Immediate Implant Placement Using Xenograft Mixed with Vitamin D Versus Hyaluronic Acid.
Immediate Implant Placement Using Xenograft As Space Filling Material Mixed with Vitamin D Versus Hyaluronic Acid in Posterior Mandible Region: a Randomized Controlled Clinical Trial.
Cairo University
24 participants
Feb 2, 2025
INTERVENTIONAL
Conditions
Summary
Immediate implant placement using xenograft as space filling material mixed with vitamin D versus hyaluronic acid in posterior mandible region This study aims to evaluate implant stability and density after placement of immediate implant and Xenograft mixed with Hyaluronic acid or Vitamin D at posterior mandible region
Eligibility
Inclusion Criteria6
- Age: 18-60.
- Systemically healthy patients indicated for single or multiple immediate implants in posterior teeth region.
- Absence of any peri-apical pathosis.
- Patients with intact buccal plate of bone.
- Patients with adequate bone volume for the dental implant procedure.
- Patient with good oral hygrine
Exclusion Criteria6
- Heavy Smokers.
- Systemic disease that may affect the final outcome of the surgical procedure.
- No or poor patient's compliance.
- Patients with psychological problems.
- Pathology at the site of intervention.
- Patient with vit d deficiency
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Interventions
Hyaluronic acid is one of the essential components of extracellular matrix, which plays a predominant role in tissue morphogenesis, cell migration, differentiation, and adhesion. It has been recently reported that hyaluronic acid increases osteoblastic bone formation in vitro through increased mesenchymal cell differentiation and migration. It has demonstrated that Hyaluronic acid not only acted as a carrier of growth factors and cell but also stimulated bone formation through chemotaxis, proliferation and differentiation of mesenchymal cells into osteoblasts. Although Hyaluronic acid shares bone induction properties with growth factors as bone morphogenic protein 2 and osteopontin
It was shown that locally applied vitamin D3 in combination with bovine bone mineral matrix improved the bone formation and strengthened the site of the fracture in ovariectomized rats. Local application of vitamin D3 also proved to be promising in promoting osteo- genesis and mineralization for restoration of bone defects. Grounding on this incites, it has been suggested that vitamin D3 might exert a positive local effect on alveolar bone regeneration
Locations(1)
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NCT06842368