School of Dentistry, University of Missouri-Kansas City, Kansas City, MO, USA.
Angle Orthod. 2010 Nov;80(6):1110-5. doi: 10.2319/031510-150.1.
To evaluate the dimensional change over time of two extended-storage alginate impression materials.
Impressions were made of stainless steel dies in accordance with ADA Specification No. 18 using three alginates: two extended-storage alginates and one conventional alginate. The impressions were stored for 30 minutes, 48 hours, or 100 hours (n = 10 impressions/material/storage time). Following the respective storage times, dimensional change was measured by comparing the length of the middle horizontal line in the impression with the same line on the die and computing percent difference.
Significant differences in dimensional change were noted between materials across time (P < .05). All materials exhibited shrinkage after 30 minutes, with the conventional alginate continuing to shrink over time and the extended-storage alginates expanding with increased storage time. The conventional alginate was most accurate after 30 minutes. In contrast, one extended-storage alginate demonstrated minimal dimensional change at all storage times, and another was most accurate after 100-hour storage.
Evidence suggests that delayed pouring with dental gypsum should not adversely affect dimensional accuracy of the generated casts with both extended-storage alginates. However, only one of the extended-storage materials appears suitable for both short-term and extended-storage applications.
评估两种延长储存期藻酸盐印模材料随时间的尺寸变化。
按照 ADA 规范 No. 18 用三种藻酸盐(两种延长储存期藻酸盐和一种常规藻酸盐)对不锈钢模具进行印模。将印模在 30 分钟、48 小时或 100 小时(n = 10 个印模/材料/储存时间)下储存。在相应的储存时间后,通过比较印模中间水平线上的长度与模具上相同的线,并计算百分比差异来测量尺寸变化。
不同材料在不同时间的尺寸变化差异显著(P <.05)。所有材料在 30 分钟后都出现收缩,常规藻酸盐随时间继续收缩,而延长储存期藻酸盐随储存时间的延长而膨胀。常规藻酸盐在 30 分钟后最准确。相比之下,一种延长储存期藻酸盐在所有储存时间都表现出最小的尺寸变化,另一种则在 100 小时储存后最准确。
有证据表明,用牙科石膏进行延迟浇铸不应对两种延长储存期藻酸盐生成的铸模的尺寸精度产生不利影响。然而,只有一种延长储存期材料似乎既适用于短期储存应用,也适用于延长储存期应用。