Effects of Loading Forces, Loading Positions, and Splinting of Two, Three, or Four Ti-Zr (Roxolid®) Mini-Implants Supporting the Mandibular Overdentures on Peri-Implant and Posterior Edentulous Area Strains.

IF 5 3区 医学 Q1 ENGINEERING, BIOMEDICAL
Nikola Petricevic, Asja Celebic, Dario Puljic, Ognjen Milat, Alan Divjak, Ines Kovacic
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引用次数: 0

Abstract

Clinical indications for the Ti-Zr alloy (Roxolid®) mini-implants (MDIs) in subjects with narrow ridges are still under review. The aim was to analyze peri-implant and posterior edentulous area strains dependent on the MDI number, splinting status, loading force, and loading position. Six models were digitally designed and printed. Two, three, or four Ti-Zr MDIs, splinted with a bar or unsplinted (single units), supported mandibular overdentures (ODs), loaded with 50-300 N forces unilaterally, bilaterally, and anteriorly. The artificial mucosa thickness was 2 mm. Strain gauges were bonded on the vestibular and oral peri-implant sides of each MDI, and on the posterior edentulous area under the ODs. Loadings were performed through the metal plate placed on ODs' artificial teeth (15 times repeated). Arithmetic means with standard deviations and the significance of the differences (MANOVA, Sheffe post hoc) were calculated. Different MDI numbers, loading positions, forces, and splinting elicited different peri-implant microstrains. In the two-MDI models, 300 N force during unilateral loading elicited the highest microstrains (almost 3000 εμ on the loaded side), which can jeopardize bone reparation. On the opposite side, >2500 εμ was registered, which represents high strains. During bilateral loadings, microstrains hardly exceeded 2000 εμ, indicating that bilateral chewers or subjects having lower forces can benefit from the two Ti-Zr MDIs, irrespective of splinting. However, in subjects chewing unilaterally, and inducing higher forces (natural teeth antagonists), or bruxers, only two MDIs may not be sufficient to support the OD. By increasing implant numbers, peri-implant strains decrease in both splinted and single-unit MDI models, far beyond values that can interfere with bone reparation, indicating that splinting is not necessary. When the positions of the loading forces are closer to the implant, higher peri-implant strains are induced. Regarding the distal edentulous area, microstrains reached 2000 εμ only during unilateral loadings in the two-MDI models, and all other strains were lower, below 1500 εμ, confirming that implant-supported overdentures do not lead to edentulous ridge atrophy.

支撑下颌覆盖义齿的两个、三个或四个钛-锆(Roxolid®)微型种植体的加载力、加载位置和夹板对种植体周围和后部缺牙区应变的影响。
钛锆合金(Roxolid®)微型种植体(MDI)在窄脊受试者中的临床适应症仍在审查中。我们的目的是分析种植体周围和后部无牙颌区域的应变与 MDI 数量、夹板状态、加载力和加载位置的关系。通过数字化设计和打印了六个模型。两个、三个或四个 Ti-Zr MDI,用一根杆夹持或不夹持(单个),支撑下颌覆盖义齿(OD),单侧、双侧和前方加载 50-300 N 的力。人工粘膜厚度为 2 毫米。应变计粘结在每个 MDI 的前庭和口腔种植体周围,以及 OD 下的后方缺牙区。通过放置在外径假牙上的金属板进行加载(重复 15 次)。计算算术平均数和标准差以及差异的显著性(MANOVA,Sheffe post hoc)。不同的 MDI 数量、加载位置、力和夹板引起了不同的种植体周围微应变。在双 MDI 模型中,单侧加载时 300 N 的力引起的微应变最大(加载侧近 3000 εμ),这会危及骨修复。相反一侧的微应变大于 2500 εμ,这代表了高应变。在双侧加载期间,微应变几乎不超过 2000 εμ,这表明双侧咀嚼者或力量较低的受试者可以从两个钛锌 MDIs 中获益,而无需夹板。但是,对于单侧咀嚼、诱发力较大的受试者(天然牙拮抗剂)或磨牙者,只有两个 MDI 可能不足以支撑外径。通过增加种植体数量,夹板和单个 MDI 模型的种植体周围应变都会降低,远远超出了可能影响骨修复的值,这表明没有必要使用夹板。当加载力的位置更靠近种植体时,会引起更高的种植体周围应变。关于无牙颌远端区域,只有在双 MDI 模型中单侧加载时微应变达到 2000 εμ,其他所有应变都较低,低于 1500 εμ,这证实了种植体支持的覆盖义齿不会导致无牙颌嵴萎缩。
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来源期刊
Journal of Functional Biomaterials
Journal of Functional Biomaterials Engineering-Biomedical Engineering
CiteScore
4.60
自引率
4.20%
发文量
226
审稿时长
11 weeks
期刊介绍: Journal of Functional Biomaterials (JFB, ISSN 2079-4983) is an international and interdisciplinary scientific journal that publishes regular research papers (articles), reviews and short communications about applications of materials for biomedical use. JFB covers subjects from chemistry, pharmacy, biology, physics over to engineering. The journal focuses on the preparation, performance and use of functional biomaterials in biomedical devices and their behaviour in physiological environments. Our aim is to encourage scientists to publish their results in as much detail as possible. Therefore, there is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced. Several topical special issues will be published. Scope: adhesion, adsorption, biocompatibility, biohybrid materials, bio-inert materials, biomaterials, biomedical devices, biomimetic materials, bone repair, cardiovascular devices, ceramics, composite materials, dental implants, dental materials, drug delivery systems, functional biopolymers, glasses, hyper branched polymers, molecularly imprinted polymers (MIPs), nanomedicine, nanoparticles, nanotechnology, natural materials, self-assembly smart materials, stimuli responsive materials, surface modification, tissue devices, tissue engineering, tissue-derived materials, urological devices.
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