View clinical trials related to Tooth Loss.
Filter by:The purpose of this study is to examine and compare the effects of autogenous dental pulp tissue on bone formation in the extraction sockets as compared to commonly used particulate bone graft. The effects on bone formation will be examined using a wide variety of assays.
Chronotherapy is an emerging field in biomedicine that leverages on fine-tuning the timing of drug delivery to obtain a therapeutic effect. Dr. Tamimi and his team have successfully harnessed chronotherapy using NSAIDs to enhance bone healing in a murine fracture model. Unpublished findings revealed that mice receiving carprofen for 3 days post-fracture exclusively during activity hours exhibited superior bone healing outcomes in comparison to specimens that received the same drug during resting hours. This is a 3-arm RCT aimed at evaluating the effect of different chronotherapeutic NSAID regimens on intraoral bone healing in humans using an extraction socket healing model in the context of an early implant placement protocol. The primary aim is to elucidate whether there are differences in osteogenesis and in the characteristics of the newly formed bone between patients following different post-operative NSAID chronotherapeutic protocols. Secondary endpoints of interest include assessment of alveolar bone and soft tissue dimensional changes between pre- and post-extraction, implant insertion torque, serum CRP levels, wound healing index and patient-reported discomfort at different time points. If proven beneficial, the proposed chronotherapeutic approach could be readily implemented in clinical practice as a standalone therapy or as a valuable complement to existing standard-of-care protocols, due to its simplicity, safety and cost-effectiveness.
The primary objective of this study is to determine if the use of a bone compaction process (osseodensification) (Densah™ bur: Versah Osseodensification Company™) to prepare dental implant sites, in human subjects, results in increased bone-ridge width, increased compact bone in the outer wall of the prepared sites, and dental implant stability.
Immunologically evaluation of myeloperoxidase level as indicator for inflammatory reactions on modified surface abutments compared to machined surface abutments.
Adhesive bridges are becoming popular in patients with congenitally missing teeth and these are type of bridges that can be done with only minimal or with no preparation to replace the missing tooth/teeth. The best clinical gain is the minimal tooth preparation or no need for the removal of tooth substance. Treatment for this type of bridges does not usually require anaesthesia. In addition, adhesive bridges can provide reasonable aesthetical outcome with minimal cost and reduced chair time. The biggest issue is that high failure rate in the long term, and gray colour shining through the metal wing cemented onto the abutment tooth. This can compromise the aesthetical outcome. The aesthetical problem can be solved by the use of zirconia all ceramic material to construct the bridge.
Following the loss of teeth, the alveolar bone formed in response to the eruption of the teeth is gradually resorbed by the body. In conventional dental implant therapy, a wide safety margin of uninterrupted healing (3-6 months) following placement of the implants is used to assure a predictable survival of the implants (on the order of > 90%). In the past few years, there have been multiple studies documenting with improved implant surface technologies available, that dental implants can be put into function far sooner than conventionally thought. The investigators are currently performing recalls on subjects treated in a research protocol at the University of Iowa (YAOSS-0001; IRB 200305001). Since this initial study, a shortened version of the implant device has been developed and has obtained FDA clearance (FDA 510k 063779 clearance letter dated April 27, 2007) for a 4mm diameter by 6mm in length dental implant. In a case study the investigators are proposing to repeat the same protocol as used in the initial trial with the following exceptions: only this one implant type will be used, no bone compression surgical techniques will be used (referred to as "osteotome" indirect sinus lifting). Our initial trial has documented good performance with minimal bone loss and a 98.3% cumulative survival rate. This will be an open, prospective case-series clinical documentation study to document the clinical efficacy of the 4.0mm diameter x 6 mm in length implant (Astra Tech Dental Implant, Fixture OsseospeedTM ) in the treatment of subjects missing teeth in the upper jaw. A minimum of two but preferably three implants shall be considered for each surgical site. A total of 20 subjects fulfilling all inclusion criteria will be enrolled. Subjects will have a complete diagnostic work-up performed and assessment for eligibility in the study by both a Prosthodontist and Surgeon. Subjects will then have the implants placed in an out patient basis at the College of Dentistry. The subjects will not wear a conventional removable partial during the initial six weeks of healing. At six weeks, an assessment of the implants shall be made by the surgical and restorative team and if a set of safety benchmarks are met, provisional crowns will be made to place the implants into clinical function (mastication). Over the first year, the provisional crowns will be periodically removed and a series of clinical measurements and mobility measurements made. At the end of 1 year following placement, the permanent crowns or bridgework will be constructed and the subject followed annually for another four years (five years total from placement). A total of 15 clinical visits are estimated per subject.