Healing capacity of bone marrow mesenchymal stem cells versus platelet-rich fibrin in tibial bone defects of albino rats: an in vivo study.

Background: Various techniques for tissue engineering have been introduced to aid the regeneration of defective or lost bone tissue. The aim of this study was to compare the in vivo bone-forming potential of bone marrow mesenchymal stem cells (BM-MSCs) and platelet-rich fibrin (PRF) on induced bone defects in rats' tibiae. Methods: In total, one defect of 3-mm diameter was created in each tibia of 36 Wistar male rats. There were two groups: group A, left tibia bone defects that received PRF; and group B, right tibia bone defects of the same animal that received BM-MSCs loaded on a chitosan scaffold. Subsequently, Scanning electron microscope/energy-dispersive X-ray (SEM/EDX) analyses was performed at 3 and 10 days, and 3 weeks post­implantation and following euthanasia; (n=12). Results: The EDX analysis performed for each group and time point revealed a significant increase in the mean calcium and phosphorous weight percentage in the BM-MSC-treated group relative to the PRF-treated group at all-time intervals (P < 0.05). Moreover, the mean calcium and phosphorus weight percentage increased as time progressed since the surgical intervention in the PRF-treated and BM-MSCs groups (P < 0.05). Conclusions: In the present study, both BM-MSCs and PRF were capable of healing osseous defects induced in a rat tibial model. Yet, BM-MSCs promoted more adequate healing, with higher mean calcium and phosphorous weight percentages than PRF at all-time points, and showed greater integration into the surrounding tissues than PRF.

Effect of Platelet-rich Fibrin and Free Gingival Graft in the Treatment of Soft Tissue Defect preceding Implant Placement.

INTRODUCTION: Free gingival graft is a procedure that is used to increase keratinized tissue around teeth and edentulous sites for future dental implants. Keratinized tissue is critical for maintainability of surgical site and flap management. Platelet-rich fibrin consists of bioactive and biological components, mainly composed of growth factors. Growth factors attract stem cells to the site of release and stimulate cell proliferation. Moreover, growth factors promote angiogenesis, which accelerates wound healing. Site preparation is critical in implant dentistry, including soft tissue and hard tissue augmentation. AIM: To improve free gingival graft (FGG) healing by using platelet-rich fibrin (PRF) at the soft tissue defect area of extracted upper right first molar in order to restore keratinized tissue and prepare the site for bone grafting followed by dental implant placement. CASE REPORT: A healthy female patient, 59 years old, presented to the dental clinic at the University at Buffalo, School of Dental Medicine, seeking dental implants to restore missing teeth. The patient had an extraction for upper right first molar 4 months ago. The surgical extraction left severe soft and hard tissue defects at the site. Free gingival graft was placed at the site to increase keratinized tissue band followed by PRF to improve healing. Cyanoacrylate adhesive was used to stabilize PRF Two months later, a full-thickness flap was reflected, and tenting screws placed with bone grafting at the site. Titanium-reenforced membrane was placed over the bone graft. Three months later, tenting screws were removed and two dental implants were placed at the site. CONCLUSION: The use of PRF accelerates the healing of FGG. More tissue handling could be achieved by increasing the kera-tinized tissue during surgical procedures. CLINICAL SIGNIFICANCE: The combination of PRF and FGG could help in the healing process during soft tissue procedures.