Oper Dent. 2020 Sep 1;45(5):506-515. doi: 10.2341/19-080-L.
Custom-made post-and-cores of polyetheretherketone (PEEK) and nano-ceramic composite showed good fracture resistance and failure mode. Clinicians should be aware that these materials might be an efficient alternative for post-and-cores, because they promote esthetics while reducing the risk of root fractures.
Purpose: The purpose of this study was to evaluate the fracture resistance and failure mode of custom-made post-and-cores manufactured with different esthetic materials.Methods and Materials: A total of 48 mandibular premolar extracted teeth were selected, endodontically treated, and prepared to receive the posts. Specimens were randomly divided into four groups (n=12/group): group 1, polyetheretherketone (PEEK, Degos; G1); group 2, nano-ceramic composite (Lava Ultimate, 3M ESPE; G2); group 3, cast metal post (NiCr alloy, control; G3); group 4, fiberglass post (Whitepost, FGM, control; G4) customized with a nano-hybrid resin composite (Z250, 3M ESPE). Experimental post-and-cores (G1 and G2) were manufactured with a computer-aided design/computer-aided manufacturing system. All posts were cemented with self-adhesive resin cement (Rely X U200, 3M ESPE), and specimens were stored in distilled water at 37°C for 60 days. A universal testing machine was used to measure the fracture resistance (0.5 mm/min at an angle of 45° to the long axis of the tooth). Fractures were classified as repairable or catastrophic. One-way analysis of variance with Tukey post hoc and χ2 tests for independence and Bonferroni adjustments were applied (α=0.05).Results: The fracture resistance values (mean ± SD, in newtons) were 379.4 ± 119.8 (G1), 506.4 ± 138 (G2), 939.6 ± 146.5 (G3), and 449.6 ± 66.5 (G4). Only G3 exhibited a significant difference (p<0.05). The χ2 test showed an association between failure mode and post-and-core material [χ2(3) = 23.65; p<0.001]. After Bonferroni adjustment, only G3 presented a higher than expected incidence of catastrophic failures (p<0.001). In the remaining groups, most failures were repairable and related to debonding.Conclusions: Customized post-and-cores of PEEK and nano-ceramic composites exhibited good mechanical performance. Their fracture resistance was comparable to that observed for fiberglass customized posts, yet lower than that for cast metal posts. For PEEK post-and-cores, in particular, additional studies are needed to improve adhesiveness and reduce the risk of debonding.
聚醚醚酮(PEEK)和纳米陶瓷复合材料定制的桩核具有良好的抗折性能和失效模式。临床医生应该意识到,这些材料可能是桩核的有效替代品,因为它们在降低根折风险的同时还能提升美观度。
目的:本研究旨在评估不同美学材料制成的定制桩核的抗折性能和失效模式。
选择 48 颗下颌前磨牙,进行根管治疗并预备接受桩核。标本随机分为四组(每组 12 个):组 1,聚醚醚酮(PEEK,Degos;G1);组 2,纳米陶瓷复合材料(Lava Ultimate,3M ESPE;G2);组 3,铸造金属桩(镍铬合金,对照;G3);组 4,玻璃纤维桩(Whitepost,FGM,对照;G4),用纳米混合树脂复合材料(Z250,3M ESPE)定制。实验用桩核(G1 和 G2)采用计算机辅助设计/计算机辅助制造系统制造。所有的桩均用自粘接树脂水门汀(Rely X U200,3M ESPE)黏固,标本在 37°C 的蒸馏水中储存 60 天。使用万能试验机以 45°角(与牙长轴成 0.5mm/min 的速度)测量抗折强度。将骨折分为可修复性或灾难性。采用单向方差分析、Tukey 事后检验和 χ2 检验进行独立性和 Bonferroni 调整(α=0.05)。
抗折强度值(牛顿,均值±标准差)分别为 379.4±119.8(G1)、506.4±138(G2)、939.6±146.5(G3)和 449.6±66.5(G4)。仅 G3 差异有统计学意义(p<0.05)。 χ2 检验显示失效模式与桩核材料之间存在相关性[χ2(3)=23.65;p<0.001]。经 Bonferroni 调整后,仅 G3 灾难性失败的发生率高于预期(p<0.001)。在其余组中,大多数失败是可修复的,与脱粘有关。
PEEK 和纳米陶瓷复合材料定制的桩核具有良好的机械性能。其抗折强度与玻璃纤维定制桩相当,但低于铸造金属桩。对于 PEEK 桩核,需要进一步研究来提高其粘接性并降低脱粘风险。
