使用数字容积断层扫描（DVT）骨密度测定法进行优化种植体选择

Optimised Implant Selection Using Digital Volume Tomography (DVT) Osteodensitometry.

作者信息

Nilius Manfred, Winterhoff Jörg

机构信息

Niliusklinik, Londoner Bogen 6, D-44269 Dortmund, Germany.

Universitätsklinikum, Carl Gustav Carus, Technische Universität Dresden, Fakultät für Zahn, Mund-und Kieferheilkunde, Dresden, Germany.

出版信息

Case Rep Dent. 2022 Feb 14;2022:2470524. doi: 10.1155/2022/2470524. eCollection 2022.

DOI:10.1155/2022/2470524

PMID:35198250

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8860539/

Abstract

PURPOSE

The density of the jaw bone has an inhomogeneous distribution and, even within partial volumes, varies more or less strongly from the size of typical implants. Consequently, the primary stability of implants using conventional techniques can only ever be determined postimplantation. The aim of the present case report is to present digital volume tomography (DVT) osteodensitometry as a procedure for assessing the primary stability preimplantation and to evaluate its benefits.

METHODS

An orthopantomogram (OPT) and vertical sections, including bone density measurement, were obtained from a DVT in the course of preimplantological diagnosis. Conventional implant planning and densitometric simulation were performed on this basis.

RESULTS

Densitometric simulation enabled assessment of the bone density at the interface to the implant body preimplantation. This procedure provides not only an overall value (averaged density) but also allocation of bone areas with different densities to the adjacent areas on the implant surface. This then allows the implant with the best possible macroscopic geometry and optimum position to be selected, with the aim of maximising primary stability. In the present case, the maximum torques during insertion confirmed the densitometric values recorded in advance.

CONCLUSION

DVT osteodensitometry enables selection of an implant optimised to bone density distribution. At the same time, the point at which loading occurs can already be defined at the planning stage, thanks to the predictable primary stability. A standard integration of DVT osteodensitometry in the algorithms of implant planning software thus seems desirable.

摘要

目的

颌骨密度分布不均匀，即使在局部区域内，与典型种植体的尺寸相比也或多或少存在显著差异。因此，使用传统技术的种植体的初期稳定性只能在植入后才能确定。本病例报告的目的是介绍数字容积断层扫描（DVT）骨密度测定法作为一种在植入前评估初期稳定性的方法，并评估其益处。

方法

在种植前诊断过程中，从DVT获取全景曲面断层片（OPT）和垂直切片，包括骨密度测量。在此基础上进行传统的种植体规划和密度测定模拟。

结果

密度测定模拟能够在植入前评估种植体与骨界面处的骨密度。该方法不仅提供一个总体值（平均密度），还能将不同密度的骨区域分配到种植体表面的相邻区域。这样就可以选择具有最佳宏观几何形状和最佳位置的种植体，以最大化初期稳定性。在本病例中，植入过程中的最大扭矩证实了预先记录的密度测定值。

结论

DVT骨密度测定法能够选择根据骨密度分布优化的种植体。同时，由于可预测的初期稳定性，在规划阶段就可以确定加载点。因此，将DVT骨密度测定法标准整合到种植体规划软件算法中似乎是可取的。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a150/8860539/513cec88812d/CRID2022-2470524.001.jpg

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使用数字容积断层扫描（DVT）骨密度测定法进行优化种植体选择

Optimised Implant Selection Using Digital Volume Tomography (DVT) Osteodensitometry.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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