View clinical trials related to Periodontitis.
Filter by:The objective of this randomized clinical study was to evaluate the effect of systemic administration of moxifloxacin compared to amoxicillin plus metronidazole combined with non-surgical treatment in patients with generalized aggressive periodontitis (GAgP) in 6-month follow-up. A total of 40 systemically healthy patients with GAgP will evaluate in this randomized clinical trial. Periodontal parameters (plaque index, gingival index, probing depth, bleeding on probing, clinical attachment level) will be recorded at baseline, 1st, 3rd and 6th month. Patients will receive either 400 mg moxifloxacin per os once daily or 500 mg metronidazole and 500 mg amoxicillin per os three times daily for 7 days consecutively.
The purpose of the study was to monitor the activity of periodontal disease and suggest potential biomarkers related to active periodontal disease in patients with chronic periodontitis (PD) associated or not with type 2 diabetes mellitus (DM), based on the evaluation of the profile of gene expression of periodontal sites and the evaluation of inflammatory salivary proteins. Two hundred and five periodontal patients were enrolled, but only 41 exhibited ≥ 1 mm attachment loss in at least three periodontal site (active sites) 2 months after non-surgical periodontal therapy. The final sample was: 21 patients with chronic periodontitis (PD group) and 20 with chronic periodontitis and diabetes (PD+DM group). Fifteen periodontal- and systemically healthy patients were included as control group. Saliva collection, glycated hemoglobin measurement, periodontal examination and radiographs were conducted before and 2 months after non-surgical periodontal therapy. Radiographic subtraction was performed from pairs of the radiographs. Measurements of the areas with density loss were recorded. Gingival biopsies of active and non-active sites with similar clinical parameters were harvested for Real Time Polymerase Chain Reaction Array gene expression analysis. Saliva samples were analyzed by Multiplex Cytokine Profiling Immunoassay for analysis of protein expression. The clinical attachment loss mean was higher in the PD+DM group (p<0.05). There was a high correlation between clinical attachment loss and darkened radiographic areas in active sites of the PD group and PD+DM group. When compared PD group to PD+DM, patients with diabetes had an up-regulated profile. Active sites of the PD group showed nine genes (specific chemokines, interleukins and receptors) differentially expressed with an up-regulated profile. Active sites of the PD+DM group showed six genes (specific chemokines, interleukins and receptors) differentially expressed with an up-regulated profile. After periodontal therapy, there was a reduction of some salivary proteins in both periodontal groups, but not significant. In conclusion, it was possible to identify genes differentially expressed in active sites from both groups, which may be considered useful in indicating potential biomarkers for the diagnosis of periodontitis; salivary proteins show a trend in distinguishing the standard of health and disease and may be used in the future as potential biomarkers of periodontitis with or without diabetes.
The present study aimed to evaluate the effects of enamel matrix derivatives either alone or combined with autogenous bone graft applied to intrabony defects in chronic periodontitis patients on clinical/radiographic parameters and gingival crevicular fluid transforming growth factor-β1 level and, to compare with open flap debridement. Our hypothesis is to test whether the use of autogenous bone graft and enamel matrix derivative combination in the treatment of intrabony periodontal defects enhance the clinical, radiographic and biochemical parameters in comparison to the use of open flap debridement alone.
Bacteremia represents the presence of live germs in the blood stream. Patients with gum disease show damaged tissues and seem to be more susceptible to bacteremia. In fact, daily activities such as mastication can induce bacteremia in these patients. Dental procedures related to bleeding also induce bacteremia. However, there are many questions that should be clarified. Among them, clinical strategies that are able to reduce the levels of germs in blood should be determined. This desirable effect could be particularly important for some patients, for example, for those at higher risk for endocarditis. Therefore, this study tested if 0.12% chlorhexidine solution used as a single mouth rinse before dental instrumentation could reduce the levels of bacteria in the blood. In addition, the occurrence and magnitude of bacteremia in patients with gum disease were investigated by two different laboratorial techniques. After receiving verbal and written explanations and after signed the informed consent form, 80 systemically healthy volunteers diagnosed with gum disease having dental plaque and tartar were randomly allocated in one the following groups: a) mouth-rinse use and dental instrumentation and b) dental instrumentation with no mouth rinse. In a preliminary visit volunteers underwent a complete periodontal examination which included clinical measurements (inflammatory and debris accumulation indicators), microbial (tongue and dental plaque samples collected with paper points), saliva (to determine volume and biological indicators) and gingival crevicular fluid sampling (to monitor gingival inflammation profile). In the next visit, dental instrumentation was performed under local anesthesia, after the mouth rinse single use in the most diseased periodontal teeth/quadrant. Blood samples were collected before any dental procedure, 2 and 6 minutes after dental instrumentation. Oral hygiene instructions and periodontal treatment were performed in additional visits according to individual needs. Finally, the relation between bacteremia and several indicators of periodontal status was investigated.
