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Three dimensionally printed template with an interproximal isolation design guide consecutive closure of multiple diastema with injectable resin composite

Objective This article describes a novel 3D‐printed template armed with interproximal matrices to isolate interproximal contact areas and guide injectable resin composite for consecutive closure of multiple diastema. Clinical Considerations Among several treatment options proposed for diastema closu...

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Bibliographic Details
Published in:Journal of esthetic and restorative dentistry 2024-10, Vol.36 (10), p.1381-1387
Main Authors: Shui, Yusen, Wu, Jiacheng, Luo, Tian, Sun, Manlin, Yu, Haiyang
Format: Article
Language:English
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Summary:Objective This article describes a novel 3D‐printed template armed with interproximal matrices to isolate interproximal contact areas and guide injectable resin composite for consecutive closure of multiple diastema. Clinical Considerations Among several treatment options proposed for diastema closure, direct resin composite is noninvasive and easy to repair. The “composite injection technique” has been introduced to improve time efficiency and reduce technique sensitivity for clinicians. However, in the case of multiple diastema, the overflow of excess resin materials onto the adjacent teeth during injection poses challenges for recontouring the interproximal anatomy. A 3D‐printed template with special‐designed gaps at interproximal areas was designed and fabricated based on a virtual diagnostic wax‐up. Flowable resin composite was then consecutively injected through the template to close diastemata at multiple adjacent teeth. Conclusion This technique using a 3D‐printed template with interproximal isolation design contributed to an efficient and accurate operation for multiple anterior diastema closure. Clinical Significance Efficient and accurate freehand buildups of composite restoration for multiple diastema are challenging in operative dentistry. The described noninvasive full digital workflow provides a predictable method to accurately recontour the multiple target restorations and reduce the chair‐side time and technical sensitivity.
ISSN:1496-4155
1708-8240
1708-8240
DOI:10.1111/jerd.13268