The effect of mini-implant lengths on stress distributions in peri-implant surface

doi:10.3969/j.issn.1000-1182.2011.01.007

West China Journal of Stomatology

Previous Articles Next Articles

The effect of mini-implant lengths on stress distributions in peri-implant surface

SHAN Li-hua1, DONG Fu-sheng2, GONG Wei-wei3, ZHANG Xiong3

1. Dept. of Orthodontics, The Second Hospital, Hebei Medical University, Shijiazhuang 050000, China; 2. Dept. of Oral and Maxillofacial Surgery, Hospital of Stomatology, Hebei Medical University, Shijiazhuang 050017, China; 3. Dept. of Engineering Mechanics, Tsinghua University, Beijing 100084, China

Received:2011-02-25 Revised:2011-02-25 Online:2011-02-20 Published:2011-02-20
Contact: DONG Fu-sheng，Tel：0311-86266796

Abstract

Abstract:

Objective To observe the effect of mini-implant lengths on stress distribution in peri-implant surface. Methods The 3D finite element analysis mandible and mini-implant models with diameter of 1.6 mm, lengths of 6, 8, 10 and 12 mm were established. The mini-implants were inserted into designed site of mandibular vertically, respectivly. A force of 1.96 N were applied mesioly and 45° tilted mesio-vertically in models. The stress distribution under every condition was recorded and analyzed. Results When load was applied mesially, the maximum stress varied from 3.500 to 3.765 MPa, the maximum displacement varied from 1.266 to 1.288 μm. When load was applied 45° tilted mesio-vertically, the maximum stress varied from 4.075 to 4.510 MPa, the maximum displacement varied from 1.668 to 1.694 μm. All of the maximum stress and displacement of loading mesially were lower than loading mesiovertically. Conclusion The change of the mini-implant length within 6-12 mm don’t show much influence on the stress distribution. The loading type is an important factor influencing stress and displacement of peri-implant bone.

Key words: mini-implant, stress distribution, finite element analysis

SHAN Li-hua1, DONG Fu-sheng2, GONG Wei-wei3, ZHANG Xiong3. The effect of mini-implant lengths on stress distributions in peri-implant surface[J]. West China Journal of Stomatology, doi: 10.3969/j.issn.1000-1182.2011.01.007.

[1]	Wang Liangtao, Li Shan, Lu Doudou, Chen Zheng.. Structural design of gradient porous dental implant based on orthogonal test [J]. West China Journal of Stomatology, 2023, 41(6): 647-652.
[2]	Kang Fujia, Yu Lei, Zhang Qi, Li Xinpeng, Hu Zhiqiang, Zhu Xianchun.. Three-dimensional finite element study of mandibular first molar distalization with clear aligner [J]. West China Journal of Stomatology, 2023, 41(4): 405-413.
[3]	Shi Zean, Xia Kai, Luo Liangyu, Zhao Zhihe, Liu Jun.. Three-dimensional finite element analysis of upper anterior teeth retraction and intrusion using clear aligners and mini-implants [J]. West China Journal of Stomatology, 2022, 40(5): 589-596.
[4]	Zhang Shuai, Lü Chuan, Li Jinhong, Zhu Baomin, Wang Weiqian. Three-dimensional finite element analysis of the influence of an abutment buffer layer on implant stress distribution [J]. West China Journal of Stomatology, 2020, 38(5): 537-540.
[5]	She Yahu,Zhang Yiyi,Liu Yuxuan,Fang Changyun. Three-dimensional finite element analysis of cuspal-coverage thickness influence on the stress distribution of all-ceramic onlay-restored premolars [J]. West China Journal of Stomatology, 2019, 37(6): 636-641.
[6]	Zhai Xiaoyang,Zhang Jingya,Zhang Sanke,Jiang Chuanjing,Qiu Xiaoxia. Finite-element analysis of mandibular first molar with two marginal designs of endocrown for the repair of different defects [J]. West China Journal of Stomatology, 2019, 37(5): 480-484.
[7]	Xing Weibin, Zheng Shuxian, Yang Shiyi.. Finite elemental analysis of the influence of mandibular plane angle on the stress distribution of implant tooth [J]. West China Journal of Stomatology, 2016, 34(5): 502-505.
[8]	Zhang Yang, Wang Chao, Zhang Xiaonan, Xu Ling.. Evaluation of the stress distribution in tooth implant-supported fixed partial prostheses on different bone types under dynamic loads [J]. West China Journal of Stomatology, 2015, 33(3): 286-290.
[9]	Hui Jifang1, Zhang Han2, Qu Xiaodong3, Yan Weijun1, Shao Ping1. Finite element analysis of periodontal tissue stress distribution of labial inverted impacted maxillary central incisor [J]. West China Journal of Stomatology, 2015, 33(1): 67-70.
[10]	Su Yingmin, Song Guangbao, He Lingfeng, Zhong Zhenwei.. Photoelastic analysis of the biomechanical behavior of the bone interface of Tension More implants [J]. West China Journal of Stomatology, 2014, 32(5): 450-454.
[11]	Zhang Xing, Chen Songling, Zhang Yun, Qi Liuying.. Three-dimensional finite element analysis of the effect of orbital implant lengths on stress distributions in peri-implant surfaces [J]. West China Journal of Stomatology, 2014, 32(5): 484-487.
[12]	Lu Yingjuan, Chang Shaohai, Wu Hong, Yu Yansong, Ye Yushan, Chang Lanru, Wang Wei. Selection of optimal length and diameter of mini implant in two different forces: a three-dimensional finite element analysis [J]. West China Journal of Stomatology, 2014, 32(1): 85-90.
[13]	Shan Lihua, Zhou Guanjun, Li Xingchao, Qie Hui, Dong Fusheng. Mini-implant stability analysis at different healing times before loading [J]. West China Journal of Stomatology, 2013, 31(6): 557-560.
[14]	Lü Jia, Liu Cuiling3, Lan Jing, Gao Xu. Three-dimensional finite element analysis of the effect of the location and diameter of implants on the stress distribu-tion in three-unit implant-supported posterior cantilever fixed partial dentures under dynamic loads [J]. West China Journal of Stomatology, 2013, 31(6): 552-556.
[15]	Liu Chang, Zhu Xianchun, Zhang Xing, Guo Jingfang, Tang Guanqun.. Three-dimensional finite-element analysis of maxillary protraction based on labiolingual appliance [J]. West China Journal of Stomatology, 2013, 31(5): 457-462.

The effect of mini-implant lengths on stress distributions in peri-implant surface

RichHTML

PDF (PC)

Knowledge

Cited

Abstract

Cite this article

share this article

References

Related Articles 15

Recommended Articles

Metrics

Comments