快速腭扩展对腭裂颅面骨骼的生物力学影响：三维有限元分析

Biomechanical effects of rapid palatal expansion on the craniofacial skeleton with cleft palate: a three-dimensional finite element analysis.

作者信息

Pan Xiaogang, Qian Yufen, Yu Jia, Wang Dongmei, Tang Yousheng, Shen Gang

机构信息

Department of Orthodontics, School of Stomatology, Ninth People's Hospital, School of Medicine, Shanghai Jiao Tong University, Shanghai Research Institute of Stomatology, Shanghai, China.

出版信息

Cleft Palate Craniofac J. 2007 Mar;44(2):149-54. doi: 10.1597/05-161.1.

DOI:10.1597/05-161.1

PMID:17328641

Abstract

OBJECTIVE

To explore the biomechanical effects of rapid palatal expansion (RPE) on the craniofacial skeleton with cleft palate.

DESIGN

A finite element model of a patient's skull with cleft lip and palate (CLP) was generated using data from spiral computed tomographic (CT) scans. Finite elemental analysis (FEA) was performed to depict the physiological changes and stress distribution in craniofacial structures loaded with orthopedic forces that created 5 mm of displacement on the region of the maxillary first premolar and first molar crown.

PATIENTS, PARTICIPANTS: A 14-year-old girl with left complete unilateral CLP was included in this study.

INTERVENTIONS

Spiral CT was carried out prior to any treatment.

MAIN OUTCOME MEASURE(S): Three-dimensional (3D) features of displacement and stress distribution were analyzed following application of transverse orthopedic force.

RESULTS

Marked amount of displacement and deformation occurred in the dental region. Asymmetric displacement and deformation of UCLP under RPE were evident. The stress generated by RPE was dispersed around the cleft palate and nasal cavity, and was distributed at the buttress of the maxilla-inferior border of the nasal cavity, outboard of the orbit, and central frontal bone near the nasion.

CONCLUSIONS

Application of RPE to UCLP patients induces a pyramid-like displacement of the nasomaxillary complex along with fan-like expansion of the upper dental arch. The uniqueness of RPE with UCLP, however, lies in the asymmetric expansion and dispersed stress distribution around the lateral maxilla buttress and outboard of orbit.

摘要

目的

探讨快速腭扩展（RPE）对腭裂患者颅面骨骼的生物力学影响。

设计

利用螺旋计算机断层扫描（CT）数据建立唇腭裂（CLP）患者颅骨的有限元模型。进行有限元分析（FEA），以描述在上颌第一前磨牙和第一磨牙牙冠区域产生5mm位移的矫形力作用下颅面结构的生理变化和应力分布。

患者、参与者：本研究纳入一名14岁左侧完全性单侧唇腭裂女孩。

干预措施

在任何治疗前进行螺旋CT扫描。

主要观察指标

施加横向矫形力后分析位移和应力分布的三维（3D）特征。

结果

牙区出现明显的位移和变形。RPE作用下单侧完全性唇腭裂（UCLP）的不对称位移和变形明显。RPE产生的应力分散在腭裂和鼻腔周围，并分布在上颌-鼻腔下缘的支柱、眼眶外侧和鼻根附近的额骨中央。

结论

对UCLP患者应用RPE可导致鼻上颌复合体呈金字塔样位移，同时上颌牙弓呈扇形扩展。然而，UCLP患者RPE的独特之处在于上颌外侧支柱和眼眶外侧的不对称扩展和应力分散分布。

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Biomechanical effects of rapid palatal expansion on the craniofacial skeleton with cleft palate: a three-dimensional finite element analysis.快速腭扩展对腭裂颅面骨骼的生物力学影响：三维有限元分析

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快速腭扩展对腭裂颅面骨骼的生物力学影响：三维有限元分析

Biomechanical effects of rapid palatal expansion on the craniofacial skeleton with cleft palate: a three-dimensional finite element analysis.

作者信息

机构信息

出版信息

OBJECTIVE

DESIGN

INTERVENTIONS

RESULTS

CONCLUSIONS

目的

设计

干预措施

主要观察指标

结果

结论

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