优化骨移植。

IF 17.5 1区 医学 Q1 DENTISTRY, ORAL SURGERY & MEDICINE
Periodontology 2000 Pub Date : 2024-02-01 Epub Date: 2023-08-23 DOI:10.1111/prd.12517
Richard J Miron
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引用次数: 0

摘要

骨移植是牙周病学和口腔外科的常规手术,用于填补骨空隙。虽然自体骨因其再生特性而被认为是黄金标准,但异体骨和异种骨因其可获得性以及不同的再生/生物力学特性而更常被使用。特别是,异种移植物是在高温下烧结而成的,因此降解和吸收速度较慢,而且/或者具有不可吸收的特性。因此,临床医生已将异种移植物与其他类别的骨移植物(最主要的是不同比例的异种移植物和自体移植物)结合起来,用于需要更好的长期稳定性的手术,如轮廓移植、上颌窦提升手术和垂直骨增量手术。本综述探讨了各类骨移植物的再生特性,然后强调了了解其生物力学和再生特性对临床应用的重要性,包括拔牙部位管理、轮廓增高、上颌窦移植以及水平和垂直增高手术。随后,介绍了通过高温烧结生产不可吸收骨异体移植物(NRBAs)的新方法。这些 NRBAs 不仅因其来源(人类骨与动物骨)而比异种移植物更具生物相容性,而且还具有与异种移植物类似的不可吸收特性。因此,虽然由于跨物种污染和 FDA/CE 的要求,一直以来都不允许将异种移植物与异种移植物包装成适用于各种临床适应症的预混合物,但 NRBA 的发现和生产允许以各种比例与标准异种移植物进行预混合,而不受监管限制。因此,异体移植物与 NRBA 的预混合物可以针对特定适应症以不同比例生产(例如,1:1 的比例类似于用于上颌窦移植的异体移植物/异种移植物混合物),而无需购买单独类别的骨移植物。理论上,这种优化的骨移植形式可以为临床医生提供更精确的比例,而无需购买单独的骨移植物。这篇综述强调了简化和优化骨移植在牙周病学和种植牙学中的未来潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimized bone grafting.

Bone grafting is routinely performed in periodontology and oral surgery to fill bone voids. While autogenous bone is considered the gold standard because of its regenerative properties, allografts and xenografts have more commonly been utilized owing to their availability as well as their differential regenerative/biomechanical properties. In particular, xenografts are sintered at high temperatures, which allows for their slower degradation and resorption rates and/or nonresorbable features. As a result, clinicians have combined xenografts with other classes of bone grafts (most notably allografts and autografts in various ratios) for procedures requiring better long-term stability, such as contour grafting, sinus elevation procedures, and vertical bone augmentations. This review addresses the regenerative properties of each class of bone grafts and then highlights the importance of understanding each of their biomechanical and regenerative properties for clinical applications, including extraction site management, contour augmentation, sinus grafting, and horizontal and vertical augmentation procedures. Thereafter, an introduction toward the novel production of nonresorbable bone allografts (NRBAs) via high-temperature sintering is presented. These NRBAs not only pose the advantage of being more biocompatible than xenografts owing to their origin (human vs. animal bone) but also display nonresorbable properties similar to those of xenografts. Thus, while packaging allografts with xenografts in premixtures specific to various clinical indications has never been permitted owing to cross-species contamination and FDA/CE requirements, the discovery and production of NRBAs allows premixing with standard allografts in various ratios without regulatory restrictions. Therefore, premixtures of allografts with NRBAs can be produced in various ratios for specific indications (e.g., a 1:1 ratio similar to an allograft/xenograft mixture for sinus grafting) without the need for purchasing separate classes of bone grafts. This optimized form of bone grafting could theoretically provide clinicians more precise ratios without the need to purchase separate bone grafts. This review highlights the future potential for simplified and optimized bone grafting in periodontology and implant dentistry.

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来源期刊
Periodontology 2000
Periodontology 2000 医学-牙科与口腔外科
CiteScore
34.10
自引率
2.20%
发文量
62
审稿时长
>12 weeks
期刊介绍: Periodontology 2000 is a series of monographs designed for periodontists and general practitioners interested in periodontics. The editorial board selects significant topics and distinguished scientists and clinicians for each monograph. Serving as a valuable supplement to existing periodontal journals, three monographs are published annually, contributing specialized insights to the field.
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