Chairside digital design and manufacturing method for children's band and loop space maintainers.

Qingzhao Qin, Jia Hu, Xiaoxian Chen, Bingqing Shi, Zixiang Gao, Yujia Zhu, A. Wen, Yong Wang, Yijiao Zhao
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Abstract

OBJECTIVES This study proposes a chairside digital design and manufacturing method for band and loop space maintainers and preliminarily validates its clinical feasibility. METHODS Clinical cases of 10 children requiring space maintenance caused by premature loss of primary teeth were collected. Intraoral scan data of the affected children were also collected to establish digital models of the missing teeth. Using a pediatric band and loop space maintainer design software developed by our research team, a rapid personalized design of band and loop structures was achieved, and a digital model of an integrated band and loop space maintainer was ultimately generated. A chairside space maintainer was manufactured through metal computer numerical control machining for the experimental group, whereas metal 3D printing in the dental laboratory was used for the control group. A model fitting assessment was conducted for the space maintainers of both groups, and senior pediatric dental experts were invited to evaluate the clinical feasibility of the space maintainers with regard to fit and stability using the visual analogue scale scoring system. Statistical analysis was also performed. RESULTS The time spent in designing and manufacturing the 10 space maintainers of the experimental group was all less than 1 h. Statistical analysis of expert ratings showed that the experimental group outperformed the control group with regard to fit and stability. Both types of space maintainers met clinical requirements. CONCLUSIONS The chairside digital design and manufacturing method for pediatric band and loop space maintainers proposed in this study can achieve same-day fitting of space maintainers at the first appointment, demonstrating good clinical feasibility and significant potential for clinical application.
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椅旁数字设计和制造方法,用于儿童乐队和环形空间维护器。
目的本研究提出了带环间隙保持器的椅旁数字化设计和制造方法,并初步验证了其临床可行性。方法收集了10名因乳牙早失而需要间隙保持的儿童的临床病例。同时还收集了患儿的口内扫描数据,以建立缺失牙齿的数字模型。利用我们研究团队开发的儿童带环空间维持器设计软件,实现了带环结构的快速个性化设计,并最终生成了带环空间维持器的数字模型。实验组通过金属计算机数控加工制造椅旁空间维持器,而对照组则在牙科实验室使用金属三维打印技术。对两组空间维持器都进行了模型试戴评估,并邀请资深儿童牙科专家使用视觉模拟量表评分系统对空间维持器的密合性和稳定性进行临床可行性评估。对专家评分的统计分析显示,实验组在密合性和稳定性方面优于对照组。结论本研究提出的椅旁数字化设计和制造小儿带环空间维持器的方法可实现首次就诊当天安装空间维持器,具有良好的临床可行性和巨大的临床应用潜力。
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