Comparative Analysis of Adaptation of Conventional and Printable Complete Denture Bases to the Underlying Casts - An In Vitro Stereomicroscopic Study.

Q3 Dentistry

Indian Journal of Dental Research Pub Date : 2024-10-21 DOI:10.4103/ijdr.ijdr_67_24

Divyansh Sinha, Keerthi Sasanka Lakkoji, Nadhirah Faiz

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引用次数: 0

Abstract

Introduction: Properly adapted complete denture bases will have adequate retention to the underlying oral mucosa. With technological advancement, there are various techniques of fabrication of complete dentures. There are studies regarding the marginal adaptation of conventional and CAD-CAM denture bases, but there is not enough research comparing the marginal adaptation and polymerisation shrinkage of conventional and 3D printed complete denture bases.

Study setting and design: In vitro study using stereomicroscopy to determine the marginal discrepancy between the denture base and the cast.

Materials and methods: Twelve gypsum casts were taken and divided into conventional and 3D-printed groups. Conventional denture bases were fabricated by adapting wax of 2 mm thickness which was subsequently processed whereas 3D printed bases were designed and the standard tessellation language (STL) files were used to print the denture bases. Three points were marked at the mid-palatal line and on both maxillary tuberosities. Digital images were then captured at the marked regions and were used to measure the maximum gap between the cast and denture base at the marked regions. Data were analysed using an independent t-test and one-way ANOVA.

Results: Conventional dentures had a significantly lesser marginal discrepancy than 3D printed dentures (P = 0.000). The left maxillary tuberosity showed the highest marginal discrepancy, significantly different from mid-palatal and right tuberosity sites.

Conclusion: Conventional dentures perform better than their counterparts in terms of adaptation. This accurate adaptation is vital for the retention of the complete denture.

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传统全口义齿基托与印刷全口义齿基托对基托的适应性比较分析--体外立体显微镜研究。

导言：合适的全口义齿基托可以充分固位在口腔粘膜下。随着技术的进步，全口义齿的制作技术也多种多样。目前已有关于传统义齿基托和 CAD-CAM 义齿基托边缘适应性的研究，但比较传统义齿基托和 3D 打印全口义齿基托的边缘适应性和聚合收缩率的研究还不够多：研究设置和设计：体外研究，使用体视显微镜确定义齿基托与石膏模型之间的边缘差：取12个石膏模型，分为传统组和3D打印组。传统义齿基托是用 2 毫米厚的蜡制作的，随后进行加工，而三维打印义齿基托是设计的，并使用标准细分语言（STL）文件打印义齿基托。在腭中线和两个上颌结节上标记了三个点。然后在标记区域采集数字图像，用于测量标记区域的铸模和义齿基托之间的最大间隙。采用独立 t 检验和单因素方差分析对数据进行分析：结果：传统假牙的边缘差明显小于 3D 打印假牙（P = 0.000）。上颌左侧结节的边缘差最大，与腭中部和右侧结节的边缘差明显不同：结论：传统假牙在适应性方面优于同类产品。结论：传统义齿在适应性方面优于同类产品，这种准确的适应性对于全口义齿的固位至关重要。

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

Indian Journal of Dental Research Dentistry-Dentistry (all)

CiteScore

1.80

自引率

0.00%

发文量

审稿时长

38 weeks

期刊介绍： Indian Journal of Dental Research (IJDR) is the official publication of the Indian Society for Dental Research (ISDR), India section of the International Association for Dental Research (IADR), published quarterly. IJDR publishes scientific papers on well designed and controlled original research involving orodental sciences. Papers may also include reports on unusual and interesting case presentations and invited review papers on significant topics.