Trials / Completed

CompletedNCT03763617

Periosteal Inhibition Technique for Ridge Preservation A Prospective Study

Summary

The efficacy of the Periosteal Inhibition technique for socket preservation is studies against a control group in which the extraction sockets are allowed to heal without a socket preservation procedure.

Detailed description

Socket preservation procedures have been shown to significantly reduce the loss of ridge dimension of an extraction socket. These procedures involve filling the empty socket with a bone graft material, which, serves as scaffold to limit horizontal and vertical ridge alterations. In order to contain the graft material, an occlusive barrier such as an autogenous soft tissue graft, resorbable or non-resorbable membrane, is often required. As yet, no one socket preservation technique has been proven superior to another, and none have proven totally effective in preserving ridge morphology. A net reduction of 1.5 mm in ridge width and 0.5 mm in ridge height is often observed after socket preservation procedures, which may necessitate additional hard or soft tissue augmentation to fully restore the ridge dimension. In an animal histologic study in 2005, Araujo and Lindhe demonstrated that trauma and loss of periodontal ligament triggered an osteoclastic activity causing loss of bundle bone and modeling of the cortical bone plate. Osteoclasts are multi-nucleated cells that are responsible for bone resorption and are found on the outer layer of bone, beneath the periosteum. Osteoclasts are thought to be derived from pluripotent hematopoietic stem cells. When stimulated, these mononuclear precursors, the smallest of which is 9.5 microns in diameter, proliferate and attach to the bone surface to be resorbed, and only then fuse to form large mature multinucleated osteoclasts. High-density polytetrafluoroethylene (d-ptfe) membranes have been used in socket preservation procedures as an occlusive barrier to contain the bone graft material.Polytetrafluoroethylene, a stable polymer and highly biocompatible, has a membrane porosity of less than 0.3 microns. It is impervious to bacteria and thus is recommended for a socket preservation technique, where a membrane is intentionally exposed. In the present study, a high-density polytetrafluoroethylene (d-ptfe) membrane is placed between the periosteum and the buccal bone plate of an extraction socket where it will stay for a duration of 4 months, the time needed for the completion of bone forming within the socket. The goal of the non-resorbable d-ptfe membrane is to prevent the migration of precursor cells to the bone surface and thus their fusion to form osteoclast. The authors hypothesize that the passage of the precursor cells from the periosteum to the bone surface is inhibited by the small-diameter pores in the non-resorbable d-ptfe membrane. Osteolytic activity on the outer surface of the socket is thereby prevented as the precursor cells cannot form osteoclasts. The author coins the term "Periosteal Inhibition technique" for this socket preservation procedure.The study will compare dimension changes between extraction socket treated using the Periosteal Inhibition technique and those allowed to heal without a socket preservation procedure.

Conditions

• Ridge Deficency

Interventions

Timeline

Start date

2022-09-01

Primary completion

2024-11-30

Completion

2024-12-15

First posted

2018-12-04

Last updated

2026-03-18

Locations

1 site across 1 country: Canada

Source: ClinicalTrials.gov record NCT03763617. Inclusion in this directory is not an endorsement.