View clinical trials related to Periodontitis.
Filter by:The results of contemporary studies suggest an association between inflammatory periodontal disease and pregnancy and delivery complications. The aim of this study was to assess the association between periodontal disease, clinical periodontal parameters and pregnancy or delivery complications in type 1 diabetes mellitus and non-diabetic pregnant women.
Bruxism is a multifaceted phenomenon that has been associated with several factors mediated by the central nervous system3. Bruxism is an umbrella term grouping different motor phenomenon. 'Bruxism is a repetitive jaw-muscle activity characterized by clenching or grinding of the teeth and/or by bracing or thrusting of the mandible. Bruxism has two distinct circadian manifestations: it can occur during sleep (indicated as sleep bruxism) or during wakefulness (indicated as awake bruxism5. Sleep bruxism is considered to be a putative exacerbating factor, rather than a causative factor of periodontal disease and night-guards have been used as a counter measure. Since the periodontium in sleep bruxism patients suffers from excessive occlusal force for long periods of time during sleep, the function of the periodontium in such patients may differ from that in patients without sleep bruxism. Awake bruxism is defined as masticatory muscle activity during wakefulness that is characterized by repetitive or sustained tooth contact and by bracing or thrusting of the mandible.Given the potential impact of abnormal forces on the periodontium, understanding the relationship between bruxism and periodontal disease is crucial for the prevention and management of these conditions. This study aims to explore the mechanisms by which bruxism affects the periodontium and to assess the impact of bruxism in the outcome of subgingival instrumentation for the management of Stage 2 and Stage 3 periodontitis.
Periodontitis is a widely prevalent disease worldwide that has serious public health consequences. Its prognosis includes tooth loss and edentulism, a condition that negatively affects chewing causing functional disability; and esthetics causing social impairment. Consequently, periodontitis may end up causing marked impairment of the quality of life of the affected patients, impairment of general health and increasing the dental care costs significantly. Dysbiotic changes in the oral microbiome arise after some microbial species are enriched by primary products resulting from tissue breakdown due to gingivitis. It then triggers the host cells to produce proteinases that mediate loss of marginal periodontal ligaments, apical migration of the junctional epithelium and apical spread of bacterial biofilm. However, the dysbiotic changes may be more likely to occur in some patients rather than others due to certain risk factors including smoking and immuneinflammatory responses. Thus, the severity of periodontal disease in these patients would be higher. Tobacco smoking is no longer considered to be a habit, but a dependence to nicotine and a chronic relapsing medical disorder. Among its detrimental effects on general health, tobacco smoking increases the risk of periodontitis by 2 to 5 folds. This takes place by increasing the dysbiotic changes in the oral microbiome and so, increasing the severity and extent of the periodontal disease at a younger age. Therefore, smoking has been considered as a modifying factor of periodontitis that should be considered upon periodontitis case grading definition. Therefore, this research aims to identify the difference in dysbiosis between the three categories of periodontitis, trying to understand the cause of the resistance of each category to treatment compared to the milder category.
Periodontitis is a polymicrobial, inflammatory condition affecting tooth-supporting tissues. It is characterized by a progressive loss of epithelial attachment and resorption of alveolar bone, which can lead to tooth loss. Epithelial-mesenchymal transition (EMT) has been proposed as a reversible process that shifts the cell phenotype from epithelial to mesenchymal-like and may be involved in the process of periodontal inflammation either completely or partially. Long non-coding RNAs (lncRNAs) are a large class of regulatory transcripts longer than 200 nucleotides lacking evident protein-coding potential. Studies have shown that lncRNA dysregulation plays key roles in human diseases, including cancer, by modulating the epithelial-mesenchymal transition (EMT). The involvement of lncRNAs markers in the pathogenesis of periodontal disease induced EMT has not been studied thoroughly and have created a gap in the knowledge.
Ability to anticipate the outcomes of periodontal therapy at baseline visit is crucial to outline and customize a treatment plan with predictable outcomes and cost-effectiveness. Presence of diverse range of health/disease-associated molecules in oral environment that reflect health and disease, together with clinical parameters, is an appealing approach to use them as biomarkers to diagnose, predict, and monitor periodontal disease. Among these proteins are E-cad and TAC which available evidence indicate that their concentrations in oral biofluids increase remarkably during periodontitis as compared to healthy periodontium.
The goal of this study is to evaluate the capacity of allogeneic bone marrow mesenchymal stromal cells (MSC) to induce bone regeneration in patients with periodontal disease. MSC cultured are loaded on a collagen scaffold, included into autologous platelet rich plasma clot and implanted in the bone defect.
The purpose of this clinical study is to evaluate the safety and efficacy of treating periodontal disease with the STERIFY GEL medical device in combination with SRP procedure, in terms of periodontal pocket healing. Efficacy will be compared with the use of the nonsurgical SRP technique alone, which is considered a gold standard treatment for periodontitis, with the aim of observing improved results when using the STERIFY GEL device. The study is prospective, split-mouth.STERIFY GEL will be administered into the periodontal pockets of one or two segments of patients undergoing whole-mouth extended SRP, with the contralateral segments serving as controls (split-mouth), in a single session.
This clinical trial aims to evaluate the clinical, biochemical and microbiological efficacy of ozone treatment as an adjunct to nonsurgical periodontal treatment (NSPT) in periodontitis patients. The main question it aims to answer is: • Is the application of gaseous ozone, as an adjunct to NSPT, to periodontal pockets in patients with periodontitis alters the clinical periodontal parameters, gingival crevicular fluid levels of inflammatory cytokines, and periodontal pathogens compared to NSPT alone? The study will be performed according to a split-mouth design, the contralateral quadrants with similar periodontal status in each patient will be randomly allocated to one of the following two different treatment modalities. Participants will be applied NSPT consisting of supra and subgingival debridement. - NSPT will be applied alone in one quadrant - In addition to NSPT, ozone therapy procedures were performed using a device at contralateral sites. Researchers will compare the sites with and without ozone therapy in addition to NSPT to see if ozone therapy adjunct to the NSPT affects clinical, biochemical, and microbiological changes
Since 2018, the Chicago Classification of Periodontal Diseases and Conditions, has listed Down syndrome (DS)/trisomy 21 (T21) as a systemic disease with periodontal implications. Numerous studies report an increased prevalence and severity of periodontitis in DS/T21 individuals under the age of 35. Approximately 35% of adolescents with DS show early signs of alveolar bone loss. However, very few studies have examined the role of immune deficiency in DS/T21 patients in the pathogenesis of periodontitis. Indeed, periodontitis induced by bacterial plaque is virtually non-existent in the paediatric population, leaving the field to systemically-induced periodontitis. The investigators hypothesize that specific neutrophil phenotypes in DS/T21 patients are key to explaining the rapid progression to periodontitis. Investigator's primary objective is to characterize the different oral and blood neutrophil subtypes in DS/T21 children with gingival inflammation. Investigator's secondary objective is to assess the involvement of different neutrophil subtypes in early periodontitis in children with DS/T21.
This study is designed to evaluate the use of Emdogain® MI in a procedure where a significant portion of the lining of the sulcus is removed by curettage (similar to the traditional clinical procedure described as "gingival curettage") to the point of tissue mobility. This will be designated as a "non-incised minimally invasive flap access procedure". A videoscope will be utilized to assist with the requirement to adequately visualize and debride the root surface. This research project will define the approach used as a "non-incised minimally invasive flap access" approach and will be a modification of recognized minimally invasive techniques. This modification will be made by Dr. Harrel who first describe the minimally invasive periodontal approach and defined minimally invasive periodontal procedures in 1995.