电池能级与光固化单元辐照度的关系及其对块体填充复合树脂硬度的影响。

Fernanda Harumi Oku Prochnow, Patricia Valéria Manozzo Kunz, Gisele Maria Correr, Marina da Rosa Kaizer, Carla Castiglia Gonzaga
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引用次数: 1

摘要

目的:研究了电池充电水平与发光二极管(LED)光固化单元(lcu)辐照度之间的关系,以及这些变量如何影响体填充树脂的维氏硬度值(VHN)。材料和方法:评估四种lcu: Radii Plus (SDI), Radii-cal (SDI), Elipar Deep Cure (Filtek Bulk Fill, 3M Oral Care)和Poly Wireless (Kavo Kerr)。辐照度用辐射计测量,每10次20秒激活,直到电池放电。制备大块填充树脂(Filtek Bulk Fill, 3M Oral Care)的磁盘(4mm厚),并在电池电量为100%,50%和10%的lcu光固化时,测定顶部和底部表面的VHN。数据分析采用双向方差分析、Tukey检验和Pearson相关性(α = 5%)。结果:Elipar Deep Cure和Poly Wireless在电池充满电和放电(10%电池电量)时的辐照度有显著差异。在测试的每种电池条件下,所有lcu之间的辐照度存在显着差异。Radii-cal(10%电池电量)和Poly Wireless(50%和10%电池电量)的硬度比低于80%。电池电量与VHN和辐照度呈中等和强烈的正相关,但不显著。结论:虽然lcu之间的辐照度不同,但随着电池电量的减少,一半的设备的辐照度下降。此外,当lcu电池放电时,复合树脂的固化效果(以硬度比衡量)降低。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Relationship between battery level and irradiance of light-curing units and their effects on the hardness of a bulk-fill composite resin.

Relationship between battery level and irradiance of light-curing units and their effects on the hardness of a bulk-fill composite resin.

Relationship between battery level and irradiance of light-curing units and their effects on the hardness of a bulk-fill composite resin.

Relationship between battery level and irradiance of light-curing units and their effects on the hardness of a bulk-fill composite resin.

Objectives: This study evaluated the relationship between the battery charge level and irradiance of light-emitting diode (LED) light-curing units (LCUs) and how these variables influence the Vickers hardness number (VHN) of a bulk-fill resin.

Materials and methods: Four LCUs were evaluated: Radii Plus (SDI), Radii-cal (SDI), Elipar Deep Cure (Filtek Bulk Fill, 3M Oral Care), and Poly Wireless (Kavo Kerr). Irradiance was measured using a radiometer every ten 20-second activations until the battery was discharged. Disks (4 mm thick) of a bulk-fill resin (Filtek Bulk Fill, 3M Oral Care) were prepared, and the VHN was determined on the top and bottom surfaces when light-cured with the LCUs with battery levels at 100%, 50% and 10%. Data were analyzed by 2-way analysis of variance, the Tukey's test, and Pearson correlations (α = 5%).

Results: Elipar Deep Cure and Poly Wireless showed significant differences between the irradiance when the battery was fully charged versus discharged (10% battery level). Significant differences in irradiance were detected among all LCUs, within each battery condition tested. Hardness ratios below 80% were obtained for Radii-cal (10% battery level) and for Poly Wireless (50% and 10% battery levels). The battery level showed moderate and strong, but non-significant, positive correlations with the VHN and irradiance.

Conclusions: Although the irradiance was different among LCUs, it decreased in half of the devices along with a reduction in battery level. In addition, the composite resin effectiveness of curing, measured by the hardness ratio, was reduced when the LCUs' battery was discharged.

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