# In vitrostudy on the stability of mini-implants under simulated orthodontic loading conditions

**Authors:** Kartikaya Verma, Divya Babuji Pandiyath, Ashok Panika, Shaina Goyal, Sovesh Das, Disha Pitroda

PMC · DOI: 10.6026/973206300213839 · 2025-10-31

## TL;DR

This study compares the stability of different mini-implant designs under simulated orthodontic conditions.

## Contribution

The study introduces a direct comparison of three mini-implant designs using simulated loading to assess clinical stability.

## Key findings

- Dual-thread implants showed higher primary stability and lower displacement.
- Dual-thread implants had fewer failures compared to single-thread and tapered designs.
- Implant design significantly impacts clinical performance in orthodontic treatments.

## Abstract

Orthodontic mini-implants provide essential skeletal anchorage but their clinical success varies due to differences in mechanical
stability under functional loading. Therefore, it is of interest to compare the stability of three commercially available designs-dual-
thread, single-thread and tapered-using synthetic bone blocks. Primary stability was assessed by insertion torque and resonance frequency
analysis, followed by cyclic loading to evaluate secondary stability, displacement and failure rates. Dual-thread implants demonstrated
superior performance with higher stability, lower displacement and fewer failures compared to the other designs. Thus, we show that
implant design plays a critical role, with dual-thread configurations offering clear clinical advantages for anchorage-dependent
orthodontic treatments.

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Source: https://tomesphere.com/paper/PMC12859328