Impact of type and position of abutment connection on microstrain distribution: an in vitro study.

IF 2.7 3区医学 Q1 DENTISTRY, ORAL SURGERY & MEDICINE

Journal of Advanced Prosthodontics Pub Date : 2024-10-01 Epub Date: 2024-10-28 DOI:10.4047/jap.2024.16.5.290

Jekita Siripru, Usanee Puengpaiboon, Chamaiporn Sukjamsri, Basel Mahardawi, Napapa Aimjirakul

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引用次数: 0

Abstract

Purpose: The aim of this study was to investigate microstrains around two non-parallel implant-supported prostheses and different abutment connections and positions under vertical static load using strain gauges.

Materials and methods: 4 models simulating the mandibular unilateral free-end were fabricated. 8 implants (4.0 × 10 mm and 5.0 × 10 mm) were inserted in the second premolar, perpendicular to the occlusal plane, and the second molar, tilted at 15°. Four groups were analyzed: engaging and angled abutments (control group), both non-engaging abutments, both screw-and cement-retained prosthesis (SCRP) abutments, and engaging and non-engaging abutments. Strain gauges were placed buccally, lingually, mesially, and distally adjacent to each implant. The restoration was cement-retained in the control group and screw and cement-retained in the rest. Zirconia bridges were fixed on the abutment with NX3, and a 300 N vertical static load was applied. Microstrains were recorded and analyzed.

Results: Both non-engaging abutments showed the highest compressive microstrains (-52.975), followed by engaging, angled abutment (-25.239). SCRP-SCRP abutments had the lowest compressive microstrains (-14.505), while the engaging, non-engaging abutments showed tensile microstrains (0.418). Microstrains in SCRP-SCRP and engaging, non-engaging groups were significantly lower than in the control group (α = .05). Premolar areas showed compressive microstrains (-47.06), while molar sites had tensile microstrains (+0.91), with microstrains in premolars being significantly higher than in molar area (α = .05).

Conclusion: The types of abutment connections and positions may have a potential effect on microstrains at the implant-bone interface. SCRP-SCRP abutments could be an alternative to use in non-parallel implant-supported prostheses when two implants make an angle of no more than 20 degrees.

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基台连接的类型和位置对微应变分布的影响：体外研究。

目的：本研究旨在使用应变片研究两种非平行种植体支持的修复体以及不同基台连接和位置在垂直静力负荷下的微应变。将 8 个种植体（4.0 × 10 毫米和 5.0 × 10 毫米）分别植入第二前磨牙（垂直于咬合平面）和第二磨牙（倾斜 15°）。对四组基台进行了分析：啮合基台和倾斜基台（对照组）、非啮合基台、螺丝固位基台（SCRP）、啮合基台和非啮合基台。每个种植体的颊侧、舌侧、中侧和远侧都放置了应变片。对照组的修复体用水泥固位，其余组的修复体用螺丝和水泥固位。氧化锆桥体用 NX3 固定在基台上，并施加 300 牛顿的垂直静态负荷。记录并分析微应变：结果：两个非啮合基台都显示出最高的压缩微应变（-52.975），其次是啮合、有角度的基台（-25.239）。SCRP-SCRP 基台的微应变最低（-14.505），而啮合、非啮合基台的微应变为拉伸（0.418）。SCRP-SCRP 组和啮合、非啮合组的微应变明显低于对照组（α = .05）。前磨牙区域显示压缩微应变（-47.06），而磨牙部位显示拉伸微应变（+0.91），前磨牙区域的微应变明显高于磨牙区域（α = .05）：结论：基台连接的类型和位置可能会对种植体-骨界面的微应变产生潜在影响。当两个种植体的夹角不超过20度时，SCRP-SCRP基台可以作为非平行种植体支持修复体的替代选择。

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

Journal of Advanced Prosthodontics DENTISTRY, ORAL SURGERY & MEDICINE-

CiteScore

4.70

自引率

3.80%

发文量

期刊介绍： This journal aims to convey scientific and clinical progress in the field of prosthodontics and its related areas to many dental communities concerned with esthetic and functional restorations, occlusion, implants, prostheses, and biomaterials related to prosthodontics. This journal publishes • Original research data of high scientific merit in the field of diagnosis, function, esthetics and stomatognathic physiology related to prosthodontic rehabilitation, physiology and mechanics of occlusion, mechanical and biologic aspects of prosthodontic materials including dental implants. • Review articles by experts on controversies and new developments in prosthodontics. • Case reports if they provide or document new fundamental knowledge.