Experimental study on implant-abutment locking force and abutment subsidence in a pure Morse taper connection implant system.

Bihui Ren, Yehao Xu, Jieting Dai, Shuigen Guo, Hongwu Wei
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Abstract

Objectives: This test aimed to investigate the factors affecting the locking force between the implant and abutment and the amount of abutment subsidence in pure Morse taper connection implant systems.

Methods: With reference to the Bicon implant abutment connection design, different types of implant specimens and their corresponding types of abutments were fabricated. The implant-abutment locking taper was uniformly 1.5°. The locking depths were 1.0, 2.0, and 3.0 mm. The diameters of the locking column were 2.5, 3.0, and 3.5 mm. The thicknesses of the outer wall of the implant were 0.15 and 0.30 mm. The loading forces of the testing machine were 200, 300, and 400 N. At least 10 specimens of each group of implant-abutment were used. All specimens were loaded in the same manner using a universal testing machine (finger pressure + specified loading force, five times). The total height of the implant-abutment was measured before finger pressure, after finger pressure, and after the testing machine was loaded for five times to calculate the amount of sinking of the abutment. Finally, the implant and abutment were pulled apart using the universal testing machine, and the subluxation force was observed and recorded.

Results: The test loading force, locking depth, and locking post diameter had an effect on the implant-abutment locking force and abutment subsidence. The implant-abutment locking force increased with the increase in the test loading force, locking depth, and locking post diameter (R=0.963, 0.607, and 0.372, respectively), with the test loading force having the most significant effect. Abutment subsidence increased with the increase in test loading force (R=0.645) and decreased with the increase in locking depth and locking post diameter (R=-0.807 and -0.280, respectively), with locking depth having the most significant effect on abutment subsidence. No significant correlation was found between the thickness of the outer wall of the implant and the change in the magnitude of the implant-abutment locking force. However, an increase in the thickness of the outer wall of the implant decreased the amount of abutment subsidence, which was inversely correlated.

Conclusions: The locking force of the implant-abutment can be increased by adjusting the design of the pure Morse taper connection implant⁃abutment connection, increasing the locking depth and locking post diameter, and increasing the amount and number of times the abutment is loaded during seating. Problems, such as loosening or detachment of the abutment, can be reduced. The recommended abutment to be loaded should be no less than five times during seating to prevent the abutment from sinking and causing changes in the occlusal relationship in the later stages. Preliminary occlusal adjustments should only be conducted in the early stages of the use of temporary restorations, and final restorations and occlusal adjustments are recommended to be performed after using the abutment for a period of time.

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纯莫尔斯锥度连接种植体系统中种植体-基台锁定力和基台下沉的实验研究。
试验目的该试验旨在研究纯莫尔斯锥度连接种植体系统中影响种植体与基台间锁力和基台下沉量的因素:方法:参照 Bicon 种植体基台连接设计,制作了不同类型的种植体试件和相应类型的基台。种植体与基台的锁定锥度统一为 1.5°。锁定深度分别为 1.0、2.0 和 3.0 毫米。锁定柱的直径分别为 2.5、3.0 和 3.5 毫米。种植体外壁的厚度分别为 0.15 毫米和 0.30 毫米。试验机的加载力分别为 200、300 和 400 牛顿。使用万能试验机以相同的方式对所有试样进行加载(手指压力+指定加载力,五次)。分别在手指加压前、手指加压后和试验机加压五次后测量种植体基台的总高度,以计算基台的下沉量。最后,使用万能试验机将种植体和基台拉开,观察并记录基台的下移力:结果:试验加载力、锁定深度和锁定杆直径对种植体-基台锁定力和基台下沉有影响。随着试验加载力、锁定深度和锁定杆直径的增加,种植体-基台锁定力也随之增加(R分别为0.963、0.607和0.372),其中试验加载力的影响最为显著。基台下沉随着测试加载力的增加而增加(R=0.645),随着锁定深度和锁定杆直径的增加而减少(R=-0.807 和-0.280),锁定深度对基台下沉的影响最大。种植体外壁的厚度与种植体-基台锁定力大小的变化之间没有明显的相关性。然而,种植体外壁厚度的增加会降低基台下沉的程度,两者呈反比关系:结论:通过调整纯莫尔斯锥度连接种植体⁃基台连接的设计、增加锁定深度和锁定柱直径、增加基台就位时的加载量和次数,可以提高种植体与基台的锁定力。这样可以减少基台松动或脱落等问题。建议基台在就位过程中的加载次数不应少于五次,以防止基台下沉,造成后期咬合关系的改变。初步的咬合调整只应在使用临时修复体的早期阶段进行,最终的修复体和咬合调整建议在使用基台一段时间后进行。
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