View clinical trials related to Alveolar Bone Loss.
Filter by:The aim of the present randomized controlled trial (RCT) was to evaluate the efficacy of different alveolar ridge preservation (ARP) techniques on hard tissue dimensional alterations after tooth extraction, based on clinical measurements.
In this study, concentrated growth factor obtained by centrifuging the patient's own blood and advanced platelet-rich fibrin liquids were applied to the implant cavity and surface. Thus, it was aimed to ensure that the osseointegration process would start earlier by ensuring a faster arrival of growth factor and healing mediators in the region, and thus, the time waited for the osseointegration process and the loading of the superstructure would be shortened. In this split-mouth study, a total of 32 patients including two separate study groups in different patients and a control group were included. While the CGF liquid was applied to the implant cavities and surfaces prepared in the study group of 16 patients, A-PRF liquid was applied to the study group of the other 16 patients. Conventional implant application was performed in the control groups of both groups. The torque values during the implantation were also recorded, and Resonance Frequency measurements were performed immediately after implantation with the Penguin RFA device and at postoperative weeks 2, 4, 6 and 12.
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.
Alveolar bone resorption often occurs after tooth extraction. At present, guided bone regeneration technique is widely used in clinic since it leads to less trauma and less complications. Tenting screw technology, basic on the classical GBR, implants screws into the surgical area to prevent the barrier membrane from collapsing. Moreover, advanced platelet rich fibrin and injectable platelet-rich fibrin are used to provide the osteogenic function. The investigators intend to increase vertical alveolar bone augmentation by combining tenting screws and A-PRF, I-PRF.
To evaluate a novel technique of bone regeneration and simultaneous implant placement in severely damaged sockets.
This study focuses on comparing the effect of MPM with or without collagen membrane on delayed implant placement in anterior maxillary aesthetic zone.
AIM AND OBJECTIVES: AIM To determine the association between periodontal bone loss and maxillary sinus changes through cone beam computed tomography. OBJECTIVES Primary objectives- 1. To compare the presence of maxillary sinus changes in patients with radiographic evidence of periodontal bone loss with healthy controls. Secondary objectives- 1. To determine the correlation between severity of periodontal bone loss with the changes in maxillary sinus. 2. To compare the mean maxillary sinus mucosal thickening in patients with radiographic evidence of periodontal disease with healthy controls. MATERIALS AND METHODOLOGY: STUDY DESIGN A retrospective study will be conducted in the department of Oral Medicine and Radiology, Post Graduate Institute of Dental Sciences, Rohtak. STUDY SETTING Hospital based study - CBCT volumes which are available in the archives of Oral Medicine and Radiology department will be evaluated. STUDY PERIOD This study will be completed in 6 months. STUDY SUBJECTS CBCT volumes of patients who have undergone CBCT examination between May 2019 and December 2020 for various dental purposes will be evaluated and the volumes fulfilling the inclusion criteria will be included in the study. The subjects will be divided into 2 groups- Periodontal disease group and Healthy group, INCLUSION CRITERIA 1. Good quality images with visualization of maxillary sinus and maxillary posterior teeth of at least one side. EXCLUSION CRITERIA 1. Signs of endodontic pathology like periapical radiolucency, root canal fillings etc. 2. Presence of metal artifacts interfering with the view of the maxilla. 3. Presence of trauma or pathologies such as tumours, cysts or malignancies that obscure the view of the region of interest. SAMPLE SIZE A minimum sample size of 71 maxillary scans in each group has been calculated to expect a difference of 26.84% in the prevalence of the 2 groups as ascertained from a pilot study, at a significance level of 0.05 and a power of 90%. Since group one will further be divided into 3 classes, a sample size of 225 in each group shall be taken. METHODOLOGY - CBCT volumes of patients who have undergone CBCT for various dental purposes between May 2019 to December 2020 available in the archives of Department of Oral medicine and radiology will be evaluated. - These scans will be screened for radiographic evidence of periodontal disease i.e. horizontal or vertical bone loss and bone loss at the furcation. - Further, the periodontal bone loss scans i.e. 225 will be divided into 3 groups of 75 each: mild (<25%), moderate (25-50%) and severe (>50%) according to the amount of bone loss. - The group with no bone loss will be taken as the control group i.e. 225. - Maxillary sinuses will be evaluated according to the following criteria; score range from 0 to 6 ; 0 - no mucosal changes.,1 - area without cortical bone and with soft tissue density, thickness >3 mm, parallel to sinus bone wall,2- sinus polyp, 3-antral pseudo cyst, 4- non-specific opacification,5- periostitis,6- antrolith. DATA MANAGEMENT AND STATISTICAL ANALYSIS Data will be tabulated in Microsoft Excel sheet. The results will be expressed as the frequency (%) of maxillary and Mean + Standard deviation (SD) for maxillary sinus mucosal thickening. Normality of data will be assessed and Chi-square or student T test shall be used for non-parametric and parametric data respectively. All analysis will be performed by SPSS software version 21. A p value less than 0.05 will be considered significant for all outcomes.
A deficient alveolar ridge segment in prepara¬tion for implant placement can be regenerated by several techniques. The type of graft material for each patient depends on many factors such as the anatomy, the morphology of the bone defect, type of prosthodontic rehabilitation and patient or clinician preferences. Bone graft material should have three properties that made it ideal: a) osteoconduction, it provides scaffolds for bone regeneration; b) osteoinduction, it promotes the recruitment of bone-forming cells and formation of bone and c) osteogenesis, induction of cells in the graft to promote regeneration of the bone. Despite of the development of different types of graft material, autogenous bone is still the gold standard for bone augmentation because it exhibits these three mentioned properties. Although it has many advantages, autologous bone has some disadvantages such as high resorption rate up to 50 %, limited source and donor site morbidity. Allografts, xenografts and alloplastic bone graft are materials that are used in everyday practice and over long period, but their disadvantages are numerous in comparison with autologous bone. Allografts can be carrier of some disease and show lack of osteoproliferation, while alloplasts and xenografts show only osteoconduction. According to these facts, it is obvious that there is a need for development an alternative graft material that will surpass these disadvantages.The reconstruction of deficient alveolar ridge defect by the lateral bone augmentation prior to the dental implant placement is predictable and commonly used method. Except animal studies, recent clinical studies showed that there is no difference in the osseointegration of titanium implants in deficient alveolar ridges reconstructed with autogenous cortical bone blocks or autogenous teeth.
To study the effect of platelet-rich plasma concentrate on marginal bone loss and bone mineral density in immediate implant placement through CBCT.
The aim of this study was to compare and measure the amount of bone density and ridge width gained with motor driven expanders and densifying burs with simultaneous dental implant placement.