Clinical Trials Logo

Alveolar Ridge Augmentation clinical trials

View clinical trials related to Alveolar Ridge Augmentation.

Filter by:
  • Recruiting  
  • Page 1

NCT ID: NCT04959513 Recruiting - Clinical trials for Alveolar Ridge Augmentation

GBR With L-PRF Bone Block in Early Healing Phase After Extraction

LPRF-GBR
Start date: January 22, 2021
Phase: N/A
Study type: Interventional

When the practitioners have to place an implant, it is necessary to have a sufficient amount of bone. This study propose to manage clinical situations by an approach using guided bone regeneration using an L-PRF bone block (composite graft composed of a xenograft, a membrane from the patient's blood and a collagenous membrane) after a short healing period of 6 to 8 weeks after tooth extraction. Alveolar ridge changes will be evaluated regarding soft and hard tissues up to 6 months.

NCT ID: NCT02396056 Recruiting - Clinical trials for Alveolar Ridge Augmentation

Enhancing Guided Bone Regeneration by Modifying a Resorbable Membrane

Start date: December 2014
Phase: N/A
Study type: Interventional

Guided bone regeneration (GBR) procedures have significantly evolved over the last 20 years. Significant advances have been made with various barrier membranes with or without the use of bone grafts and other materials. Some of the main limitations of non-resorbable barriers included cytotoxicity and need for removal, which can adversely affect the regenerated bone volume. Similar GBR success has been documented extensively with cell occlusive resorbable barriers membranes. Recently, the investigators demonstrated supracrestal bone regeneration in guided tissue regeneration procedures in humans with the use of novel perforated barrier membrane (MPM). The perforation allows mesenchymal stem cells and other progenitor cells present in the gingival tissues to migrate into the osseous defect and contribute to the osseous regeneration potential. The objective of this study is to investigate the GBR potential of MPM in alveolar ridge defects, relative to a similar occlusive barrier. Ten non-smoking patients that need localized alveolar ridge augmentation prior to implant placement will be included into the study. Patients will be divided into two groups, as follows: occlusive bovine collagen membrane (OM control group, 5 patients) and modified bovine perforated collagen membrane (MPM test group, 5 patients). All sites will be grafted with mineralized cortical bone allograft and when needed cortical bone pins will be use for site stability. A Cone Bean (CT) will be obtained prior to surgery and 6-8 months post treatment from which volumetric width changes will be quantify. A bone biopsy will be obtained at the time of implant placement (~6-8 months) to determine residual graft particles and new bone formation. Dimensional width changes will be assess at 6-8 months during re-entry for implant placement. Soft tissue healing will be assessed at 2, 4, 8, 16 weeks and 6 months. This study can potentially impact current bone augmentation techniques and may lead to the modification of existing commercial membranes that will enhance site development prior to implant placement. The contribution of progenitor cells to the osseous defect might lead to greater bone formation and possible faster wound healing.