Periodontitis is a form of gum disease that affects many people in the world. Its traditional protocol of treatment includes oral hygiene instruction and dental scaling to remove debris, dental plaque and tartar in 4 weekly sections. There is an additional time-reduced option also usually cheaper. In this last one, all above described procedures are performed within 24 hours. However, up to now comparative effectiveness between these both types of treatment is not well understood. For, example it is not clear if patients treated in the shorter-time experienced more pain. Therefore, the present study used several parameters to clarify whether beneficial differences between these therapeutic protocols exist or not. In addition, aspects that could help clinicians' and patient's decisions such as experience of pain and anxiety related to dental treatment were also investigated. After receiving verbal and written explanations and signed the informed consent form 150 individuals (n=15/group) having the most common type of periodontitis in adults were randomly allocated to be treated in 4 weekly sections or within 24 hours. Oral hygiene instructions and dental debridement were performed alone or in conjunction with antimicrobial agents: a mouth rinse containing chlorhexidine or systemic azithromycin antibiotic tablets. The parameters measured at baseline, 3, 6 and 9 months after treatment were: indicators of inflammation, amount of oral debris and malodor; quantification of bacteria in plaque samples collected with paper points from teeth and tongue; amount of produced saliva and self-reported questionnaires to collect information about oral condition, daily activities, pain and anxiety related to dental treatment.
This study is the first evidence based work evaluated the systemic use of glucosamine as an adjunctive therapy to closed mechanical debridement in chronic periodontitis. The use of glucosamine sulphate was correlated with clinical outcomes and IL1-β level in the GCF of patients with moderate to advanced chronic periodontitis
Periodontitis, a bacterial dental biofilm based infectious disease, is a chronic inflammatory disease of the periodontium which results in irreversible destruction of supporting structures of the teeth such as periodontal ligaments, connective tissues, cementum and alveolar bone. More than 700 species of bacteria are estimated to be found in the sub-gingival dental biofilm in which periodontopathogens are found to be responsible in initiating periodontal disease. Chronic periodontitis, although termed as 'chronic', starts as an acute inflammation. Low levels of bacteremia and endotoxins provides a stimulus for the systemic inflammatory response. In periodontitis, the interaction of lipopolysaccharide (LPS) from gram-negative bacteria with host cells initiates the secretion of cytokines and the expression of cell adhesion molecules in gingival tissue which leads to loss of alveolar bone and connective tissues supporting the teeth. In the management of chronic periodontitis, non surgical periodontal therapy (NSPT) which includes oral hygiene instruction (OHI), scaling and root planing, is administered to improve clinical parameters as well as controlling the bacterial count responsible in initiating the disease and the resultant inflammatory response. Success of the treatment can be analyzed when the clinical parameters, counts of the microbes is reduced and inflammatory response is controlled. Studies which have evaluated the microbiological and immunological response following NSPT clearly demonstrates an improvement in clinical parameters, reduction in inflammatory mediators present as well as a decrease in microbial count. OHI which includes tooth brushing and inter-dental cleaning is found beneficial in removing microbial plaque, thus, preventing periodontal diseases such as gingivitis and periodontitis. Studies have evaluated the role of OHI on clinical and immunological parameters and microbiological profiles of periodontal maintenance subjects, while none of them evaluated its role alone in the management of chronic periodontitis subjects. Therefore, the purpose of the following investigation was to compare the changes in the clinical parameters, inflammatory mediators as well as level and frequency of detection of periodontopathogens that take place after 3-months of NSPT versus OHI and to evaluate if clinical parameters have an effect on these inflammatory mediators and microbiological changes.
The oral cavity is mostly influenced by general health. The oral microbiota which is as complex as the gastro-intestinal or vaginal microbiota are considered to be difficult therapeutic targets. The effects of probiotics in different fields of health care have resulted recently in the introduction of probiotics for oral healthcare. Probiotics have been clinically proved effective in different fields of oral healthcare such as halitosis, oral candidiasis and tooth decay. They have also been inducted in the field of periodontal healthcare because of the current views on the etiology of plaque- related periodontal inflammation.
It is common practice to carry out the therapy of periodontal diseases in two phases. In a first, non-surgical phase, bacterial deposits on tooth surfaces (plaque and calculus) are removed using a cleaning method called "scaling and root planing" (SRP). After three to six months the case is evaluated and, if necessary, further treatment is provided, usually taking a more aggressive, surgical approach. Beneficial effects of adjunctive systemic antibiotics on clinical outcomes have been shown repeatedly but specific indications for antibiotics in subgroups of diseased patients, and the optimal timing of antimicrobial therapy, continue to be issues of a long lasting controversy.This study assessed the differential outcomes of periodontal therapy supplemented with amoxicillin-metronidazole during either the non-surgical or the surgical treatment phase.
This is a split-mouth, double-blind randomized controlled trial. Computerized linear radiographic measurements were used to detect infrabony defects treated with open flap debridement (OFD) or OFD associated with enamel matrix derivative (EMD), after 24 months. Ten patients presenting 2 or more defects were selected (43 defects). An individualized film holder was used to take standardized radiographs at baseline and after 24 months. Images were digitized and used to measure the distances from the cemento-enamel junction (CEJ) to the alveolar crest (AC), CEJ to the bottom of the defect (BD) and infrabony defect angle.