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Clinical Trial Summary

Platelet concentrates obtained from blood have been used as regenerative biomaterials in periodontal surgery. Along with the migration and proliferation of osteogenic cells, platelets accelerate bone regeneration by increasing the formation of blood vessels and inducing inflammatory reactions. Experimental studies revealed that growth factors released from platelets enhance osteoblastic differentiation on the implant surface, and enlarge the contact surface of the bone and implant. Platelet-rich fibrin (PRF), a platelet concentrate, was introduced by Choukroun in 2001, and it contains a significant amount of cytokines. Advanced-platelet rich fibrin (A-PRF), discovered in 2014, is a PRF derivative with a denser leukocyte concentration and a softer consistency. Concentrated growth factor (CGF), another platelet derivative, differs from A-PRF since it contains many concentrated growth factors trapped in a more rigid fibrin structure. It was reported that both A-PRF and CGF, obtained with variable centrifuge speeds, accelerated the proliferation and differentiation of bone cells. Stimulated osteoblasts and osteocytes initiate the remodelling process by producing macrophage colony-stimulating factor and receptor activator of nuclear factor-kappa B ligand (RANKL).Previous studies reported that TNF-α initiated bone resorption independently of RANKL.Osteoprotegerin (OPG) is a soluble cytokine receptor of the TNF family and is produced by osteoblasts, fibroblasts, and a number of host cells. OPG binds to RANKL and prevents the RANKL-RANK interaction Therefore, it inhibits osteoclastic activity. The RANKL/OPG ratio is used as an indicator for estimating bone remodelling, osteoclastic activity, or osteogenesis. The interactions among cytokines, growth factors, chemokines, and chemical mediators during blood clot formation result in a complex signalling process. High concentrations of cytokines and growth factors in the wound promote the migration of macrophages, neutrophils, and lymphocytes. Therefore, it was reported that the cytokines released from the fibrin matrix might affect those signaling pathways. In this study, investigators hypothesised that the application of CGF or A-PRF in dental implantation would contribute to inflammation, proliferation and the remodeling process. Therefore, the aim of this study was to investigate the effects of CGF and A-PRF on the osseointegration of dental implants in clinical, radiographic, and biochemical aspects.


