Biomechanical behavior of immediately placed implant using bone graft and socket shield techniques: a 3D finite element analysis.

IF 2.4 2区医学 Q2 DENTISTRY, ORAL SURGERY & MEDICINE

Head & Face Medicine Pub Date : 2025-08-13 DOI:10.1186/s13005-025-00537-2

Reham A Rashwan, Sanaa H AbdElkader, Noha M Elkersh, Rewaa G AboElhassan

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引用次数: 0

Abstract

Background: Recently, several techniques for immediate implant placement have gained popularity, offering numerous advantages. These include the preservation of bone around the tooth socket and enhanced aesthetics. Nonetheless, the biomechanical behavior of implants and peri-implant tissues under immediate loading with these techniques remains uncertain. This study examines stress distribution surrounding an immediately placed implant, using socket shield and bone graft techniques compared to a healed socket.

Materials and methods: Cone-beam computed tomography (CBCT) scans of the anterior maxilla were used to construct finite element analysis (FEA) models. The process of modeling the implant, abutment, and provisional crown used standard tessellation language (STL) files of the original components. The implant was modeled in three clinical scenarios: a healed socket (HS), an extraction socket with bone graft (BG), and a socket shield (SS). A frictional contact (µ = 0.3) was established to simulate immediate loading. An axial load of 25.5 N and a non-axial load of 178 N at a 30° angle were applied along the implant's long axis in a palatal direction. FEA was conducted for stress distribution analysis.

Results: In evaluating maximum principal, von Mises stress distribution within the cortical bone, the HS model exhibited the highest stress level, with a maximum of 125 MPa, 127 MPa, respectively. The SS model demonstrated the lowest stress, recording a maximum of 82 MPa, 90.7 MPa, respectively, while the BG model had a maximum value of 115 MPa, 116.84 MPa, respectively. When assessing the von Mises stress distribution associated with the implant, the HS model recorded the highest stress value of 385 MPa. In contrast, the BG and SS models recorded lower stress values of 252 MPa and 281 MPa, respectively.

Conclusions: The socket shield technique exhibits advantageous biomechanical performance under immediate loading conditions by reducing stress on peri-implant bone and implant components. These results endorse its clinical applicability but necessitate further in vivo validation.

查看原文本刊更多论文

使用植骨和窝护技术即刻放置种植体的生物力学行为：三维有限元分析。

背景：最近，几种即刻种植体放置技术已经获得了普及，提供了许多优点。这些包括保存牙窝周围的骨头和增强美观。尽管如此，种植体和种植体周围组织在这些技术的即时载荷下的生物力学行为仍然不确定。本研究通过使用骨窝屏蔽和骨移植技术与愈合的骨窝进行比较，研究了立即放置种植体周围的应力分布。材料与方法：采用锥束计算机断层扫描（CBCT）对上颌前牙进行有限元分析（FEA）。种植体、基台和临时冠的建模过程使用原始部件的标准镶嵌语言（STL）文件。种植体在三种临床场景下建模：愈合的牙槽（HS），带骨移植物的拔出牙槽（BG）和牙槽屏蔽（SS）。建立摩擦接触（µ= 0.3）来模拟即时加载。沿种植体长轴向腭方向施加25.5 N的轴向载荷和178 N的30°角非轴向载荷。采用有限元法进行应力分布分析。结果：在评估骨皮质内最大principal von Mises应力分布时，HS模型的应力水平最高，最大值分别为125 MPa和127 MPa。SS模型最大应力为82 MPa、90.7 MPa， BG模型最大应力为115 MPa、116.84 MPa。在评估与种植体相关的von Mises应力分布时，HS模型的应力值最高，为385 MPa。相比之下，BG和SS模型的应力值较低，分别为252 MPa和281 MPa。结论：通过减少种植体周围骨和种植体组件的应力，套窝屏蔽技术在即时加载条件下表现出良好的生物力学性能。这些结果支持其临床适用性，但需要进一步的体内验证。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Head & Face Medicine DENTISTRY, ORAL SURGERY & MEDICINE-

CiteScore

4.70

自引率

3.30%

发文量

审稿时长

>12 weeks

期刊介绍： Head & Face Medicine is a multidisciplinary open access journal that publishes basic and clinical research concerning all aspects of cranial, facial and oral conditions. The journal covers all aspects of cranial, facial and oral diseases and their management. It has been designed as a multidisciplinary journal for clinicians and researchers involved in the diagnostic and therapeutic aspects of diseases which affect the human head and face. The journal is wide-ranging, covering the development, aetiology, epidemiology and therapy of head and face diseases to the basic science that underlies these diseases. Management of head and face diseases includes all aspects of surgical and non-surgical treatments including psychopharmacological therapies.