Nanofeatured surfaces in dental implants: contemporary insights and impending challenges.

IF 3.1 3区 医学 Q1 DENTISTRY, ORAL SURGERY & MEDICINE
Keiji Komatsu, Takanori Matsuura, James Cheng, Daisuke Kido, Wonhee Park, Takahiro Ogawa
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Abstract

Dental implant therapy, established as standard-of-care nearly three decades ago with the advent of microrough titanium surfaces, revolutionized clinical outcomes through enhanced osseointegration. However, despite this pivotal advancement, challenges persist, including prolonged healing times, restricted clinical indications, plateauing success rates, and a notable incidence of peri-implantitis. This review explores the biological merits and constraints of microrough surfaces and evaluates the current landscape of nanofeatured dental implant surfaces, aiming to illuminate strategies for addressing existing impediments in implant therapy. Currently available nanofeatured dental implants incorporated nano-structures onto their predecessor microrough surfaces. While nanofeature integration into microrough surfaces demonstrates potential for enhancing early-stage osseointegration, it falls short of surpassing its predecessors in terms of osseointegration capacity. This discrepancy may be attributed, in part, to the inherent "dichotomy kinetics" of osteoblasts, wherein increased surface roughness by nanofeatures enhances osteoblast differentiation but concomitantly impedes cell attachment and proliferation. We also showcase a controllable, hybrid micro-nano titanium model surface and contrast it with commercially-available nanofeatured surfaces. Unlike the commercial nanofeatured surfaces, the controllable micro-nano hybrid surface exhibits superior potential for enhancing both cell differentiation and proliferation. Hence, present nanofeatured dental implants represent an evolutionary step from conventional microrough implants, yet they presently lack transformative capacity to surmount existing limitations. Further research and development endeavors are imperative to devise optimized surfaces rooted in fundamental science, thereby propelling technological progress in the field.

牙科植入物中的纳米表面:当代见解和即将面临的挑战。
近三十年前,随着微粗糙钛金属表面的出现,种植牙治疗被确立为标准治疗方法,并通过增强骨结合力彻底改变了临床治疗效果。然而,尽管取得了这一举足轻重的进步,挑战依然存在,包括愈合时间延长、临床适应症受限、成功率趋于稳定以及种植体周围炎的显著发生率。本综述探讨了微粗糙表面的生物学优点和限制因素,并评估了纳米特色牙科种植体表面的现状,旨在阐明解决种植治疗中现有障碍的策略。目前可用的纳米特征牙科种植体在其前身微粗糙表面上加入了纳米结构。虽然将纳米特征整合到微孔表面具有增强早期骨结合的潜力,但在骨结合能力方面却无法超越前者。造成这种差异的部分原因可能是成骨细胞固有的 "二分动力学",即纳米特征增加表面粗糙度可促进成骨细胞分化,但同时也会阻碍细胞附着和增殖。我们还展示了一种可控的混合微纳米钛模型表面,并将其与市售纳米特征表面进行对比。与商用纳米特性表面不同,可控微纳混合表面在促进细胞分化和增殖方面表现出更大的潜力。因此,目前的纳米特色牙科植入体代表了传统微孔植入体的进化,但它们目前还缺乏突破现有限制的变革能力。进一步的研发工作势在必行,以便设计出植根于基础科学的优化表面,从而推动该领域的技术进步。
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
International Journal of Implant Dentistry
International Journal of Implant Dentistry DENTISTRY, ORAL SURGERY & MEDICINE-
CiteScore
1.70
自引率
7.40%
发文量
53
审稿时长
13 weeks
期刊介绍: The International Journal of Implant Dentistry is a peer-reviewed open access journal published under the SpringerOpen brand. The journal is dedicated to promoting the exchange and discussion of all research areas relevant to implant dentistry in the form of systematic literature or invited reviews, prospective and retrospective clinical studies, clinical case reports, basic laboratory and animal research, and articles on material research and engineering.
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