3D 打印方法、树脂材料和消毒对虚拟设计手术植入物导板精度的影响。
Influence of 3D-printing method, resin material, and sterilization on the accuracy of virtually designed surgical implant guides.
机构信息
Assistant Professor, Department of Conservative Dentistry and Periodontology, University Hospital, LMU Munich, Munich, Germany.
Graduate student, Department of Conservative Dentistry and Periodontology, University Hospital, LMU Munich, Munich, Germany.
出版信息
J Prosthet Dent. 2022 Aug;128(2):196-204. doi: 10.1016/j.prosdent.2020.08.038. Epub 2021 Feb 8.
STATEMENT OF PROBLEM
Three-dimensional printing has introduced new manufacturing methods. However, information on the influence of the specific printing technology, material, sterilization, and the comparison between printing and milling on the accuracy of surgical guides is lacking.
PURPOSE
The purpose of this in vitro study was to evaluate the influence of the manufacturing method (printing and milling), printing technology stereolithography (SLA) and digital light processing (DLP), material, and sterilization on the accuracy of digitally designed surgical implant guides.
MATERIAL AND METHODS
Resin patient replicas with a single edentulous space were used to place 132 implants with digitally designed surgical guides. The accuracy of postoperative implant position was analyzed for the manufacturing method (printing and milling), resin materials, and preoperative autoclaving. To determine 3D accuracy, angular displacement, mean horizontal crestal, apical displacement, and the linear vertical displacement at the apex were calculated separately for each group (n=12). In addition, the surgical guides were qualitatively analyzed by using field emission scanning electron micrograph.
RESULTS
The postoperative angular deviation ranged from 0.76 ±0.52 degrees (Rapidshape D20II with NextDent SG) to 2.43 ±0.64 degrees (Form2 with NextDent SG) (P<.001). Linear horizontal displacement at the crest was smallest for Rapidshape D20II with 3Delta Guide (0.27 ±0.08 mm) and highest for Form2 with NextDent SG (0.54 ±0.10 mm) (P<.001). Linear horizontal displacement at the apex ranged from 0.36 ±0.10 mm (SolFlex 350 with V-Print SG) to 0.89 ±0.32 mm (Form2 with NextDent SG) (P<.001). Considering the vertical position displacement was no more than 0.43 ±0.07 mm (Form2 with NextDent SG) short of the apex, none of the implant tips were displaced apically. Preoperative autoclaving differentially impaired the accuracy of surgical guides.
CONCLUSIONS
The specific manufacturing technique, the 3D printing device, the resin material, and the application of preoperative sterilization all affected the accuracy of the postoperative implant position. Irrespective of the manufacturing method, all implants were placed within the commonly accepted safety distance.
问题陈述
三维打印技术带来了新的制造方法。然而,关于特定打印技术、材料、消毒以及打印和铣削对手术导板准确性的影响的信息尚缺乏。
目的
本体外研究的目的是评估制造方法(打印和铣削)、立体光固化(SLA)和数字光处理(DLP)打印技术、材料和消毒对数字化设计的手术植入物导板准确性的影响。
材料和方法
使用具有单个无牙空间的树脂患者复制品来放置 132 个带有数字化设计的手术导板的种植体。分析制造方法(打印和铣削)、树脂材料和术前高压灭菌对术后种植体位置准确性的影响。为了确定 3D 准确性,分别计算了每组(n=12)的角度位移、平均水平牙槽嵴顶、根尖位移和根尖的线性垂直位移。此外,使用场发射扫描电子显微镜对手术导板进行了定性分析。
结果
术后的角度偏差范围为 0.76±0.52 度(Rapidshape D20II 与 NextDent SG)至 2.43±0.64 度(Form2 与 NextDent SG)(P<.001)。Rapidshape D20II 与 3Delta Guide 的线性水平牙槽嵴顶位移最小(0.27±0.08mm),Form2 与 NextDent SG 的线性水平牙槽嵴顶位移最大(0.54±0.10mm)(P<.001)。根尖的线性水平位移范围为 0.36±0.10mm(SolFlex 350 与 V-Print SG)至 0.89±0.32mm(Form2 与 NextDent SG)(P<.001)。考虑到根尖的位移不超过 0.43±0.07mm(Form2 与 NextDent SG),没有一个种植体尖端被推到根尖上方。术前高压灭菌会对手术导板的准确性产生不同程度的影响。
结论
特定的制造技术、3D 打印设备、树脂材料以及术前消毒的应用都影响了术后种植体位置的准确性。无论采用何种制造方法,所有植入物都放置在通常可接受的安全距离内。
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