View clinical trials related to Tooth Loss.
Filter by:Aim of the present investigation will be to evaluate the role of a bovine-bone mineral and a collagen membrane as ridge augmentation procedure following tooth extraction. 20 consecutive adult patients, requiring tooth extraction in the frontal area of the upper and lower arch maxilla (from second premolar to second premolar), will be enrolled into the study. After tooth extraction, sockets will be randomized and divided into two groups: in Group A the socket will be grafted with Bio-Oss Collagen , in Group B the sockets will be grafted with BioOss granules (small granules). The graft will be covered with porcine collagen membrane (BioGide). Then, the flap will be sutured. MEASUREMENTS: The end of the study will be fixed at the 6 months evaluation after tooth extraction. Impression will be taken before tooth extraction and after 6 months in order to create cast models. On the cast models, using reference PVC (polyvinylchloride) guides, the horizontal dimension of the soft tissues will be measured. One measurement per tooth will be recorded, at T0 (before extraction) and T2 (after 6 months). A 3D radiological image, using the CBCT technique, will be obtained at the end of the surgical stage T1 (extraction + bone graft) and after 6 months of healing. Superimposition will be performed in order to measure hard tissue remodelling. After six months (T6), a a biopsy specimen will be also harvested for that augmented extractions sockets on which an implant installation has been previously planned.
In this split-mouth controlled study, implants placed using the alveolar ridge expansion technique will be compared to those placed in native bone with sufficient horizontal bone width. The Piezosurgery device and Bone expanders (Mectron,Italy) will be employed in an alveolar ridge expansion technique.
In an ongoing study new dental patients are screened to determine their risk of having undiagnosed pre-diabetes or diabetes based on risk factors readily known by the patient and signs of gum disease. Investigators further seek to assess if a post-identification intervention leads to a greater likelihood of study participants identified as potentially pre-diabetic or diabetic visiting their physician regarding their screening blood test results, and to improved health outcomes.
An important result of healing after tooth extraction is a reduction in dimensions of the remaining bone at that site. This reduction of bone volume precludes successful restoration of the space using a dental implant. Bone augmentation has shown promise in clinical reports to reduce this loss of bone volume, thus allowing implant placement and restoration. The purpose of this study is to evaluate the clinical and radiographic outcomes of guided bone regeneration around dental implants placed in fresh extraction sockets.
Since there are no clinical studies available comparing the gold standard (autogenous bone graft plus resorbable membrane) to the promising combination of xenogenic bone graft loaded with rhBMP-2 in combination with a collagen membrane for localized ridge augmentation, the present exploratory study has been designed. The aim of the present study is therefore to test whether or not the application of a xenogenic bone block loaded with rhBMP-2 will results in clinically, radiographically and histologically similar outcomes as the gold standard (autogenous bone block) for the regeneration of chronic ridge defects. The investigators expect that there is no difference in bone quantity and quality between the two methods and that the use of the test treatment will be more user and patient friendly according to the patient perception/acceptance since no second surgical site will be necessary as well as cause less complications.
The primary purpose of this study is to 1. determine whether dental implant engaging both the alveolar crest cortical bone and sinus floor using vertical stopper drill and self-threading concept (bi-cortical fixation) increases initial implant stability compared to the short implants engaging only alveolar crest cortical bone (uni-cortical fixation) and/or ones engaging both crest and sinus floor but with green stick fracture (indirect sinus lift technique), 2. study whether different surgical techniques, residual bone height, bone density, and length and width of the implants used affect initial implant stability in posterior maxilla. In addition, this study will continue to 3. compare secondary implant stability of implants fixed bi-cortically, uni-cortically and with indirect sinus lift technique at 2nd stage surgery/6 month healing and 1 year follow-up from the restoration and 4. measure amount of endo-sinus bone formation from the 1- year follow up CT (computer tomogram) scan and evaluate safety and potential post-operative complications of bi-cortical fixation and indirect sinus lift technique reported throughout the follow up periods.
The purpose of this research is to determine if one's own bone marrow tissue can help regenerate (grow) bone in the area of the jaw where an implant will be placed. The name of the process is called Bone Repair Cell (BRC) Therapy. A sample of bone marrow tissue will be collected and sent to a laboratory where it will be processed to form more cells. These new cells will then be transplanted in the regenerative site or sinus floor augmentation site. The researchers are testing to see if these cells (BRC) will help form bone indicating. The research will also determine if the implant will be more stable in the area with new bone growth.
The purpose of the study was to test a clinically relevant non-inferiority of Straumann BoneCeramic treatment compared to Bio-Oss treatment 180 to 240 days after sinus grafting procedure.
Fixed-partial dentures fabricated of zircon-oxide ceramics were introduced in dentistry some time ago. However, the survival rate of all-ceramic extended (up to 47mm) fixed-partial dentures is unknown. The hypothesis was that long FDPs fabricated of zirkon-oxide withstand masticatory forces in the posterior and anterior regio of the jaw.
The primary term goal of these research efforts has been to enhance the functional status, comfort and quality of life of edentulous patients by evaluating clinical procedures, denture designs and adjunctive therapies based upon a clear understanding of: (1) oral functional impairments caused by the loss of teeth and subsequent tissue changes; (2) neurophysiological mechanisms associated with oral functions; (3) metabolism of oral tissues; and (4) interactions between biological and psychological processes and denture characteristics. The primary purpose of the proposed clinical outcome study is to compare the relative efficacies of three different combinations of implant-supported maxillary and mandibular prostheses with traditional complete dentures for edentulous patients. Completion of this study will determine the relative cost-effectiveness of the implant-supported denture treatments for use in the general population of edentulous patients.