Clinical Trial Description

This study was conducted in Periodontology clinics. The study protocol was approved by the Hatay Mustafa Kemal University Human Ethics Committee before the initiation of the study (approval number:). The patients who met the inclusion criteria and who volunteered to participate in the study were given detailed information about the study and provided informed consent before the procedure. Patient selection: The inclusion criteria of the individuals found to be healthy from their medical histories and who had received clinical examination and had radiological imaging were as follows: - Above 18 years of age - Symmetrical edentulous areas in the mandible - Sufficient bone width and height permitting ideal dental implant placement - Individuals who do not smoke - At least 2 mm of keratinized gingiva width and 3 mm soft tissue thickness at the implant site Individuals meeting any of the criteria listed below were excluded from the study: - Patients with systemic disorders, including diabetes mellitus, metabolic bone disease, rheumatoid arthritis, mucocutaneous disorders, immunological disorders, hepatitis, or HIV - Individuals who were on antibiotics, anti-inflammatory agents, corticosteroids, immunosuppressants, anticoagulants, or hormonal contraceptives for any reason, at least 6 months prior to the procedure, and those who were on bisphosphonates at that time or previously. - Individuals with any pathology or defects at the implant site. - History augmentation at the implant site. - Individuals with severe periodontal disease and poor oral hygiene. - Severe caries or endodontic lesions in teeth adjacent to the implant. - Those who use intraoral orthodontic or prosthetic appliances that make plaque control difficult. - Pregnant and lactating individuals. Randomization and Blinding Both the study groups and the surgical site were determined by drawing a closed envelope immediately before surgery. Clinical and radiological records of the study were obtained by an experienced periodontist who was unaware of the allocation Surgical Procedure Infiltrative anaesthesia was provided with an anaesthetic solution containing 1:100,000 epinephrine. A mid-crestal incision was made using a 15c scalpel, and a full-thickness flap was elevated. The drilling procedure was performed (600 rpm and 25 Ncm) according to the implant diameter and the need for an edentulous area in the mandible. A countersink drill was used for all implants to minimise the crestal bone stress. In case of the presence of a natural tooth adjacent to the implant site, a distance of at least 1.5 mm between the tooth and the implant cavity was left, and the presence of at least 1 mm bone plates in the buccal and lingual sides of the implant. CGF or A-PRF autologous obtained from centrifuged blood was placed in a PRF box. In this way, the liquid rich in growth factor and platelets leaking from the fibrin network was allowed to flow into the box. The liquid was collected with a syringe and applied over the implant surface until no dry area was left. In addition, the implant site was filled with this liquid, and 0.5 mm subcrestal placement of the implant was provided at 40 rpm and 25 Ncm torque. The membrane obtained from the CGF or A-PRF was placed over the implant, enough to cover the crestal bone, and a healing cap was placed. Implant placement without CGF or A-PRF was performed on the opposite side of the jaw in the control group. The stability of the implant was determined using resonance frequency analysis. The surgical site was sutured using a 5/0 silk. All patients were advised not to take any medications, unless necessary. The sutures were removed at the 10 days after surgery. All surgeries were performed by a physician with five years of experience Preparation Procedure of CGF and A-PRF Before starting the implant surgery, 9 mL of blood was withdrawn from the cubital vein of the patient's forearm, transferred into a tube without anticoagulant, and centrifuged. CGF was obtained using an automatically adjusted centrifuge device, fired at alternating and controlled speeds (2 min at 2700 rpm, 4 min at 2400 rpm, 4 min at 2700 rpm, and 3 min at 3000 rpm) (MEDIFUGE, Silfradentsrl, S. Sofia, Italy). In the A-PRF group, blood was centrifuged at 1400 rpm for 14 min (Duo Centrifuge Process for PRF, France). Centrifugation resulted in three layers in the tube: a red blood cell layer at the bottom, a platelet-poor serum layer at the top, and a fibrin gel layer containing growth factors and platelets in the middle. The serum in the upper layer was removed with a sterile syringe, and the fibrin layer was removed from the tube using a clamp. The red blood cells in the lower layer were removed from the fibrin structure using a scissors. Clinical Measurements and Resonance Frequency Analysis Four sites of each healing cap, mesial, distal, buccal, and lingual surfaces, were analysed for plaque index (PI), gingival index (GI), pocket depth (PD), and gingival bleeding index (GBI). All clinical measurements were repeated at 2, 4, and 12 weeks after the procedure. Resonance frequency analysis was performed intraoperatively and postoperatively at the fourth and twelfth month. Measurement of Marginal Bone Levels: Calibrated panoramic radiographs obtained on the day of surgery and 3 months after were used to determine the marginal bone level. The implant-fixture platform was considered as the threshold for measuring changes in the marginal bone level. When the marginal bone around the dental implant decreased below the platform, two horizontal lines were drawn on the radiograph: the first plane was located on the platform of the implant fixture, and the second was on the alveolar crest or at the bottom of the bone defect. The average of the marginal bone loss was obtained by measuring the distance between the two points left by the lines drawn from the mesial and distal surfaces of the cylindrical part of the implant on the horizontal lines. All radiological measurements were performed by two examiners experienced in their fields. Collection of Peri-implant Crevicular Fluid (PICF): First, the implant site was isolated from saliva and dried with air. An absorbent filter paper strip was placed 1 mm into the pocket in the mesial and distal surfaces of the healing cap, and was left there for 30 s to allow absorption of a sufficient amount of peri-implant crevicular fluid. The volume of the fluid was measured using a calibrated electronic device (Periotron 8010, Oraflow, Amityville, NY, USA). Paper strips contaminated with blood or plaque were excluded from the study. The paper strips were transferred into an empty Eppendorf tube covered with paraffin wax and stored at 80 °C until analysis. Biochemical Analysis: Initially, fresh phosphate buffered saline (PBS) was prepared saline (pH: 7.00 137 mM NaCl, 10 mM Na2HPO4, and 2.7 mM KCl]. PBS of 300 µL) was added to each Eppendorf tube with two paper strips inside, left at room temperature for 30 min, and then centrifuged at 12,000 × g at 4°C for 15 min. Following centrifugation, the strips in the Eppendorf tube were removed, and the supernatant obtained was used for ELISA. Tumour necrosis factor alpha (TNF-α) (Boster), sRANKL (Soluble Receptor Activator of Nuclear Factor-Kb Ligand) (Elabscience) and Osteoprotegerin (OPG) (Boster) levels were measured by ELISA at 450 nm wavelength using commercial kits and Thermo Fisher Scientific Multiscan Go- Finland ELISA Reader. All analyses were performed in accordance with the manufacturer's instructions. Statistical Analysis: The data were analysed at 95% confidence using the SPSS 21 software. Continuous variables were expressed as mean, standard deviation, median, minimum, and maximum. Categorical variables are expressed as frequencies and percentages. The normality of the distribution of the data was analysed using the Shapiro-Wilk test, and Mann Whitney U and Student t tests were used to compare independent groups. The Wilcoxon signed rank test and Friedman test were used to compare dependent variables. The comparisons of two measurement points were analysed using the Wilcoxon test with Bonferroni correction (p <0.016) if a significant difference was determined using the Friedman test. The p value was determined as 0.05, for all analyses. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT04851002
Study type Interventional
Source Mustafa Kemal University
Contact
Status Completed
Phase N/A
Start date October 3, 2019
Completion date March 20, 2021

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