在使用不同材料的模具进行包埋后,颌面修复用硅橡胶弹性体的颜色变化。
Change in color of a maxillofacial prosthetic silicone elastomer, following investment in molds of different materials.
作者信息
Sethi Tania, Kheur Mohit, Coward Trevor, Patel Naimesha
机构信息
Department of Prosthodontics, M.A. Rangoonwala Dental of College and Research Centre, Pune, Maharashtra, India.
Department of Maxillofacial Prosthetic Technology, Kings College, London, United Kingdom.
出版信息
J Indian Prosthodont Soc. 2015 Apr-Jun;15(2):153-7. doi: 10.4103/0972-4052.158077.
PURPOSE
In the authors' experience, the color of silicone elastomer following polymerization in molds made of gypsum products is slightly different from the color that was matched in the presence of the patient, before the silicone is packed. It is hypothesized that the investing materials and separating media have an effect on the color during the polymerization process of the silicone.
MATERIALS AND METHODS
This study compares and evaluates the change in color of silicone elastomer packed in three commonly used investing materials - Dental stone (white color), dental stone (green color), and die stone (orange color); coated with three different separating media - Alginate-based medium, soap solution and a resin-based die hardening material. Pigmented silicone samples of dimensions 1.5 cm × 2 cm × 0.5 cm were made from the elastomer in the above-mentioned mold materials using combinations of the mentioned separating media. These served as test group samples. Control group samples were made by packing a mix of the same pigmented elastomer in stainless steel molds. The L*, a*, b* values of the test and control group samples were determined using a spectrophotometer. The change in color (Delta E) was calculated between the control and test groups.
RESULTS
The mean L, a, b values for the control group were, 31.8, 26.2, and 36.3, respectively. Average values of change in color (Delta E) for samples packed utilizing alginate-based medium, die hardener, and soap solution, respectively in white dental stone (2.70, 2.74, and 2.88), green dental stone (2.19, 2.23, 2.42), and orange die stone (3.19, 2.72, 2.80) were tabulated.
CONCLUSION
Among the investing materials studied, die stone showed the most color change (3.19), which was statistically significant. Among the separating media, die hardener showed the least color change (2.23). The best combination of an investing material and separating media as per this investigation is a dental stone (green) and alginate-based separating medium.
目的
根据作者的经验,在石膏制品制成的模具中聚合后的硅橡胶颜色,与在患者在场情况下、硅橡胶填充前匹配的颜色略有不同。据推测,包埋材料和分离介质在硅橡胶聚合过程中会对颜色产生影响。
材料与方法
本研究比较并评估了填充在三种常用包埋材料(白色牙科石膏、绿色牙科石膏和橙色铸模石膏)中,并涂覆三种不同分离介质(藻酸盐基介质、肥皂溶液和树脂基铸模硬化材料)的硅橡胶的颜色变化。使用上述模具材料,并结合上述分离介质,由弹性体制成尺寸为1.5厘米×2厘米×0.5厘米的有色硅橡胶样品。这些用作试验组样品。对照组样品通过将相同的有色弹性体混合物填充到不锈钢模具中制成。使用分光光度计测定试验组和对照组样品的L*、a*、b*值。计算对照组和试验组之间的颜色变化(ΔE)。
结果
对照组的平均L、a、b值分别为31.8、26.2和36.3。分别列出了在白色牙科石膏(2.70、2.74和2.88)、绿色牙科石膏(2.19、2.23、2.42)和橙色铸模石膏(3.19、2.72、2.80)中,利用藻酸盐基介质、铸模硬化剂和肥皂溶液填充的样品的颜色变化(ΔE)平均值。
结论
在所研究的包埋材料中,铸模石膏的颜色变化最大(3.19),具有统计学意义。在分离介质中,铸模硬化剂的颜色变化最小(2.23)。根据本研究,包埋材料和分离介质的最佳组合是绿色牙科石膏和藻酸盐基分离介质。
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