3D 扫描在现代牙科中的应用

Nikita E. Levashov, A. Oleynikov, Sergey A. Romanov
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The data is then processed by software that generates detailed digital models of the patient's jaws that are compatible with 3D CT data [1]. \nAIM: The study aimed to assess the potential of three-dimensional scanning for the planning and implementation of a single-stage dental implant protocol. \nMATERIALS AND METHODS: Patient M., aged 41, presented to the dental clinic with complaints of a fractured tooth on the upper jaw (1.2). A decision was made to perform a single-stage implantation with the extraction of tooth 1.2 and the placement of a temporary crown based on the results of the examination. Intraoral scanning of the jaws was performed for the fabrication of the crown, as the cutting edge of the tooth was destroyed by two-thirds and the tooth fragment was lost. In order to create a model of the crown, the horizontal inversion technique was used. Tooth 2.2 was extracted from the scan of the upper jaw and inverted horizontally, resulting in a copy of tooth 1.2 in the expanded state. This was done to reproduce the exact shape of the future crown. The design of the crown was modeled in the program in conjunction with the loaded model of the temporary abutment (implant suprastructure for the fixation of the artificial crown). This approach enabled the accurate contour of the crown eruption and correct positioning relative to the gingival cuff and the abutment shaft to be obtained. \nRESULTS: The implementation of the technique permitted the creation of an accurate and anatomically correct model of the crown of the replaced tooth without its introduction into occlusion, thereby reducing the risk of functional overload of the implant during the period of osseointegration (engraftment) [2]. 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引用次数: 0

摘要

背景:现代牙科离不开先进的技术,而口内扫描正日益成为诊断和治疗的重要组成部分。这项技术在不断发展,提供了新的可能性。口内扫描仪功能的基本原理是光测量技术和摄影测量学。集成在扫描仪机身内的发光二极管向牙齿表面发射光线,传感器随后记录反射信号,从而创建精确的三维模型。然后通过软件对数据进行处理,生成与三维 CT 数据兼容的患者颌骨的详细数字模型[1]。目的:该研究旨在评估三维扫描在规划和实施单阶段种植牙方案方面的潜力。材料与方法:患者 M.,41 岁,主诉上颚牙齿断裂(1.2),前来牙科诊所就诊。根据检查结果,决定进行单阶段种植,拔除 1.2 号牙齿并安装临时牙冠。为了制作牙冠,对颌骨进行了口内扫描,因为牙齿的切缘被破坏了三分之二,牙齿碎片已经丢失。为了制作牙冠模型,采用了水平反转技术。从上颚扫描图像中提取出 2.2 号牙齿,并将其水平倒置,从而得到 1.2 号牙齿膨胀状态的复制品。这样做是为了精确复制未来牙冠的形状。牙冠的设计在程序中与临时基台(用于固定人工牙冠的种植体上部结构)的加载模型一起建模。通过这种方法,可以获得精确的牙冠萌出轮廓以及与龈袖口和基台轴的正确定位。结果:该技术的应用允许在不进入咬合状态的情况下创建一个准确且解剖学上正确的替代牙牙冠模型,从而降低了骨结合(移植)期间种植体功能超负荷的风险[2]。采用这种方法可以排除牙冠固定时的牙冠修正阶段,并将三维扫描与计算机断层扫描数据相结合,以详细规划手术。此外,通过三维扫描还可以看到未来临时牙冠的预计位置,从而将种植体精确定位在解剖学上正确的位置。结论:本病例研究说明了借助口内颌骨扫描规划和实施单阶段种植的有效性,因为它缩短了治疗时间,消除了种植体装载的必要性,并确保获得可预测的治疗效果。俄罗斯牙科目前正在积极采用这些技术,新的治疗方案不断涌现。
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3D scanning possibilities in modern dentistry
BACKGROUND: Modern dentistry is not without advanced technologies, and intraoral scanning is becoming an increasingly important element of diagnosis and treatment. This technology is constantly evolving, offering new possibilities. The fundamental principles underlying the functionality of the intraoral scanner are light-measuring technology and photogrammetry. Light-emitting diodes integrated into the scanner body emit light onto the surface of the teeth, and sensors subsequently record the reflected signals, thereby creating an accurate three-dimensional model. The data is then processed by software that generates detailed digital models of the patient's jaws that are compatible with 3D CT data [1]. AIM: The study aimed to assess the potential of three-dimensional scanning for the planning and implementation of a single-stage dental implant protocol. MATERIALS AND METHODS: Patient M., aged 41, presented to the dental clinic with complaints of a fractured tooth on the upper jaw (1.2). A decision was made to perform a single-stage implantation with the extraction of tooth 1.2 and the placement of a temporary crown based on the results of the examination. Intraoral scanning of the jaws was performed for the fabrication of the crown, as the cutting edge of the tooth was destroyed by two-thirds and the tooth fragment was lost. In order to create a model of the crown, the horizontal inversion technique was used. Tooth 2.2 was extracted from the scan of the upper jaw and inverted horizontally, resulting in a copy of tooth 1.2 in the expanded state. This was done to reproduce the exact shape of the future crown. The design of the crown was modeled in the program in conjunction with the loaded model of the temporary abutment (implant suprastructure for the fixation of the artificial crown). This approach enabled the accurate contour of the crown eruption and correct positioning relative to the gingival cuff and the abutment shaft to be obtained. RESULTS: The implementation of the technique permitted the creation of an accurate and anatomically correct model of the crown of the replaced tooth without its introduction into occlusion, thereby reducing the risk of functional overload of the implant during the period of osseointegration (engraftment) [2]. The applied method enables the exclusion of the stage of crown correction at the moment of its fixation and the combination of 3D scans with data from computed tomography for the detailed planning of the surgery. Furthermore, the use of 3D scans permitted the visualization of the projected position of the future temporary crown, thereby enabling the precise positioning of the implant in an anatomically correct location. CONCLUSIONS: This case study illustrates the efficacy of planning and implementing single-stage implantation with the aid of intraoral jaw scanning, as it reduces treatment duration, eliminates the necessity for implant loading, and ensures the attainment of a predictable treatment outcome. These technologies are currently being actively implemented in Russian dentistry, with new treatment options continually emerging.
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CiteScore
1.30
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0.00%
发文量
44
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5 weeks
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