Posterior atrophic jaws rehabilitated with prostheses supported by 5 × 5 mm implants with a nanostructured calcium-incorporated titanium surface or by longer implants in augmented bone. 3-year results from a randomised controlled trial.

Q1 Dentistry
Giorgio Gastaldi, Pietro Felice, Valeria Pistilli, Carlo Barausse, Daniela Rita Ippolito, Marco Esposito
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引用次数: 0

Abstract

Purpose: To evaluate whether 5.0 × 5.0 mm dental implants with a novel nanostructured calcium-incorporated titanium surface could be an alternative to implants of at least 10.0 mm long placed in bone augmented with bone substitutes in posterior atrophic jaws.

Materials and methods: Forty patients with atrophic posterior (premolar and molar areas) mandibles with 5.0 mm to 7.0 mm bone height above the mandibular canal, and 40 patients with atrophic maxillas with 4.0 mm to 6.0 mm below the maxillary sinus, were randomised according to a parallel group design to receive between one and three 5.0 mm implants or one to three at least 10.0 mm-long implants in augmented bone at two centres. All implants had a diameter of 5.0 mm. Mandibles were vertically augmented with interpositional bovine bone blocks covered with resorbable barriers. Implants were placed after 4 months. Maxillary sinuses were augmented with particulated porcine bone via a lateral window covered with resorbable barriers, and implants were placed simultaneously. All implants were submerged and loaded after 4 months with provisional prostheses. Four months later, definitive screw-retained or provisionally cement metal-ceramic or zirconia prostheses were delivered. Patients were followed to 3 years post-loading and the outcome measures were: prosthesis and implant failures, any complication, and peri-implant marginal bone level changes.

Results: Seven patients dropped out before the 3-year evaluation (two short mandibles, one short maxilla, two augmented mandibles and two augmented maxillae). In mandibles, two grafted patients were not prosthetically rehabilitated because of multiple complications and two implants failed in the same patient (the second was a replacement implant) vs one patient who lost a short implant and crown 2 years after loading. In maxillas one short implant failed with its provisional crown 3 months post-loading. There were no statistically significant differences in prostheses (difference in proportion = 0.001; 95% CI: -0.12 to 0.13; P = 1.000) and implant failures (difference in proportion = 0.00; 95% CI: -0.13 to 0.13; P = 1.000) up to 3 years after loading. Significantly, more complications occurred at mandibular grafted sites: 17 augmented patients were affected by complications vs eight patients treated with short implants in mandibles (difference in proportion = 0.43; 95% CI: 0.13 to 0.64; P = 0.008). In the maxilla, six sinus-lifted patients vs two patients treated with short implants were affected by complications; the difference not being statistically significant (difference in proportion = 0.21; 95% CI: -0.05 to 0.45; P = 0.232). Patients with mandibular short implants lost on average 1.10 mm of peri-implant bone at 3 years and patients with 10.0 mm or longer mandibular implants lost 1.39 mm. Patients with maxillary short implants lost on average 1.04 mm of peri-implant bone at 3 years and patients with 10 mm or longer maxillary implants lost 1.43 mm. Longer implants showed a greater bone loss up to 3 years after loading than short implants both in maxillae (mean difference: -0.39 mm; 95% CI: -0.70 to -0.07 mm; P = 0.017) and in mandibles (mean difference: -0.29 mm; 95% CI: -0.53 to -0.05 mm; P = 0.020).

Conclusions: Three years after loading, 5.0 mm × 5.0 mm implants achieved similar results than longer implants placed in augmented bone. Short implants might be a preferable choice to bone augmentation especially in posterior mandibles since the treatment is faster, cheaper and associated with less morbidity. However, 5- to 10-year post-loading data are necessary before making reliable recommendations.

采用纳米结构含钙钛表面的5 × 5 mm种植体或增强型骨长种植体修复后萎缩颌骨。3年的随机对照试验结果。
目的:评估具有新型纳米结构钙钛表面的5.0 × 5.0 mm牙种植体是否可以替代放置在后萎缩颌骨增骨材料中至少10.0 mm长的种植体。材料和方法:40例下颌后(前磨牙和磨牙区)萎缩患者,下颌管以上骨高度5.0 mm至7.0 mm,以及40例上颌窦以下4.0 mm至6.0 mm的萎缩患者,根据平行组设计随机分组,在两个中心接受1至3个5.0 mm种植体或1至3个至少10.0 mm长的种植体。所有种植体直径均为5.0 mm。下颌骨用覆盖可吸收屏障的牛骨块垂直增强。4个月后植入。上颌窦通过覆盖可吸收屏障的侧窗用颗粒状猪骨增强,同时放置种植体。所有种植体在4个月后浸入水中并装载临时假体。4个月后,提供固定螺钉或临时水泥金属陶瓷或氧化锆假体。对患者进行加载后3年的随访,结果测量是:假体和种植体失败,任何并发症,种植体周围边缘骨水平变化。结果:7例患者在3年评估前退出(2例短下颌骨,1例短上颌骨,2例增长下颌骨,2例增长上颌骨)。在下颌骨,由于多种并发症,两名移植患者未能修复,同一患者中有两名种植体失败(第二名是替代种植体),而一名患者在装填后2年失去了短种植体和冠。上颌1例短种植失败,其临时冠在装填后3个月失效。两组假体间差异无统计学意义(比例差异= 0.001;95% CI: -0.12 ~ 0.13;P = 1.000)和种植体失败(比例差异= 0.00;95% CI: -0.13 ~ 0.13;P = 1.000),加载后最长可达3年。值得注意的是,下颌骨移植部位出现了更多的并发症:17例增加的患者出现了并发症,而8例使用了短种植体的患者出现了并发症(比例差异= 0.43;95% CI: 0.13 ~ 0.64;P = 0.008)。在上颌骨,6例鼻窦提升患者和2例短种植体患者出现并发症;差异无统计学意义(比例差异= 0.21;95% CI: -0.05 ~ 0.45;P = 0.232)。下颌短种植体患者3年平均损失1.10 mm种植体周围骨,10.0 mm或更长种植体患者3年平均损失1.39 mm。上颌种植体较短的患者在3年时平均损失了1.04 mm的种植体周围骨,而上颌种植体长度为10 mm或更长的患者损失了1.43 mm。上颌较长的种植体在装填后3年内比较短的种植体骨质流失更大(平均差:-0.39 mm;95% CI: -0.70 ~ -0.07 mm;P = 0.017)和下颌骨(平均差异:-0.29 mm;95% CI: -0.53 ~ -0.05 mm;P = 0.020)。结论:加载后3年,5.0 mm × 5.0 mm种植体与放置在增强骨上的较长种植体的效果相似。短种植体可能是一个更好的选择,特别是在后下颌骨,因为治疗更快,更便宜,发病率更低。然而,在提出可靠的建议之前,需要5至10年的加载后数据。
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
European Journal of Oral Implantology
European Journal of Oral Implantology DENTISTRY, ORAL SURGERY & MEDICINE-
CiteScore
2.35
自引率
0.00%
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0
审稿时长
>12 weeks
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