View clinical trials related to Periodontal Bone Loss.
Filter by:Periodontitis, a microbially-driven inflammatory disease has been shown to be the sixth most common disease of mankind. The 2009 UK Adult Dental Health Survey found that 54% of adults experience gum bleeding (gingivitis) with 45% of these suffering from periodontitis. Periodontitis begins at the gingival margins of teeth and over time, in susceptible individuals, the presence of a plaque biofilm can lead to the loss of the supporting connective tissue and alveolar bone associated with the teeth. This leads to the formation of a pathological periodontal pocket between the gingiva and tooth root, measurable by the use of a periodontal probe and recorded as the probing pocket depth (PPD). The associated loss of alveolar bone support is measurable radiographically and often leads to tooth mobility and if allowed to persist, can eventually lead to tooth loss. Periodontitis is classified into 4 stages (I-IV) based on disease severity and 3 grades (A-B-C) based on risk of disease progression. The treatment of periodontitis involves a non-specific reduction of the bacterial load below the gingival margin. This is achieved by effective oral hygiene procedures and non-surgical periodontal therapy (NSPT), both of which are aimed at the removal of calculus (tartar) deposits and the disruption of the plaque biofilm from the affected root surfaces. In some cases, this treatment may then be followed by more invasive treatments such as periodontal surgery and if successful, patients can then be followed and maintained with supportive periodontal maintenance therapy (SPT). It should be noted that certain periodontal lesions in some patients do not however always respond favourably to treatment.
The aim of this study is to evaluate the accuracy of pulp test in teeth presenting with deep periodontal pocket. The null hypothesis is no significant effect of periodontitis on the accuracy of pulp test.
Currently, the most positive documented outcomes of periodontal regenerative therapy (PRT) in intrabony defects (IBDs) have been achieved with a combination of bone grafts ( BGs) and a regeneration material like membranes in guided tissue regeneration ( GTR) or enamel matrix derivative (EMD) in Induced Periodontal Regeneration ( IPR) technique. Among the graft materials only autogenous bone grafts ( ABGs).and demineralized freeze-dried bone allografts (DFDBA), are considered regenerative materials. Polypeptide growth factors revealed a potential application in PRT periodontal because are the biological mediators during wound healing and regeneration and autologous platelet concentrates ( PC) constitute a safe and convenient approach to deliver them. Among PC, platelet-rich fibrin ( PRF) belongs to a group of second-generation blood autologous products prepared by peripheral blood centrifugation without any nonclotting agent, so to obtain a dense three-dimensional clot architecture that concentrates platelets, fibrin, leukocytes, cytokines, and sustain cellular migration. This clot is then compressed to obtain elastic and very strong membranes that can be used directly as membranes or as a filling agent, after chopping, alone or in combination with BGs. Several studies demonstrate that PRF is effective in promoting bone regeneration (BR) when used alone or in combination with BG during oral/ periodontal surgery. To date, there are very few published clinical controlled trials that compare the results of PRF + BGs to the outcomes of PRF / BG alone in the treatment of IBDs and no study about PRF + ABG in the same defects. Only one case report tested the use of PRF + ABG mixed with bovine hydroxyapatite in the treatment of insufficient alveolar ridge width in aesthetic area. The aim of the present study is to verify if the combined use of PRF + ABG in the management of IBDs may be a treatment modality clinically "not inferior" to that with EMD + ABG.
The purpose of the study is to gain experience of safety and efficacy with MD05 in man in alveolar bone regeneration.