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Custom Titanium Ridge Augmentation Matrix (CTRAM): A Case Report.

Christopher A Connors, Peter C Liacouras, Gerald T Grant

    The International Journal of Periodontics & Restorative Dentistry
    |August 26, 2016
    PubMed
    Summary
    This summary is machine-generated.

    A custom titanium ridge augmentation matrix (CTRAM) offers a novel solution for horizontal bone volume increase. This technique enables successful dental implant placement by reducing surgical time and eliminating the need for secondary bone grafting sites.

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    Area of Science:

    • Oral and Maxillofacial Surgery
    • Biomaterials Engineering
    • Dental Implantology

    Background:

    • Alveolar ridge deficiencies pose challenges for dental implant placement.
    • Traditional bone augmentation methods can be invasive and require secondary surgical sites.
    • The need for predictable and efficient bone augmentation techniques is critical in implant dentistry.

    Observation:

    • A custom titanium ridge augmentation matrix (CTRAM) was developed using cone beam computed tomography (CBCT) and additive manufacturing.
    • The CTRAM acts as a space-maintaining device for virtual augmentation of alveolar ridges.
    • Two clinical cases demonstrated the application of CTRAM for horizontal bone volume enhancement.

    Findings:

    • The CTRAM facilitated a significant increase in horizontal bone volume in both presented cases.
    • Successful dental implant placement was achieved following CTRAM application.
    • The titanium matrix (Ti6Al4V) provided a stable framework for bone regeneration.

    Implications:

    • CTRAM allows for precise preoperative planning and customization for alveolar ridge augmentation.
    • This approach reduces overall surgical time and patient morbidity by avoiding a second surgical site.
    • CTRAM represents a promising advancement in bone augmentation for predictable dental implant therapy.