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Related Experiment Videos

Forced eruption and implant site development: an osteophysiologic response.

T Mantzikos, I Shamus

    American Journal of Orthodontics and Dentofacial Orthopedics : Official Publication of the American Association of Orthodontists, Its Constituent Societies, and the American Board of Orthodontics
    |May 7, 1999
    PubMed
    Summary

    Orthodontically erupting hopeless teeth before extraction enhances implant site bone dimensions. This biodynamic orthodontic modeling improves implant positioning and peri-implant soft tissue health for better long-term outcomes.

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    Forced eruption and implant site development: soft tissue response.

    American journal of orthodontics and dentofacial orthopedics : official publication of the American Association of Orthodontists, its constituent societies, and the American Board of Orthodontics·1998

    Area of Science:

    • Dental implantology
    • Orthodontics
    • Periodontology

    Background:

    • Improving three-dimensional topography of implant recipient sites is crucial for successful dental implant placement.
    • Conventional methods may not always provide optimal bone dimensions for ideal implant positioning.
    • Maintaining peri-implant soft tissue health is essential for long-term implant success.

    Purpose of the Study:

    • To investigate the efficacy of controlled orthodontic eruption of hopeless teeth to augment bone topography for future implant sites.
    • To assess the impact of biodynamic orthodontic modeling on osseous dimensions and implant placement.
    • To evaluate the effect of coronal implant placement on peri-implant soft tissue maintainability.

    Main Methods:

    • Selected hopeless teeth were orthodontically erupted prior to extraction.

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  • Biodynamic orthodontic modeling was employed to manipulate teeth with limited apical attachment.
  • Osseous dimensions, particularly the labial plate and crest, were increased in the vertical plane.
  • Implant placement was planned in relation to the cementoenamel junction of adjacent teeth.
  • Main Results:

    • Orthodontic eruption successfully augmented the three-dimensional topography of future implant recipient sites.
    • Controlled biodynamic orthodontic modeling increased local osseous dimensions in the vertical plane.
    • This technique allowed for more ideal apical placement of implants relative to the cementoenamel junction.
    • Coronal implant placement was facilitated, potentially leading to decreased sulcular depth.

    Conclusions:

    • Biodynamic orthodontic modeling of hopeless teeth is an effective method to enhance implant recipient site topography.
    • This approach enables more predictable and ideal implant positioning, improving esthetics and function.
    • The technique contributes to a more maintainable peri-implant soft tissue environment, enhancing long-term implant success.