种植体-基台螺钉连接界面的临界弯矩：扭矩水平和种植体直径的影响

Tan Ban Fui, Tan Keson B, Nicholls Jack I

Department of Restorative Dentistry, Faculty of Dentistry, National University of Singapore, Republic of Singapore.

Int J Oral Maxillofac Implants. 2004 Sep-Oct;19(5):648-58.

PURPOSE

Critical bending moment (CBM), the moment at which the external nonaxial load applied overcomes screw joint preload and causes loss of contact between the mating surfaces of the implant screw joint components, was measured with 2 types of implants and 2 types of abutments.

MATERIALS AND METHODS

Using 4 test groups of 5 implant-abutment pairs, CBM at the implant-abutment screw joint was measured at 25%, 50%, 75%, and 100% of the manufacturer's recommended torque levels. Regular Platform (RP) Nobel Biocare implants (3.75 mm diameter), Wide Platform (WP) Nobel Biocare implants (5.0 mm diameter), CeraOne abutments, and Multiunit abutments were used. Microstrain was measured as loads were applied to the abutment at various distances from the implant-abutment interface. Strain instrumentation logged the strain data dynamically to determine the point of gap opening. All torque applications and strain measurements were repeated 5 times.

RESULTS

For the CeraOne-RP group, the mean CBMs were 17.09 Ncm, 35.35 Ncm, 45.63 Ncm, and 62.64 Ncm at 25%, 50%, 75%, and 100% of the recommended torque level, respectively. For the CeraOne-WP group, mean CBMs were 28.29 Ncm, 62.97 Ncm, 92.20 Ncm, and 127.41 Ncm; for the Multiunit-RP group, 16.08 Ncm, 21.55 Ncm, 34.12 Ncm, and 39.46 Ncm; and for the Multiunit-WP group, 15.90 Ncm, 32.86 Ncm, 43.29 Ncm, and 61.55 Ncm at the 4 different torque levels. Two-way analysis of variance (ANOVA) (P < .001) revealed significant effects for the test groups (F = 2738.2) and torque levels (F = 2969.0).

DISCUSSION

The methodology developed in this study allows confirmation of the gap opening of the screw joint for the test groups and determination of CBM at different torque levels.

CONCLUSION

CBM was found to differ among abutment systems, implant diameters, and torque levels. The torque levels recommended by the manufacturer should followed to ensure screw joint integrity.

目的

临界弯矩（CBM）是指施加的外部非轴向载荷克服螺钉连接预紧力并导致种植体螺钉连接部件配合面之间失去接触时的弯矩，本研究使用两种类型的种植体和两种类型的基台测量了临界弯矩。

材料与方法

使用4个测试组，每组5对种植体-基台，在制造商推荐扭矩水平的25%、50%、75%和100%下测量种植体-基台螺钉连接处的临界弯矩。使用常规平台（RP）诺贝尔生物公司种植体（直径3.75 mm）、宽平台（WP）诺贝尔生物公司种植体（直径5.0 mm）、CeraOne基台和多单位基台。在距种植体-基台界面不同距离处向基台施加负载时测量微应变。应变测量仪器动态记录应变数据以确定间隙开口点。所有扭矩施加和应变测量均重复5次。

结果

对于CeraOne-RP组而言，在推荐扭矩水平的25%、50%、75%和100%时，平均临界弯矩分别为17.09 N·cm、35.35 N·cm、45.63 N·cm和62.64 N·cm。对于CeraOne-WP组，平均临界弯矩分别为28.29 N·cm、62.97 N·cm、92.20 N·cm和127.41 N·cm；对于多单位-RP组，分别为16.08 N·cm、21.55 N·cm、34.12 N·cm和39.46 N·cm；对于多单位-WP组，在4种不同扭矩水平下分别为15.90 N·cm、32.86 N·cm、43.29 N·cm和61.55 N·cm。双向方差分析（ANOVA）（P <.001）显示测试组（F = 2738.2）和扭矩水平（F = 2969.0）有显著影响。