condyle, medicine.anatomical_structure, Tissue engineering, Mandibular condylar defect, medicine, Ankylosis, Bone marrow, Reconstruction, Biomedical engineering

Abstract

Mandibular destruction resulting from tumours, trauma, congenital, ankylosis and other reasons leads to disturbed masticatory function. The ideal goal would be to reconstruct a condyle that is similar to the original. However, each of the condylar reconstruction approaches in current has specific shortcomings. Tissue engineering can provide a method to overcome these difficulties. A tissue-engineered mandibular condyle composed of bone and cartilage has been reported, but the strength and shape of the scaffolds used cannot meet the requirement of the clinical use. Freeze-dried allogenic condylar bone is biocompatible, bioresorbable of low antigenicity and provides the morphology for the condyle similar to the original. It is a good scaffold material for tissue engineering. The three-dimensional porous internal titanium scaffold is also biocompatible; it can be easily made into the shape that we need. The two scaffolds have sufficient mechanical strength before no bone formation. Hence, we hypothesise using a three-dimensional porous titanium scaffold or an allogenic bone scaffold combined with osteogenic, chondrogenic material and bone marrow stromal stem cells in vivo tissue engineering to repair condylar defects. This article discusses the hypotheses.