Intraoral Ultrasound Imaging of Tooth-periodontium Complex
Alveolar Bone LossPeriodontitisMisaligned teeth are very common in the population and are commonly known as malocclusion. This happens when the upper teeth do not align properly with the lower teeth. It can lead to difficulty in jaw movement, chewing, speech, and gum disease. Correction of malocclusion requires orthodontic (braces) treatment. Currently, the imaging technique known as cone-beam computed tomography (CBCT) has been routinely used in orthodontic diagnosis and treatment planning for patients with malocclusion. Although CBCT provides better information than conventional dental X-rays, it typically delivers more harmful radiation to the patients. This is especially important as radiation from repeated X-ray imaging during dental monitoring visits can be cumulative. Ultrasound is commonly used in medical imaging. The ultrasound method is non-invasive, cost-effective, and free of ionizing radiation. The application of ultrasound has been investigated in many fields in Dentistry. We plan to evaluate the ability of intra-oral ultrasound to see the bone and gingiva around the tooth for patients under orthodontic treatment. If ultrasound is found to be a reliable tool in imaging the tooth-gum complex, children and adolescents will benefit immensely from the decreased radiation risks and reduced cancer rate.
Piezosurgical Buccal Plate Repositioning Technique for Horizontal Alveolar Ridge Augmentation
Alveolar Bone LossAchieving prosthetically driven implant placement is a highly predictable treatment modality with reliable long-term results. Different surgical procedures have been used as a solution for reconstructing of the alveolar ridge with deficient volume. In the present study we demonstrate a modified alveolar ridge split technique for horizontal alveolar ridge augmentation (buccal plate repositioning technique) using the piezotome surgery. Evaluation of the effect of silica-calcium phosphate nanocomposite (SCPC) graft material versus demineralized freeze dried bone allograft (DFBA) in horizontal alveolar ridge augmentation before implant insertion will be performed.
Radiological Bone Loss on Different Levels of Dental Implants
Alveolar Bone LossPeri-Implantitis1 moreOne of the criteria used for long-term implant success is the evaluation of radiographic bone loss. It is known that the keratinized mucosa over the alveolar crest forms a protective barrier against inflammatory infiltration. In addition, it has been reported that the vertical mucosal thickness on the crest is important in the formation of the biological width around the implant. The aim of this study was to evaluate the effect of vertical mucosal thickness on the alveolar crest on peri-implant marginal bone loss around crestal and subcrestal placed platform-switching implants. In this study, patients will be divided into 2 main groups with vertical mucosal thickness of 2 mm and less and more than 2 mm, and both groups will consist of 2 subgroups as crestally and subcrestally according to the implant level placed. A total of 80 implants will be included, 20 implants in each group. Before starting the surgery, after anesthesia is given, the width of the patient's peri-implant keratinized mucosa and the vertical mucosal thickness over the alveolar crest will be measured. Clinical and radiological measurements will be made in all patients during the prosthetic loading session (T0), at 3rd month (T1), 6th month (T2) and 1 year after loading (T3). With standardized control periapical radiographs to be taken as a result of one-year follow-up, the marginal bone loss amount in the implants will be evaluated using soft-ware.
Evaluation of Autogenous Demineralized Dentin Graft for Ridge Preservation With and Without Injectable...
Ridge PreservationAlveolar Bone Loss1 moreRidge 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.
Comparing the Efficacy and Morbidity of Two Vertical Ridge Augmentation Techniques
Vertical Alveolar Bone LossThe 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.
Autogenous Demineralized Dentin Graft Combined With Injectable PRF + Metronidazole Versus Autogenous...
Alveolar Bone LossThe aim of this trial is to compare the effect of autogenous demineralized dentin graft combined with injectable PRF loaded with metronidazole (sticky demineralized tooth releasing metronidazole) versus autogenous demineralized dentin graft (ADDG) alone on alveolar ridge preservation after extraction of non restorable, infected single-rooted teeth
Autogenous Demineralized Dentin Block Graft Versus Particulate Deproteinized Bovine Bone Graft for...
Alveolar Bone LossThe aim of this trial is to compare the effect of autogenous demineralized dentin block graft (ADDBG) versus particulate deproteinized bovine bone graft (PDBBG) on alveolar ridge preservation after extraction of non-restorable single rooted teeth
Autogenous Demineralized Dentin Block Graft Versus Autogenous Bone Block Graft for Alveolar Ridge...
Alveolar Bone LossThe aim of this trial is to compare the effect of autogenous demineralized dentin block graft (ADDBG) versus autogenous bone block graft (ABBG) harvested from maxillary tuberosity on alveolar ridge preservation after extraction of non-restorable single rooted teeth
Influence of Mandibular Nerve Lateralization on Nutrition and Speech
Alveolar Bone LossBone DeformityThis study aimed to evaluate the effects of lip numbness on the nutritional status and speech of patients who underwent inferior nerve lateralization for dental implant placement in the mandibular posterior region. For this purpose, observational follow-up of two groups of patients will be performed. The control group will include patients with standard implant placement in the mandibular posterior region. The test group will consist of patients with implant placement in the mandibular posterior region with inferior alveolar nerve lateralization. The patients will be evaluated before implant surgery and followed up for four months until the final prosthesis is placed. Changes in nutritional status, masticatory performance and speech abilities will be assessed during this process.
Autogenous Mesenchymal Stem Cell Culture-Derived Signalling Molecules as Enhancers of Bone Formation...
Bone LossOsteoclastic5 moreThis 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.