PDF(Pubmed)
Abstract:
The perio-restorative approach to maintaining supracrestal tissue attachment (STA; formerly known as biologic width) is a fundamental goal in modern dentistry. This article aims to review the clinical impact of biologic shaping (BS) as an innovative alternative to traditional crown lengthening procedures, reflecting over two decades of clinical experience.
As a review paper, it is crucial to highlight that BS stands as a unique approach designed to optimize STA while emphasizing minimal to no removal of supporting bone. The review spans over two decades, consistently demonstrating clinical efficacy and predictability. Remarkably, BS focuses on addressing issues such as root concavities, developmental grooves, irregularities, furcation lips, and CEJ offering a remarkable level of clinical precision.
The reviewed literature underscores that BS has consistently achieved substantial clinical success in fulfilling its objectives. This method presents a biologically sound alternative to traditional crown lengthening, placing a strong emphasis on the preservation of essential bone tissue and the establishment of durable STA.
The results suggest that BS is a logical and biologically driven approach for maintaining STA, making it a promising alternative to traditional crown lengthening. The method offers a predictable and reproducible way to preserve bone tissue while achieving durable STA. This innovation holds great promise in the field of periodontal and restorative dentistry.
As a review paper, it is crucial to highlight that BS stands as a unique approach designed to optimize STA while emphasizing minimal to no removal of supporting bone. The review spans over two decades, consistently demonstrating clinical efficacy and predictability. Remarkably, BS focuses on addressing issues such as root concavities, developmental grooves, irregularities, furcation lips, and CEJ offering a remarkable level of clinical precision.
The reviewed literature underscores that BS has consistently achieved substantial clinical success in fulfilling its objectives. This method presents a biologically sound alternative to traditional crown lengthening, placing a strong emphasis on the preservation of essential bone tissue and the establishment of durable STA.
The results suggest that BS is a logical and biologically driven approach for maintaining STA, making it a promising alternative to traditional crown lengthening. The method offers a predictable and reproducible way to preserve bone tissue while achieving durable STA. This innovation holds great promise in the field of periodontal and restorative dentistry.
摘要:
目的:维持上肢组织附着(STA;以前称为生物宽度)的修复方法是现代牙科的基本目标。本文旨在回顾生物整形(BS)作为传统牙冠延长手术的创新替代方法的临床影响,反映了二十多年的临床经验。
方法:作为综述论文,强调BS是一种独特的方法,旨在优化STA,同时强调最小或不去除支持骨。这项审查跨越了二十年,持续证明临床疗效和可预测性。值得注意的是,BS专注于解决诸如根凹陷之类的问题,发育凹槽,违规行为,分叉唇,CEJ提供了卓越的临床精度。
结果:综述的文献强调,BS在实现其目标方面一直取得了实质性的临床成功。该方法提供了传统牙冠加长的生物学声音替代品,高度重视基本骨组织的保存和持久STA的建立。
结论:结果表明,BS是维持STA的逻辑和生物学驱动的方法,使其成为传统牙冠加长的有希望的替代品。该方法提供了一种可预测且可重复的方式来保护骨组织,同时实现持久的STA。这项创新在牙周和修复牙科领域具有广阔的前景。
方法:作为综述论文,强调BS是一种独特的方法,旨在优化STA,同时强调最小或不去除支持骨。这项审查跨越了二十年,持续证明临床疗效和可预测性。值得注意的是,BS专注于解决诸如根凹陷之类的问题,发育凹槽,违规行为,分叉唇,CEJ提供了卓越的临床精度。
结果:综述的文献强调,BS在实现其目标方面一直取得了实质性的临床成功。该方法提供了传统牙冠加长的生物学声音替代品,高度重视基本骨组织的保存和持久STA的建立。
结论:结果表明,BS是维持STA的逻辑和生物学驱动的方法,使其成为传统牙冠加长的有希望的替代品。该方法提供了一种可预测且可重复的方式来保护骨组织,同时实现持久的STA。这项创新在牙周和修复牙科领域具有广阔的前景。
