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Showing 1-20 of 54 trials
NCT07521514
CGF membranes will be prepared using a swing-lock centrifuge. A full-thickness mucoperiosteal flap will be elevated in a narrow alveolar ridge. Implants will be inserted. Autologous bone chips will be harvested via bone scraping and used for augmentation, CGF membranes will be placed over the grafted area. Suturing of the mucoperiosteal flap. Radiographic evaluation of the bone density and tissue thickness will be performed by CBCT preoperatively, immediate postoperative and after the procedure by 4 months. Clinical evaluation of the tissue thickness using periodontal probe preoperatively, immediate postoperatively and after the procedure by 4 months
NCT07520903
This prospective comparative clinical study evaluated vertical and horizontal bone gain after guided bone regeneration using titanium-reinforced dense PTFE (TiR-dPTFE) membranes versus reinforced PTFE mesh (RPM) in patients requiring ridge augmentation prior to implant placement. Radiographic outcomes were assessed using CBCT at baseline, 9 months, and 12 months. Histological evaluation was performed in selected cases. Healing events and complications were recorded.
NCT07419269
The aim of this study is to determine whether jawbone augmentations using allogeneic and autogenous bone blocks lead to comparable three-dimensional clinical and radiological outcomes. In addition, the study seeks to investigate whether there are differences regarding safety, biocompatibility, complications, and PROMs. Furthermore, it aims to clarify whether differences exist between the two groups with respect to implant condition (one year after implantation and during annual follow-ups for up to five years).
NCT07365852
This study compares the accuracy of osteotomies positions using patient specific guides for onlay bone shells harvested from the chin then the graft positioning for 3D upper anterior ridge augmentation using patient-specific tooth-supported guide versus free hand technique
NCT07324213
Surgical removal of impacted mandibular third molars is a common procedure that may be associated with postoperative pain, swelling, limited mouth opening, and delayed bone healing. Various regenerative techniques are used to improve healing outcomes after tooth extraction. This study evaluated whether autologous platelet concentrates (advanced platelet-rich fibrin \[A-PRF+\] and concentrated growth factors \[CGF\]) and photobiomodulation using low-level laser therapy can improve healing after mandibular third molar extraction. Participants requiring surgical removal of a mandibular third molar were randomly assigned to one of six treatment groups. Depending on the group, patients received standard wound closure alone, photobiomodulation, placement of autologous platelet concentrates into the extraction socket, or a combination of platelet concentrates and photobiomodulation. Postoperative pain, swelling, mouth opening, and early wound healing were assessed during the first postoperative week. Bone regeneration within the extraction socket was evaluated using radiological imaging several months after surgery. All procedures used in this study are commonly applied in clinical practice and are considered safe. The results of this study may help identify the most effective approach to improve healing and reduce postoperative discomfort following mandibular third molar extraction.
NCT06313229
The purpose of this study was to report the clinical and radiographical outcomes of using autogenous cortical bone plates combined with sticky allogenic bone graft for augmenting maxillary anterior atrophic combined horizontal and vertical ridge defects with simultaneous versus staged implant placement.
NCT06546826
Post-extractive alveolar ridge remodeling represents a physiological phenomenon that may hamper successive implant insertion. Several techniques have been proposed without any significant difference of efficacy among them. Moreover several research protocols of analysis have been proposed, including histomorphometric, radiological, clinical analysis. The purpose of the present study is to test different alveolar ridge preservation techniques using histomorphometric and optical scanning analysis.
NCT07079917
surgical horizontal augmentation for maxillary alveolar ridge using minimally invasive subperiosteal tunneling in comparison to conventional surgical technique
NCT07047131
This study compares two bone graft materials used when placing a dental implant right after tooth removal. One graft fully dissolves (GTO®), the other only partly (Apatos®). The goal is to see which one better preserves bone and improves appearance around the implant.
NCT04998058
This study aims to evaluate bone formation in grafts in terms of its quality (density), quantity (volume) and maturation obtained with the application of a tissue-engineered bone grafting compound containing concentrated autogenous cell-culture medium (CM) and a synthetic bone substitute. The present study was designed as an experimental prospective split-mouth randomized controlled clinical trial. After protocol approval by the Research Ethics Committee, a total of 20 consecutive participants in need of maxillary reconstruction aiming implant-supported oral rehabilitation will be invited to join the study. To collect autogenous adipose tissue-derived mesenchymal stem cells (hASCs), an outpatient lipoplasty procedure at the abdominal area of each patient will be performed. To isolate and expand hASCs from the lipoaspirate, specific cell culture protocols will be followed, resulting in cultured viable cells and their conditioned medium (CM). Cells and CM will be then separated by a sequence of filters and centrifugation, and isolated CM will be frozen. ELISA will analyze the presence of chemokines and their concentration in CM before grafting. Following pre-op surgical planning, both maxillary sinuses of each patient will be grafted internally applying a lateral window to each sinus. The bony floor of the test maxillary sinus will be augmented with synthetic bone substitute (BoneCeramic™ 1-2 mm) mixed with 10 to 15 ml of CM (test). The control site will receive bone substitute with saline. Lateral windows in both sinuses will be then closed with a collagen membrane (Bio-Gide™). After 6 months, first-stage implant surgery will be performed placing 6 implants in each patient. Registration of implant stability by manual torque wrench will be performed. Also, bone biopsies from each drilled implant site will be collected for histology, histomorphometry and immunohistochemistry (RT-PCR). Tomographic evaluation of the bone formation will include cone beam computed tomographies (CBCTs) at pre-operative \[Baseline\], 90 \[T1\] and 180 \[T2 = implant placement\] days for bone 3D image analysis.
