用有限元分析评价2种种植体治疗上颌切牙缺失4例的应力分布

Hilal Gumus
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摘要

本研究的目的是利用三维有限元分析(3D finite element analysis, FEA)评估在4个缺失的上颌切牙区域使用两种不同位置和不同直径的种植体获得的治疗方案在骨水平、种植体和修复体部位的应力分布。建立了4个模拟人前牙缺失上颌的三维有限元模型。这是一项体外研究,仅通过计算机程序进行有限元分析来评估。模型1 (M1):种植体直径4.3mm至2个中切牙区域,模型2 (M2):种植体直径4.3mm至2个侧切牙区域,模型3 (M3):种植体直径3.3mm至2个侧切牙区域,模型4 (M4):种植体直径4.3mm至中切牙区域,种植体直径3.3mm至侧切牙区域。采用钛种植体和钛基牙。在此基础上设计了四单元整体氧化锆骨水泥固定部分假体。对假体上每颗牙的带带以与长轴45度角施加100N的斜向力。通过有限元分析获得的数据对种植体、假体部分和骨的应力值进行评估。骨组织的最大和最小主应力在模型3中最大,在模型1中最小。模型3中基牙、种植体、螺钉和假体的Von Mises值最高。根据获得的应力值,可以考虑将标准直径种植体放置在中切牙位于前区的位置,以减少对骨的应力。可以避免侧切牙窄径种植体治疗。
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Evaluation of the stress distributions of the treatment options with 2 implants for 4 missing maxillary incisors with finite element analysis
The aim of this study is to evaluate the stress distributions in the bone level, implant and prosthesis parts with three-dimensional (3D) finite element analysis (FEA) in treatment options obtained by using two implants in different positions and different diameters in the four missing maxillary incisors region. Four 3D FEA models were obtained simulating the human maxilla with anterior 4 missing teeth. It is an in vitro study evaluated only by performing FEA with a computer program. Model 1 (M1): 4.3mm diameter implant to 2 central incisors regions, Model 2 (M2): 4.3mm diameter implant to 2 lateral incisors regions, Model 3 (M3): 3.3mm diameter implant to 2 lateral incisors regions and Model 4 (M4): 4.3mm diameter implant to central incisor region, 3.3mm diameter to lateral incisor region. Titanium implants and titanium abutments were used. Four-unit monolithic zirconia cemented fixed partial prostheses were designed on them. An oblique force of 100N was applied to the cingulum of each tooth on the prosthesis at an angle of 45 degrees to the long axis. The data obtained by performing FEA on the stress values in the implants, prosthesis parts and bone were evaluated. Maximum and minimum principal stress in the bone tissue was observed most in model 3 and least in model 1. Von Mises values in the abutment, implant, screw and prosthesis were highest in model 3. According to the obtained stress values, it may be considered the best option to place a standard diameter implant where the central incisors are in the anterior region in order to reduce the stress on the bone. Treatment with a narrow-diameter implant with lateral incisors can be avoided.
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