用6mm长× 4mm宽的种植体或更长的种植体在增强型骨中支持的假体修复后萎缩颌骨。加载后3年的随机对照试验结果。

Q1 Dentistry European Journal of Oral Implantology Pub Date : 2018-01-01
Pietro Felice, Carlo Barausse, Valeria Pistilli, Maurizio Piattelli, Daniela Rita Ippolito, Marco Esposito
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引用次数: 0

摘要

目的:评价6mm长× 4mm宽的种植体是否可以替代至少10mm长的种植体放置在萎缩后颌骨的骨增殖剂中。材料与方法:选取20例双侧萎缩性下颌骨患者和20例双侧萎缩性上颌骨患者,分别在上颌窦以下骨高5 ~ 7 mm或在下颌管上方6 ~ 8 mm,采用裂口设计随机分配其侧颌。他们被分配接受1到3个6毫米长× 4毫米宽的植入物,或至少10毫米长的增强骨植入物,由不同中心的两名不同的外科医生进行。使用马骨块和可吸收屏障垂直增强下颌骨,3个月后放置种植体。上颌窦通过侧窗用猪骨颗粒增强,同时放置种植体。4个月后,所有种植体均浸入水中并装载临时假体。4个月后,最终义肢交付。结果测量假体和种植体失败,任何并发症和x线片种植体周围边缘骨水平改变。结果:5例患者(下颌骨3例,上颌2例)在加载后3年随访前退出。2个短的上颌种植体因种植体周围炎而与假体一起失败,3个下颌假体因移植失败而无法放置在至少10mm长的种植体上;其中一例因感染而丢失了三颗植入物。种植体数量差异无统计学意义(比例差异= 0.000;95% CI: -0.140 ~ 0.140;P = 1.000)和假体失败(比例差异= 0.057;95% CI: -0.094 ~ 0.216;P = 0.625)。总共有13例患者出现18个并发症,而3例患者出现4个并发症,种植体长度为6mm。下颌骨移植部位并发症发生率明显高于移植部位(比例差异= 0.353;95% CI: 0.005 ~ 0.616;P = 0.031),但在上颌骨上无差异(比例差异= 0.222;95% CI: -0.071 ~ 0.486;P = 0.219)。在下颌骨,使用6mm长的种植体的患者在3年内平均损失1.25 mm的种植体周围骨,而使用至少10mm长的种植体的患者平均损失1.54 mm。差异有统计学意义(平均差异= 0.29 mm;95% CI: 0.08 ~ 0.51 mm;P = 0.010)。在上颌,种植体长度为6mm的患者在3年内平均损失1.28 mm的种植体周围骨,而种植体长度至少为10mm的患者平均损失1.50 mm。差异有统计学意义(平均差异= 0.22 mm;95% CI: 0.08 ~ 0.35 mm;P = 0.003)。结论:加载后3年的结果表明,常规直径为4mm的6mm长种植体与放置在增强骨上的长种植体相比,效果相似,如果不是更好的话。短的植入物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,需要在加载后5至10年获得数据。
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Posterior atrophic jaws rehabilitated with prostheses supported by 6 mm long × 4 mm wide implants or by longer implants in augmented bone. 3-year post-loading results from a randomised controlled trial.

Purpose: To evaluate whether 6 mm long × 4 mm wide dental implants could be an alternative to implants of at least 10 mm long placed in bone augmented with bone substitutes in posterior atrophic jaws.

Materials and methods: A total of 20 patients with bilateral atrophic mandibles, and 20 patients with bilateral atrophic maxillae, having 5 mm to 7 mm of bone height below the maxillary sinus or 6 mm to 8 mm above the mandibular canal, had their side of the jaws randomly allocated according to a split-mouth design. They were allocated to receive one to three 6 mm long × 4 mm wide implants, or implants of at least 10 mm long in augmented bone by two different surgeons at different centres. Mandibles were vertically augmented with interpositional equine bone blocks and resorbable barriers, and implants were placed 3 months later. Maxillary sinuses were augmented with particulated porcine bone via a lateral window and implants were placed simultaneously. After 4 months, all implants were submerged and loaded with provisional prostheses. Four months later, definitive prostheses were delivered. Outcome measures were prosthesis and implant failures, any complication and radiographic peri-implant marginal bone level changes.

Results: Five patients (three treated in mandibles and two in maxillae) dropped out before the 3-year post-loading follow-up. Two short maxillary implants affected by peri-implantitis failed together with their prosthesis vs three mandibular prostheses that could not be placed on implants at least 10 mm long due to graft failures; one was associated with the loss of three implants because of infection. There were no statistically significant differences in implant (difference in proportions = 0.000; 95% CI: -0.140 to 0.140; P = 1.000) and prosthesis failures (difference in proportions = 0.057; 95% CI: -0.094 to 0.216; P = 0.625). In total, 18 complications occurred in 13 patients at augmented sites vs four complications in three patients with 6 mm long implants. Significantly more complications occurred at grafted sites in mandibles (difference in proportions = 0.353; 95% CI: 0.005 to 0.616; P = 0.031), but not in maxillae (difference in proportions = 0.222; 95% CI: -0.071 to 0.486; P = 0.219). In mandibles, patients with 6 mm long implants lost an average of 1.25 mm of peri-implant bone at 3 years vs 1.54 mm in patients with implants of at least 10 mm long. The difference was statistically significant (mean difference = 0.29 mm; 95% CI: 0.08 to 0.51 mm; P = 0.010). In maxillas, patients with 6 mm-long implants lost an average of 1.28 mm of peri-implant bone at 3 years vs 1.50 mm in patients with implants of at least 10 mm long. The difference was statistically significant (mean difference = 0.22 mm; 95% CI: 0.08 to 0.35 mm; P = 0.003).

Conclusions: Results at 3 years after loading indicate that 6 mm long implants with a conventional diameter of 4 mm achieved similar, if not better, 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, data obtained 5 to 10 years after loading are necessary before making reliable recommendations.

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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%
发文量
0
审稿时长
>12 weeks
期刊最新文献
Immediate loading of fixed prostheses in fully edentulous jaws - 1-year follow-up from a single-cohort retrospective study. Research in focus. Dental implants with internal versus external connections: 1-year post-loading results from a pragmatic multicenter randomised controlled trial. Research in focus. Immediate, early (6 weeks) and delayed loading (3 months) of single, partial and full fixed implant supported prostheses: 1-year post-loading data from a multicentre randomised controlled trial.
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