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天然上颌中切牙与种植体应力规律的三维有限元分析

万林子高永波孙蕾吴熙凤林臻彦徐良伟刘朕哲徐多玲李阳周延民

中国组织工程研究2015，Vol.19Issue(16)：2545-2550,6.

中国组织工程研究2015，Vol.19Issue(16)：2545-2550,6.DOI:10.3969/j.issn.2095-4344.2015.16.016

天然上颌中切牙与种植体应力规律的三维有限元分析

Stress distribution in natural maxillary central incisor and implant: a three-dimensional finite element analysis

万林子 ¹高永波 ¹孙蕾 ¹吴熙凤 ²林臻彦 ¹徐良伟 ³刘朕哲 ¹徐多玲 ¹李阳 ¹周延民⁴

作者信息

1. 遵义医学院附属深圳市龙岗中心医院,广东省深圳市 518116
2. 深圳市龙岗区人民医院,广东省深圳市 518172
3. 浙江工业大学,浙江省杭州市 310014
4. 吉林大学口腔医院,吉林省长春市 130021
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摘要

Abstract

BACKGROUND:Biomechanical compatibility is the necessary condition to ensure the stable osseointegration with implants that then can function over a long period; therefore, it is especialy important to get knowledge about distribution of stress and strain between the maxilary central incisor and its surrounding bone tissue. OBJECTIVE: Based on five different anatomical types of natural teeth, to study the regularity of stress distribution between the maxilary central incisor root and implant.METHODS: According to the five different anatomical types of natural maxilary central incisors, UGNX and ANSYS were used to set up three-dimensional finite element models (B1, B2, M1, M2, P1) for the implant and surrounding structures, which were under 100 N static load at angles of 0o, 30o, 45o, 60o, 90o with the long axis of teeth. Then, the stress distribution between the five kinds of maxilary central incisor roots and implants was analyzed. RESULTS AND CONCLUSION:Among the five different anatomical types, the equivalent stress for both the natural central incisor and implant were increased with the increasing of angles, and the implant had a higher raising trend. The equivalent stress for the natural tooth concentrated upon B1 for the maximum value and M1 for the minimum value; while the equivalent stress for the implant focused on the maximum value at M1 and the minimum value at M2. There was a gap of 2%-31% between the equivalent stresses for the natural tooth roots and a gap of 4%-21% for the implants. The stress distribution range for the implant was just smaler than that for the natural tooth roots. It implies that the bit force of implant and natural tooth is in positive proportion to the bite angles, and the bite force that implant can burden is smaler than that the central incisor can.

关键词

生物材料/口腔生物材料/种植体/上颌中切牙/三维有限元/广东省自然科学基金

分类

医药卫生

引用本文复制引用

万林子,高永波,孙蕾,吴熙凤,林臻彦,徐良伟,刘朕哲,徐多玲,李阳,周延民..天然上颌中切牙与种植体应力规律的三维有限元分析[J].中国组织工程研究,2015,19(16):2545-2550,6.

基金项目

广东省自然科学基金资助面上项目(S2013010014978) （S2013010014978）

深圳市科技计划项目(JCYJ20140411150159436) （JCYJ20140411150159436）

深圳市科技研发基金项目(CXZZ20130517140636687) （CXZZ20130517140636687）

深圳市知识创新计划项目(JCYJ20140414124506131) （JCYJ20140414124506131）

中国组织工程研究

OA北大核心CSTPCD

ISSN：2095-4344

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