Clinical Research Directory

Outcomes of Different Bone Graft Combinations for Maxillary Sinus Augmentation Procedure

This study investigates the outcomes of a surgical procedure that is performed to increase bone support at a future implant site on the upper back jaw area. This procedure requires placing bone graft material and/or substitutes into the maxillary sinus. The average healing time for the graft is about 6 months. Then, the site will be ready for dental implant. The study will compare healing outcomes of two types of bone graft mixtures used on the same patient (right and left upper jaw regions). The outcomes will be evaluated through clinical examination but also by studying the quality of the tissue through tissue biopsies obtained from grafted sites.

Comparative Evaluation of Xenograft Alone and Sticky Bone in Sinus Lift With Concurrent Implant Placement

Introduction \& Background: Modern dental implantology offers solutions for patients with edentulism in the maxillary arch, where sinus pneumatization and alveolar ridge atrophy are common conditions. This often requires sinus floor elevation and bone grafting prior to implant placement. Techniques such as the lateral window approach and osteotome-mediated sinus floor elevation aim to achieve sufficient vertical bone height for successful implant placement. Autogenous bone grafts have long been considered the gold standard; however, their use is associated with limitations including donor site morbidity and graft volume loss, which has encouraged the exploration of alternative grafting materials. Sticky bone is a term used in oral surgery and implantology to describe a cohesive, moldable, and adhesive bone graft material prepared by combining particulate bone graft material (xenograft) with biological additives such as Platelet-Rich Plasma (PRP) or Platelet-Rich Fibrin (PRF). Platelet-Rich Fibrin (PRF), which is used in the present study, is an autologous leukocyte and platelet-rich fibrin matrix containing cytokines, platelets, and stem cells. PRF acts as a biodegradable scaffold that promotes microvascularization and guides epithelial cell migration. In addition, PRF may serve as a carrier for regenerative cells and allows sustained release of growth factors over a period ranging from one to four weeks, thereby enhancing the wound healing environment. Objectives: The study aims to assess the clinical efficacy of sticky bone as a bone graft material in sinus lift procedures compared with conventional xenograft materials. Methods: A randomized clinical trial will be conducted comparing two groups: one receiving sticky bone with simultaneous implant placement and another receiving xenograft with implant placement. Preoperative assessment will include Cone Beam Computed Tomography (CBCT) imaging, followed by postoperative monitoring to evaluate bone height and implant stability. Study Design: Patients fulfilling the inclusion and exclusion criteria will be recruited from the dental clinic. Written informed consent will be obtained from all participants after explanation of study procedures, potential risks, and expected benefits. Eligible patients will be randomly allocated into two equal groups using a computer-generated randomization program: Group 1 (Sticky Bone group) and Group 2 (Xenograft group). Statistical Analysis: Sample size calculation was performed using G\*Power software version 3.1.9.7. The statistical test family selected was the t-test. Based on data from a previous study, a total of 16 participants were required to achieve a study power of 80% with a significance level (alpha) of 0.05. To compensate for potential dropouts, the total sample size was increased to 18 participants (9 patients per group).

Erythropoietin - Albumin Platelet-rich Fibrin in Transcrestal Sinus Lifting With Simultaneous Implant Placement

Background: Dental implant therapy in the posterior maxilla may be difficult owing to limited bone height after dental extraction with sinus pneumatization. Several approaches for sinus floor elevation have been documented, and hence trans crestal sinus lifting with albumin platelet rich plasma. Aim of the study: To compare between erythropoietin and albumin platelet rich fibrin transcrestal sinus lifting versus albumin platelet rich fibrin transcrestal sinus lifting using piezoelectric device in patients with atrophic maxilla. Methods: This study will be carried out as a randomized

Evaluation of Customized Zirconia Membrane in Direct Sinus Lifting With Simultaneous Implant Placement: (Randomized Control Trial)

Modern dental implantology offers solutions for patients with edentulism in the maxillary arch, where sinus pneumatization and alveolar ridge atrophy are common. This requires sinus floor elevation and bone grafting for implant placement. Techniques like the lateral window approach and osteotome-mediated sinus floor elevation aim to achieve the necessary vertical bone height for implants. Autogenous bone grafts have been the gold standard but have limitations like donor site morbidity and graft volume loss, leading to the exploration of alternatives. Membranes, such as resorbable collagen or titanium-reinforced materials, are commonly used in these procedures but have limitations related to customization, cost, and failure rates.Recent studies have suggested that placing implants directly into the sinus without grafting material can stimulate bone formation, leveraging blood clots to activate bone-forming cells. Zirconia, a ceramic material known for its bioinertness and mechanical strength, is being explored for its potential in sinus lift procedures. Customized 3D zirconia membranes may offer a solution to enhance bone formation and soft tissue integration during sinus lifts.This study aims to evaluate the effect of using customized zirconia membranes in sinus lift procedures with simultaneous implant placement, comparing bone height outcomes with conventional sinus lifts without membranes