Three-dimensional finite element model of maxillary protraction of the maxilla in patients with cleft lip and palate.
- Author:
Yong-hua LEI
1
;
Xin-chun JIAN
;
Bi-qiao REN
Author Information
1. Department of Stomatology, Xiangya Hospital, Central South University, Changsha, China. lyh8484123@126.com
- Publication Type:Journal Article
- MeSH:
Biomechanical Phenomena;
Cleft Lip;
therapy;
Cleft Palate;
therapy;
Extraoral Traction Appliances;
Finite Element Analysis;
Humans;
Imaging, Three-Dimensional;
Malocclusion;
therapy;
Maxilla;
physiology;
Retrognathia;
therapy
- From:
Journal of Central South University(Medical Sciences)
2008;33(10):898-905
- CountryChina
- Language:Chinese
-
Abstract:
OBJECTIVE:To determine the effective rule of protraction in different directions,strains, and shifts of maxillary bone,and to supply the scientific data for treatment of the maxilla in patients with cleft lip and palate.
METHODS:" Based on the establishment of 3-dimensional finite element model of maxilla with cleft lip and palate,ANSYS 10.0 software was used to simulate protraction,and then we analyzed the change of maxillary stress and shift in the same force of traction in different directions.
RESULTS:With 500 g per lateral protraction and the protraction angle from 20 degree to 45 degree,the maxillary shifted upward, forward, and outward, and the shape of maxillary plate bow showed internal shrinkage. There was a close relation between the internal shrinkage and the direction of protraction. The smaller the angle between the direction of protraction and the functional occlusion plane,the larger the internal shrinkage of tooth bow. The larger the angle between the direction of protraction and the functional occlusion plane,the smaller the internal shrinkage of tooth bow.
CONCLUSION:With protraction,the maxilla grows upward, forward, and outward, and the maxillary palate shinks internally. There is a close relation between the direction of protraction and the range of internal shrinkage.
