Retentive Properties of Novaloc-TiN and Locator Overdenture Attachments: An In Vitro Physical and Thermal Analysis.

IF 1.8

The International journal of prosthodontics Pub Date : 2026-05-08 DOI:10.11607/ijp.9723

Dana Jafarpour, Nesma El-Amier, Eric Krochmalnek, Lei Wu, Damiano Pasini, Raphael de Souza

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引用次数: 0

Abstract

Purpose: To compare the in-vitro retentive forces of Novaloc-TiN and Locator attachment systems for two-implant overdentures before and after insertion-removal and compressive cyclic loading, representing up to 12 months of wear.

Materials and methods: Insertion-removal and compression-cycles of two-implant Novaloc (Novaloc® TiN, Straumann) and Locator (Locator®, Straumann) overdenture attachments embedded into 3D-printed acrylic blocks were performed (n=10 each). For compressive cycling, a force approximating 66.7-N was applied at the center of the blocks using a Bose ElectroForce Fatigue Testing machine over a sum of 300,000 cycles per sample. The retentive force was recorded at baseline and after certain insertion-removal (23, 270, 540, and 1080) and compression-cycles (5k, 25k, 75k, 150k, and 300k). Deformation and crystallization were assessed using micro-computed tomography and differential scanning calorimetry coupled with thermal gravimetric analysis.

Results: Compressive cycling of two-implant overdenture yielded a greater retentive force for Locator attachments relative to Novaloc-TiN attachments at simulated mastication equivalent to one-week, one, three, six and 12-months of wear. However, Locator attachments displayed fluctuating retentive forces throughout the 300,000-cycle duration. Retention forces for Novaloc system had no significant differences between baseline and the following 300,000 cycles, indicating consistent retention throughout the cycling duration. Similarly, insertion-removal cycles resulted in retention loss for Locator, whereas Novaloc showed more consistency.

Conclusions: Novaloc-TiN system offers superior durability following compressive and insertion-removal cycling. This indicates more longevity for retentive forces relative to Locator attachment system, despite the lower overall retentive forces of Novaloc attachments.

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Novaloc-TiN和Locator覆盖义齿附着体的固位性能：体外物理和热分析。

目的：比较两种植体覆盖义齿的Novaloc-TiN和Locator附着系统在植入-移除和压缩循环加载前后的体外固位力，代表长达12个月的磨损。材料和方法：将双种植体Novaloc （Novaloc®TiN, Straumann）和Locator （Locator®，Straumann）覆盖义齿附着体嵌入3d打印丙烯酸块中，分别进行插入-取出和压缩循环（n=10）。对于压缩循环，使用Bose电力疲劳试验机在块的中心施加约66.7 n的力，每个样品超过30万次循环。在基线和特定的插入-移除（23,270,540和1080）和压缩循环（5k, 25k, 75k， 150k和300k）之后记录固位力。利用微计算机断层扫描和差示扫描量热法结合热重分析来评估变形和结晶。结果：两种植体覆盖义齿的压缩循环在模拟咀嚼时，Locator附着体相对于novalocc - tin附着体具有更大的固位力，相当于佩戴1周、1、3、6和12个月。然而，在整个30万循环周期中，定位器附着物的固位力表现出波动。Novaloc系统的保留力在基线和随后的300,000次循环之间没有显著差异，表明在整个循环期间保持一致。同样，插入-移除周期会导致Locator的保留率损失，而Novaloc则表现出更高的一致性。结论：Novaloc-TiN系统在压缩和插入-取出循环后具有优异的耐久性。这表明，尽管Novaloc附件的整体固位力较低，但相对于Locator附件系统，其固位力的使用寿命更长。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The International journal of prosthodontics

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