Primary preparation of 3-dimensional external distractor for zygomatic distraction osteogenesis
- VernacularTitle:颧骨三维牵张器的初步研制
- Author:
Enqun WANG
;
Kai ZHANG
;
Fangyou YU
- Publication Type:Journal Article
- From:
Chinese Journal of Tissue Engineering Research
2006;10(37):155-157
- CountryChina
- Language:Chinese
-
Abstract:
BACKGROUND: Distractor has decided the development of distraction osteogenesis since it was applied in oral and maxillofacial surgery. How to breach the limit of traditional distraction osteogenesis lies on designing three-dimensional (3-D) distractor.OBJECTIVE: To explore the design and manufacture of 3-D external distractor for zygomatic bone.SETTING: Department of Oral and Maxillofacial Surgery, First Affiliated Hospital of Anhui Medical University.DESIGN: An experiment of the external distraction system for 3-D distraction osteogenesis.MATERIALS: The distractor was made of biological material titanium with well histocompatibility, and consisted of three parts (support, expansion and direction-change) as well as some fittings such as titanium backup plate, spanner and rubber mat, etc.METHODS: Caprine of 10 months old were selected to separate the heads and prepare for isolated zygomatic models. Zygomatic bones were generally curve and made up of four-process-in-one, with the identical formation as human being. According to principle of mechanical movement,two support plates were designed to move relatively, which transferred randomly along with two perpendicular directions. It was done to change the direction and model 3-D distraction osteogenesis on zygomatic bone of the isolated caprine cranium.MAIN OUTCOME MEASURES: 3-D transference of expansion board and whole stabilization of distractor were observed in the process of distraction osteogenesis.RESULTS: The self-prepared 3-D external distractor was 30 g. The lengthener was built to provide 3-D suture expansion osteogenesis by changing the direction. The expansion bar could be moved about 2 cm in anteroposterior axes, 3.5 cm in perpendicular axes, 3 cm in coronal axes.CONCLUSION: The 3-D distractor is simple, accurate and practicable in experimental study, and lays a foundation for clinical study in the future.
