View clinical trials related to Dental Implant.
Filter by:The purpose of this study was to evaluate the effects of (Platelet Rich Fibrin) PRF application on implant osseointegration in the early phase of healing.
The purpose of this study is to compare two different timings of restoring dental implants that are placed right after tooth extraction: The test group will have the provisional crown placed at the time of implant placement. The control group will have the tooth removed and the implant placed at the same appointment but restorations placed after 4 months. Both procedures currently are accepted methods for replacing missing teeth but direct comparisons of the two procedures are lacking. The results of this study should aid clinicians in selecting the best timing for restoring implants for their patients. The hypothesis is that immediate restoration might increase aesthetic outcomes, e.g. less mucosal recession.
Brånemark System® dental implant osseointegration was introduced clinically in 1965 as a novel approach to the replacement of missing teeth. Although this implant's traditional machined screw-shaped surface had excellent, well-documented short- and long-term osseointegration success, newer implant designs were introduced that could enhance biological fusion of the implant to jaw bones, allowing more rapid restoration and function. It was also claimed that such implants could lead to less bone loss with function. One such implant, Screw-Vent®, had a macrostructure very similar to that of the Brånemark implant, except that it's fixture surface was acid-etched which could enhance biological osseointegration. It also had a longer narrower smooth internal-hex interlocking flat collar that could better resist occlusal forces, leading to even less bone loss according to the manufacturer. However, no well-controlled clinical studies existed in 1990 that supported these claims. This study was undertaken, therefore, to first compare the Brånemark implant with another implant, Swede-Vent®, a copy of the Brånemark implant except for its fixture surface that was identically acid-etched as that of Screw-Vent by the same manufacturer. The effect on bone healing could then be compared between Brånemark's machined and Swede-Vent's acid-etched surfaces in the short- and long-terms. Our hypothesis was that the microtextured Swede-Vent fixture would lead to greater bone preservation. Since Screw-Vent's fixture surface was identically acid-etched as that of Swede-Vent by the same manufacturer, we could then evaluate the effect on bone healing of Screw-Vent's collar and the shorter wider machined smooth external-hex flat collar of Swede-Vent (identical to that of Brånemark). All three 2-part platform-matched parallel-wall implants were made of commercially pure titanium, had a very similar fixture macro-design, were approved by the Food and Drug Administration (USA) and Health and Welfare Canada, and were commercially available in North America. Brånemark is still available, but with an oxidized microtextured fixture surface and a shortened machined smooth external-hex flat collar. Screw-Vent is still available with its microtextured fixture surface, but its machined smooth internal-hex flat collar has also been substantially shortened. Swede-Vent is no longer available.
The purpose is to place implants in HIV positive and HIV negative patients then follow patients over 3 years period of time to evaluate how well dental implants perform in HIV positive patients versus HIV negative patients.
This is a research study to test the clinical procedure and not the FDA approved medical device. This project will screen up to 80 volunteers to enroll 40 active subjects to receive a single tooth implant on an anterior (incisor/canine) or pre-molar tooth in the mandible or maxilla (no implants will be placed in molar sites). This 3 year research study will examine the clinical effects of loading regimens on roughened surfaced implants. The proposed research project will measure the changes in mucosal healing and maturation over a three year period following implant placement. The proposed research lays the foundation for improved health care by providing surgeons and restorative dentists with data for determining the relationship between implant healing, loading pattern and bone type. The rationale that underlies the investigation is that identification of the influences of timing of load on implant stability in varying bone types will allow routine, predictable use of early loading, which, in turn, will translate into more rapid health care, and improved psychosocial well-being of the patient. If these hypotheses are correct, these results are expected to provide evidence based research data to support early loading and immediate loading of single implants in sites of adequate bone volume, and density. In addition, it is expected that these results will fundamentally advance the field of implant dentistry and bioengineering by providing information on the principles of the bone density-mechanical environment-implant stability interaction.
This study is an evaluation of the implants placed in a regular dentist's practice regarding: - gingiva condition - stability of implant - prothetic quality - questionnaires for the patients