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Updated: Jul 2, 2026

The Establishment of a Murine Mandibular Molar Extraction Socket Healing Model
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Atraumatic extractions: a biomechanical rationale.

Carl E Misch1, Helena M Perez

  • 1Misch International Implant Institute.

Dentistry Today
|August 23, 2008
PubMed
Summary
This summary is machine-generated.

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A novel Physics Forceps device utilizes biomechanical principles like class 1 levers and force components to improve tooth extraction efficiency. This new approach enhances the mechanical advantage during dental procedures.

Area of Science:

  • Biomedical Engineering
  • Dental Mechanics
  • Biomechanics

Background:

  • Tooth extraction has historically relied on mechanical force application.
  • Previous methods primarily focused on gripping the tooth crown, offering limited extraction advantage.
  • A need exists for enhanced mechanical strategies in dental extraction.

Purpose of the Study:

  • To introduce a novel extraction device applying biomechanical principles.
  • To leverage class 1 lever mechanics, creep, and shear force components for improved tooth extraction.
  • To provide a biomechanical rationale for a new extraction methodology.

Main Methods:

  • Development of the Physics Forceps, an innovative dental extraction tool.
  • Application of class 1 lever principles in the device's design.

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Last Updated: Jul 2, 2026

The Establishment of a Murine Mandibular Molar Extraction Socket Healing Model
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A Coupled Experiment-finite Element Modeling Methodology for Assessing High Strain Rate Mechanical Response of Soft Biomaterials
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  • Integration of creep and shear force components into the extraction mechanism.
  • Main Results:

    • The Physics Forceps provides a biomechanically sound approach to tooth extraction.
    • The device effectively utilizes lever mechanics and force components for extraction.
    • Demonstrates a novel application of physics principles in dental surgery.

    Conclusions:

    • The Physics Forceps represents a significant advancement in dental extraction technology.
    • Biomechanical principles can be effectively applied to optimize tooth extraction.
    • This device offers enhanced mechanical advantages over traditional methods.