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Related Experiment Video

Updated: Feb 27, 2026

Studying Orthodontic Tooth Movement in Mice
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Studying Orthodontic Tooth Movement in Mice

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Resolving differences between animal models for expedited orthodontic tooth movement.

A Y Ibrahim1, S Gudhimella1, S N Pandruvada1

  • 1Division of Orthodontics, College of Dentistry, University of Kentucky, Lexington, KY, USA.

Orthodontics & Craniofacial Research
|June 24, 2017
PubMed
Summary
This summary is machine-generated.

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Comparing rodent and canine models for orthodontic tooth movement (OTM) reveals key differences. Rodent models suit initial OTM phases, while canine models better represent prolonged adaptation for clinical relevance.

Area of Science:

  • Biomedical Engineering
  • Orthodontics
  • Animal Models

Background:

  • Animal models are crucial for studying orthodontic tooth movement (OTM).
  • Recent research focuses on accelerating OTM, increasing the importance of model selection.
  • Understanding bone adaptation, remodeling, and modeling is key to OTM research.

Purpose of the Study:

  • To compare commonly used animal models for orthodontic tooth movement.
  • To highlight differences between rodent and canine models for OTM research.
  • To assess the challenges in extrapolating animal OTM data to human clinical practice.

Main Methods:

  • Narrative literature review.
  • Focus on rodent and canine models for expedited OTM.
  • Analysis of models for bone adaptation, remodeling, and modeling.
Keywords:
dogmodels, animalorthodontic tooth movementreviewrodent

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Related Experiment Videos

Last Updated: Feb 27, 2026

Studying Orthodontic Tooth Movement in Mice
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Studying Orthodontic Tooth Movement in Mice

Published on: August 2, 2024

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Author Spotlight: Insights into an Efficient Murine Maxillary Orthodontic Model Protocol
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Author Spotlight: Insights into an Efficient Murine Maxillary Orthodontic Model Protocol

Published on: October 27, 2023

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Main Results:

  • Rodent and canine models are the most common for OTM.
  • Rodent models are suitable for initial OTM phases but not prolonged adaptation.
  • Extrapolation of OTM rates from rodents to humans is challenging.

Conclusions:

  • Understanding animal model differences is vital for valid OTM conclusions.
  • Canine models are more suitable for studying prolonged adaptation than rodent models.
  • Careful consideration of model limitations is necessary for clinical application of OTM research.