Objective: The aim of the present study was to investigate the prevalence of periodontal diseases among individuals with type I and type II diabetes in north India and evaluate the association of this condition with behavioral and clinical variables. Materials and Methods: A cross-sectional study was carried out on a calculated sample of 300 individuals with diabetes. Periodontitis was defined as clinical attachment loss (CAL) >3 mm in two or more non-adjacent teeth or those that exhibited CAL >5 mm in 30.0% of teeth. All subjects were over 30 years of age and underwent a periodontal examination. Behavioral characteristics as well as medical history and dental history were obtained with a structured interview. Discrete (categorical) groups were compared by Chi-square (χ 2) test. A two-tailed (α=2) P<0.05 was considered statistically significant. GraphPad Prism (version 5.0) was used for the analysis. Results: A total of 6.7% exhibited a healthy periodontium; 68.0% exhibited gingivitis; and 25.3% exhibited periodontitis. The univariate analysis revealed that periodontitis was statistically more prevalent among men (P=0.001); among participants with type II diabetes (P=0.009); those with more than five years of diabetes (P=0.065); those with tobacco smoking habits (P<0.001); and those who had not visited the dentist in the previous year (P<0.001). Conclusion: Multiple determinants are associated with the prevalence of periodontitis among patients with diabetes.
Introduction:Turmeric commonly known as “Haldi” is a popular spice frequently used in Indian foods and curry. Turmeric holds a high place in Ayurvedic medicine as a “detoxifier of the body,” and today, science has documented several diseased conditions that can be healed by the active ingredients of turmeric. Curcumin is the most active constituent of turmeric curcuminoids obtained from the rhizome of Curcuma longa. Curcumin has been found to have antioxidant, anti-tumor, anti-inflammatory, antiviral, antibacterial, antifungal, analgesic, anti-allergic, antiseptic properties and thus has a potential against various diseases. Due to these properties it was felt that promotion of turmeric in dental practice may prove beneficial.Materials and Methods:The study was conducted in the Department of Periodontology, Faculty of Dental Sciences, King George's Medical University, Lucknow, India. A total of 40 subjects of both the sexes from age group 20-35 years. Simple random sampling was followed and the participants were assigned to two groups ‘A’ and ‘B’ of 20 participants each. Group A subjects were advised 0.2% chlorhexidine gluconate gel. Group B 30 subjects were advised experimental (turmeric) gel.Statistical Analysis:Data were summarized as mean ± SD. Pre and post outcome measures of two groups were compared by repeated measures analysis of variance (RM ANOVA) using general linear models (GLM) and the significance of mean difference within and between the groups was done by Bonferroni post hoc test after adjusting for multiple contrasts (comparisons).Conclusions:Based on the observations of our study, it can be concluded that chlorhexidine gluconate as well as turmeric gel can be effectively used as an adjunct to mechanical plaque control in prevention of plaque and gingivitis. chlorhexidine gluconate gel has been found to be more effective when antiplaque and anti-inflammatory properties were considered. The effect of turmeric observed may be because of its anti-inflammatory action. The antiplaque action of chlorhexidine gluconate is due to its substantivity. Substantivity of tutmeric is required to be further studied.
Prosthetic rehabilitation becomes increasingly important as the level of edentulism increases to improve dietary, anthropometric, and biochemical parameters.
Introduction:Nowadays, dental implants permit consideration of as one of the most reliable therapeutic modalities during the establishment of any prosthetic treatment plan. In numerous clinical situations, implants can clearly contribute to a notable simplification of therapy, frequently enabling removable prostheses to be avoided, keeping it less invasive with respect to remaining tooth structure. The aim of the present study was to clinically assess the peri-implant and periodontal conditions after the placement of crowns in partially edentulous patients.Materials and Methods:Twenty-five participants with 28 implant supported crowns were recruited in the study. After the insertion of suprastructure, meticulous scaling and root planing were performed on adjacent teeth which served as control. The clinical examination was carried out by a single examiner after placement of crowns at an interval of 1, 3, 6, 9, and 12 months and included the assessment of modified plaque index (mPlI), bleeding score, calculus score, probing pocket depth (PPD), and recession on the four aspects of each implant and adjacent teeth.Results:The mPlI, modified bleeding index (mBlI), calculus score, PPD, and recession decreased from 1 month to 12 months in both implants and in control teeth. The mean mPlI, mBlI, and calculus score were comparatively high in control teeth than implants. PPD was found to be more on implants than in control teeth. Recession was slightly higher in control teeth than implants throughout the study period, but it was not statistically significant.Conclusion:An implant patient must always be enrolled in a supportive therapy program that involves recall visits at regular intervals.
Background: The purpose of the present study was to envisage the anti-plaque and anti-inflammatory properties of neem (Azadirachta) in the form of a mouth gel. Materials and Methods: A total of 60 subjects (33 males and 27 females) from age group 19 -35 years, suffering from mild to moderate gingivitis were randomly divided into two groups. Group A (n = 30) participants were advised experimental (neem) gel and Group B (n = 30) participants were advised 0.2% chlorhexidine gel. All the clinical parameters (the gingival index by Loe and Silness [1], Plaque index by Silness and Loe [2] and sulcus bleeding index by Muhlemann H. R. and Sen S. [3]) were recorded at baseline, on the 14 th day and 21 st day by the same clinician in both groups. Results: on intragroup comparison the gingival index, plaque index and sulcus bleeding index decrease significantly in both the groups in all assessed periods. On intergroup comparison the indices did not differ significantly at baseline but after 2 nd and 3 rd week, the indices in Group B decrease more than the group A, which was statistically significant. Conclusion: Based on the observations of our study, it can be concluded that chlorhexidine gluconate as well as neem gel can be effectively used as an adjunct to mechanical plaque control in prevention of plaque and gingivitis. chlorhexidine gluconate gel has been found to be more effective when antiplaque and anti-inflammatory properties were considered. The effect of neem observed maybe because of its anti-inflammatory action. The antiplaque action of chlorhexidine gluconate is due to its substantivity. Substantivity of neem is required to be further studied.
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