Gardner Gary D, Dunn William J, Taloumis Louis
Research and Biomaterials, Lackland Air Force Base, San Antonio, TX 78236, USA.
Am J Orthod Dentofacial Orthop. 2003 Sep;124(3):294-7. doi: 10.1016/s0889-5406(03)00502-x.
Clear thermoplastic retainers are an alternative to fixed lingual retainers and removable Hawley appliances. However, thermoplastic retainers have demonstrated poor wear resistance and durability after only a few months of use. In this study, a simulated wear device was used to compare the wear of different thermoplastic materials used for orthodontic retainers. Three thermoplastic products were evaluated: C+ (Raintree Essix, New Orleans, La),.040-in Invisacryl C (Great Lakes Orthodontics, Towanda, NY), and.040-in TR sheet material (Bay Dental Direct, Bay City, Mich). Twenty specimens were fabricated for each group. The specimens were vacuum thermoformed according to the manufacturers' recommendations and subjected to wear for 1000 cycles in a wear apparatus with steatite ceramic abraders. Depth of wear was determined by surface profilometry. The maximum peak-to-valley measurement was recorded for each specimen. Mean wear (SD) in microns was as follows: C+, 5.9 (2.4); Invisacryl C, 6.1 (2.6); and TR, 1.6 (0.9). One-way analysis of variance detected a significant difference between groups (P <.001). TR material, a hard polyethylene terephthalate glycol copolymer (PETG), demonstrated greater resistance to wear than did the other 2 materials, which were softer, polypropylene-based thermoplastics. There was no evidence to suggest a difference in mean wear between the 2 polypropylene-based materials (P >.05).
透明热塑性保持器是固定舌侧保持器和可摘霍利矫治器的替代产品。然而,热塑性保持器在使用仅几个月后就表现出耐磨性和耐用性较差。在本研究中,使用模拟磨损装置比较用于正畸保持器的不同热塑性材料的磨损情况。评估了三种热塑性产品:C+(雨树爱赛克斯公司,新奥尔良,路易斯安那州)、0.040英寸的Invisacryl C(大湖正畸公司,托旺达,纽约州)和0.040英寸的TR片材(湾牙科直销公司,湾城,密歇根州)。每组制作20个样本。样本根据制造商的建议进行真空热成型,并在带有滑石陶瓷磨头的磨损装置中进行1000次循环磨损。通过表面轮廓测定法确定磨损深度。记录每个样本的最大峰谷测量值。以微米为单位的平均磨损(标准差)如下:C+为5.9(2.4);Invisacryl C为6.1(2.6);TR为1.6(0.9)。单因素方差分析检测到各组之间存在显著差异(P<.001)。TR材料是一种硬质聚对苯二甲酸乙二醇酯二醇共聚物(PETG),其耐磨性比其他两种材料更强,后两种材料是较软的聚丙烯基热塑性塑料。没有证据表明两种聚丙烯基材料的平均磨损存在差异(P>.05)。
