View clinical trials related to Periodontal Diseases.
Filter by:The purpose of this study is to determine how aromatase inhibitors (AIs) such as Arimidex, Aromasin or Femara affect a woman's oral health and oral health related quality of life. Patients, dental professionals and medical oncologists will benefit from a greater understanding of the best oral care follow up practices of breast cancer survivors using aromatase inhibitors.
A retrospective case control study to validate the association between Interleukin-1 gene variations and adult chronic periodontal disease in Chinese (Taiwan).
Residual pockets and furcation defects are challenging sites that require additional periodontal therapy. The aim of this study is evaluate 1)the effect of a single photodynamic therapy (PDT) as monotherapy residual pockets in single rooted teeth and 2) the effect of PDT in association with scaling and root planing (SRP) in class II furcation lesions with probing pocket depth (PPD) >5mm and bleeding on probing (BoP). A blind randomized controlled clinical trial was conducted in subjects presenting at least three residual pockets in single root teeth and subjects with at least one molar presenting class II furcation defect. To evaluate the effect of a single PDT as monotherapy in residual pockets, the selected sites were assigned to receive: PDT alone, photosensitizer alone or SRP alone. To evaluate the effect of PDT in association with SRP in class II furcation lesions, the selected sites were assigned to PDT+SRP or SRP alone. Clinical, microbiological and immunoenzymatic analyses were assessed at baseline, 3 and 6 months post-therapies.
The purpose of this study is to investigate whether brushing the teeth of nursing home residents with a power toothbrush as compared with standard care typically provided in nursing homes, will increase caregiver compliance with the provision of daily oral care as well as lower oral and systemic inflammation.
The aim of the study is to determine the best method for measuring the extent and severity of the gum disease by comparing the repeatability of probing depths achieved by a manual probe when compared to an automated probe. Hypothesis The null hypothesis to be tested includes - The automated probe does not improve the reproducibility of periodontal probing when compared to manual probing recordings - The automated probe shows no advantage when comparing the reproducibility of - Moderate sites - Deep sites - Single vs. multirooted teeth - Different sextants - Different surfaces of teeth Buccal vs. palatal/lingual Mesial vs. mid vs. distal
Porphyromonas gingivalis is one of the major bacteria involved in the formation and progression of chronic periodontitis. Pathogens invading the gingiva face the host's innate immune system at first and later on the acquired immune system which includes secreted antibodies and specialized cells. Although both the arms of the immune system are coordinated to overcome the infection, there are several known mechanisms which help pathogens as Porphyromonas gingivalis evade immunity. As a result, inflammatory mediators secreted by immune cells cause tissue damage and lead the inflammation process towards chronicity instead of clearing the pathogen. Up till recently most of the studies focused on the role of macrophages, dendritic cells and lymphocytes at the response to periodontal pathogenic bacteria while the role of fibroblasts (the most abundant cell in the connective tissue) was less examined. Fibroblasts are spindle shaped cells which have the ability to produce extra cellular matrix and respond to growth factors and cytokines. They are able to affect cells in the infected tissue and contribute to immune response efficiency. As known in the case of lymphocytes, fibroblasts also vary in subtypes, each differs in phenotype, immune interactions, extra cellular matrix production and destruction, migration abilities and so on. Two main fibroblasts subtypes in the oral cavity originate in the gingival tissue and the periodontal ligament anchoring teeth to the surrounding alveolar bone. Amongst the differences between the two are collagen production ability and receptors profile over the cell surface. Considering all that, the investigators aim to obtain and use periodontal ligament and gingival tissues removed anyways during common dental procedures in order to extract the different fibroblasts subtypes residing there and compare their response to Porphyromonas gingivalis.
The objective of this study is to evaluate Photodynamic Therapy (PDT) as adjunct on non surgical periodontal therapy in patients with type 2 diabetes. A total of 40 individuals will be selected and divided in two groups. On the treatment stage, the control group (Group C) will receive standard non surgical periodontal treatment. The Test Group (Group T) will be treated with PDT as an adjunct to non surgical periodontal treatment. The treatment will be repeated 4 times in two weeks, followed by dental prophylaxis every 15 days until accomplish 3 months. The follow-up will be done for 6 months. The clinical parameters measured will be: plaque index, pocket depth, bleeding on probing, relative clinical insertion level and suppuration. In addition, the evaluation of crevicular fluid volume and the levels of IL-1, TNF-α, subgingival microbiota by the hybridization DNA-DNA Checkerboard technique. The investigators expect to find identical or better results for the test group.
To establish Oraqix is safe when used on adolescent volunteers.
This study is one component of a program to improve the maintenance of good dental health and the prevention of disease by use of risk stratification methods to efficiently guide increased preventive services to adult dental patients who are at increased risk for the major dental diseases, caries and adult periodontitis. The investigators will use a retrospective cohort model to analyze a large dental claims database to determine if the frequency of preventive services influenced the periodontal disease outcomes and to determine if periodontal risk assessment information can be used to stratify dental patients into "high risk" and "low risk" categories that influence the effect of preventive services on periodontitis outcomes. Primary Objective To evaluate whether dental patients who are classified as "low risk" for periodontal disease progression, based on history of periodontitis (claims history), smoking, diabetes, and IL-1 genetic variations, have different primary and secondary endpoints if they had two dental cleanings per year compared to one cleaning per year. Secondary Objectives To evaluate whether dental patients who are classified as "high risk" for periodontal disease progression, based on a history of periodontitis, smoking, diabetes, and IL-1 genetic variations, have different primary and secondary endpoints if they had two dental cleanings per year compared to one cleaning per year. To evaluate whether dental patients who have had one dental cleaning per year have different primary and secondary endpoints if they are classified as "low risk" for periodontal disease compared to patients who are classified as "high risk." To evaluate whether dental patients who have had two dental cleaning per year have different primary and secondary endpoints if they are classified as "low risk" for periodontal disease compared to patients who are classified as "high risk."
Background: - Gum disease is a condition in which the tissue around the tooth root becomes swollen and infected. This condition can cause tooth loss if it is not treated. Who gets gum disease and how bad it will be depends on (1) the different bacteria in the mouth and (2) how the immune system of an individual handles these bacteria. Researchers want to look at the oral bacteria and genetic immune problems of different people to learn how these affect gum disease and other conditions of the mouth. Objectives: - To study how immune system problems may lead to problems in the mouth, including gum disease. Eligibility: - Children and adults at least 7 years of age who have genetic problems with their immune system. - Healthy adults that have periodontal disease - Health adults that do not have periodontal disease Design: - This study will involve a screening visit and a study visit. - Participants will be screened with a medical history, blood work and a full oral and dental exam, including dental x-rays and photos. - The study visit will involve collection of blood, urine, and other samples, including saliva, plaque, and gum swabs. Any abnormal tissue will sampled for a biopsy. Additional oral and dental exams will be performed. Participants will also answer questions about any current medical or dental problems.