NCT06315413
The aim of the current study is to compare the effect socket sealing with flowable resin composite compared to dense polytetrafluoroethylene membrane after filling the extraction site with xenograft particles in terms of soft and hard tissue changes, procedural time, post operative pain, patients' satisfaction, and cost effectiveness.
NCT05437172
Ridge preservation should be considered whenever possible after tooth extraction. Whether implant placement would be performed or for aesthetic consideration at pontic sites when conventional bridge is planned. Ridge preservation aims to maximize the bone formation accompanied with good soft tissue architecture to facilitate implant and prosthetic replacement restoring function, phonetics and aesthetics. the Aim of the study is To evaluate the bucco-lingual ridge width clinically and radiographically, height of buccal and lingual ridges of the socket after application of injectable platelet rich fibrin and autogenous dentin graft.
NCT03978962
The evaluation of the clinical data has demonstrated the conformity of the Resorbable Collagen Membrane (RCM), EZ CureTM, with the relevant essential requirements for its use in periodontal applications. The RCM is intended for Guided Tissue Regeneration (GTR) and Guided Bone Regeneration (GBR) procedures. It acts as a barrier against the migration of epithelial cells within the bone defect (performance) and thus complies with several surgical indications in the treatment of maxillofacial bone defects. It has been concluded that the risks associated with the use of this device are acceptable when weighted against the benefits to the patients. In order to improve the clinical data on the RCM, the manufacturer, Biomatlante, decided to assess that the performance and safety of the device are maintained until the reaching of its intended use. In this objective, the goal of this study will be to observe the following parameters: 1. Tissue regeneration (mucosa health on the site of implantation) 2. Safety (report of any adverse event) 3. Radiographic analysis of periodontal tissues
NCT06784232
The modified periosteal inhibition technique has been proposed as an alternative to limit crestal resorption following tooth extraction in sockets with a residual vestibular thickness of \<1 mm. This technique aims to prevent osteolytic activity on the external surface of a post-extraction socket by applying a 0.5 mm-thick soft cortical plate of porcine origin, secured with fibrin glue. By avoiding the placement of bone graft material inside the socket, the technique seeks to effectively counteract bone remodeling, achieving minimal reduction in the size of the alveolar crest. The aim is to evaluate the effectiveness of the modified periosteal inhibition technique in preserving the dimensions of the alveolar ridge after tooth extraction, by comparing it with the Biologically-oriented Alveolar Ridge Preservation technique.
NCT06711250
The current st udy's objective was to validate the repeated effect of i PRF with autogenous bone on the of gingival thickness , width a n d volumetric bone changes durig maxillary alveolar augmentation using cone beam computer tomography (CBCT). Patients and methods:
NCT06661863
Alveolar ridge preservation (ARP) is a surgical technique that aims to minimize the degree of dimensional changes following extraction. In the healing period after extraction, the alveolar bone (AB) undergoes morphological changes during the remodeling process. The changes become evident immediately after tooth extraction, with greater resorption changes observed during the first two months, and these dimensional changes can be observed 1 year after surgery.
NCT06640127
This study was conducted at Ege University, School of Dentistry, Izmir, Turkey. Patients enrolled require implant placement to the atrophic posterior maxilla. Patients were treated with either the specifically designed drills or the osteotomes. The outcome variables were primary stability, marginal bone loss, implant survival, and patient-reported outcomes. The investigators aimed to compare the treatment outcomes of two different techniques used in dental implant placement with internal sinus lifting.
NCT06227351
The aim of study is evaluation of accuracy of completely versus partially limiting computer generated surgical three-dimensional guides during placement of zygoma implants in patients with atrophic maxillae.
NCT02703480
The proposed study design is a randomized controlled trial, split mouth design, to compare the two different vertical augmentation procedures: Titanium mesh (Ti-mesh) technique and Guided Bone Regeneration (GBR) technique with a high-density polytetrafluoroethylene (d-PTFE) membrane.
NCT06513039
regenerative materials would help in decreasing post-extraction resorption in sites indicated for placement of a conventional bridge or prosthetically driven implant. Erythropoietin (EPO) is a growth factor that promotes angiogenesis and bone regeneration by stimulating osteoblastic differentiation and by inhibiting osteoclastic resorption. Post-extraction alveolar ridge resorption creates morphological and volumetric changes. These changes can be considered of clinical value that may threaten the placement of a conventional bridge or an implant-supported crown. Atwood et al. \[1\] in a cephalometric study categorized factors influencing the rate of alveolar ridge resorption into 4 types: anatomic, metabolic, functional, and prosthetic. As stated by Tan et al. \[2\] in a systematic review of alveolar hard and soft tissue dimensional changes in humans post-extraction, they found that alveolar ridge resorption occurs to a greater extent in a horizontal direction than vertical. Therefore, alveolar ridge preservation (ARP) procedures were introduced in an attempt to prevent hard and soft tissue dimensional changes following extraction.