View clinical trials related to Gingival Diseases.
Filter by:The overall goal of this research is (1) to identify changes in gene expression and DNA methylation status in subjects who exhibit advanced chronic periodontal inflammation and (2) to identify microRNAs (miRNAs) and the interactive pathways associated with obesity as a modifier of periodontal infection pathogenesis.
We propose to examine a population of Native Americans who have had little or no dental care, and to determine if periodontal disease is associated with early signs of vascular dysfunction or systemic inflammation. We then propose to treat the periodontitis and re-evaluate vascular function. We will determine if gingivitis or mild/moderate periodontitis is associated with detectable vascular dysfunction. Microbial metagenomics will be correlated with vascular function.
The purpose of this study is to examine if the correct use of antibiotics, as well as the application of one-day-treatment, in the therapy of periodontal diseases. The population of treated patients (184) are divided in 4 groups; Group 1: Metronidazole + mechanical treatment in one day, Group 2: Placebo + mechanical treatment in one day Group 3: Metronidazole + mechanical treatment on day 1 and 21 Group 4: Placebo + mechanical treatment on day 1 and 21 End points, BOP, Plaque, PPD, CAL, RAL, Microbiology will be recorded on all sites at 3 months, 1 -, 3 -, and 5 years post-treatment
The primary aim of the current study was to determine the association between halitosis detection (presence or absence) and periodontal status in non-smoking subjects, and also assess whether halitosis recordings were related to periodontal clinical parameters, tongue coating and quantities of two putative periodontal pathogens on the posterior region of the tongue determined by real-time PCR. Secondary, halitosis recordings were compared among subjects with chronic periodontitis, chronic generalized gingivitis and periodontal health.
Currently the research issue in establishing the role of periodontal disease (PD) in coronary heart disease (CHD) risk is to define the pathways that lead to cause-effect relationship between PD and CHD. There is no consensus on definition of a periodontal disease case or the threshold level that may give clear indication for this relationship. Periodontal therapy has been used in different studies with the hope that a change in periodontal disease status may modify the factors associated with CHD risk. Many of these studies, on role of periodontal therapy in the reduction of CHD associated risk-factors, were based on small study samples, and very few studies were randomized controlled trials. So a need for large prospective studies is warranted in literature.----------- A single-blind parallel-arm randomized controlled clinical trial was designed to observe the influence of periodontal treatment on serum inflammatory mediators of hsC-reactive protein, white blood cells and fibrinogen in CHD patients. Hypothesis: Periodontal therapy in CHD patients, by reducing periodontal inflammation, may decrease the host systemic inflammatory burden associated with atherogenic processes.
Rheumatoid arthritis (RA) is an inflammatory form of arthritis that causes joint pain and damage. RA attacks the lining of the joints (synovium), causing swelling that can result in aching and throbbing, and eventually deformity. Even though there have been many advances in the treatment of RA, psoriatic arthritis (PsA), and other inflammatory arthritis, doctors still do not know what causes this inflammation in joints. It is likely that RA occurs as a result of a complex combination of factors, including a person's genes; lifestyle choices, such as smoking and diet; and things in a person's environment, including bacteria or viruses. This study investigates the hypothesis that bacteria living in a person's mouth and/or intestinal tract are responsible, at least in part, for the development of Rheumatoid Arthritis. The investigators believe that by killing those bacteria with antibiotics, they might be able to understand how the immune system works and, maybe, what causes RA.
The goal of this study is to determine the clinical importance of Periostin in oral health and disease. The long-term goal will be to develop practical applications for the diagnosis, treatment, prevention and cure of human periodontal diseases.
The goal of this project is to study the immune activity of certain proteins present in the blood of patients with severe periodontal disease. Periodontal disease (gum disease) is the major cause of tooth loss among adults. Moderate to severe periodontal disease is reported to affect 5-15% of American adults. It begins with an infection of the tissues surrounding the teeth, and leads to a worsening inflammatory response. This study will aid in clarifying the way in which gum disease might affect certain systemic diseases.
The investigators will study people who are obese and will be treated by bariatric surgery. The investigators will test the hypothesis that some of the features of obesity are related to the bacteria in the gastro-intestinal tract.
Type 2 diabetes mellitus (T2DM) has become a significant pandemic with more than 7% of the population in the United States affected. Moreover, up to one-third of these individuals may not be aware of the diagnosis and, are not involved in treatment. In the Mexican-American population, prevalence rates may be up to 50%. Contributing factors such as poor education, low household income, language barriers and restricted access to medical services may increase this prevalence. The association between periodontal disease and diabetes has been well documented; however, interventional studies have resulted in conflicting conclusions on improvements in glycemic control following periodontal therapy. Diabetes and periodontal disease share common pathways in pathogenesis, such as their polygenic nature and immunoregulatory dysfunction. To answer these questions, we, the investigators, propose this randomized controlled trial designed to elucidate how treatment of periodontal disease can be used for preventive and therapeutic purposes in a diabetic population as well as to study the role of IL-1 gene cluster polymorphisms as a risk factor for the presence of periodontitis in a Hispanic T2DM population. Our central hypothesis is that the Mexican-American T2DM population in Texas is at risk for an increased presence and severity of periodontal disease due to the presence of Il-1 gene cluster polymorphisms; furthermore we suggest that providing non-surgical periodontal therapy to this group will decrease the bacterial load associated with disease and as a consequence, will improve glycemic control as measured by HbA1c values. Our long-term goal is to study risk factors associated with the presence of periodontal disease and to understand how the treatment of periodontal disease can be used for preventive and therapeutic purposes in a Hispanic type 2 diabetic population.