ABSTRACT
Lactobacilli were considered the prime cariogenic microorganisms until phylogenetic related bacteria, mutans streptococci, were associated with caries. Today, lactobacilli are still considered a factor in determining the predisposition to develop cavities. As a first step in colonization, microorganisms adhere to oral tissues. Based on this fact, the purpose of our study was to determine if there was a statistical association or difference related to the state of oral health with the surface characteristics of lactobacilli. Patients were classified as caries-free and caries-active. Interviews were performed to establish the nutritional and oral hygiene habits. The previously reported characteristics of isolated lactobacilli's quantification and association to dental tissues were determined. Although the nutritional habits for caries-free and caries-active patients were similar, the patients' oral hygiene and dental care determined differences in risk indices. The number of lactobacilli was statistically lower in saliva of subjects with good oral health. Certain species of lactobacilli could not be associated to specific areas of the mouth, although some species could be localized. Lactobacilli from caries active (CA) subjects showed a greater ability to adhere to hydrophobic substances, had a greater salt agglutination property, and showed lower production of inhibitory substances. Lactobacilli from caries free (CF) subjects were better able to inhibit oral, potentially pathogenic, microorganisms. These studies prove that preliminary differences between oral lactobacilli in CF and CA patients exist. Non-specific and specific adhesion mechanisms in bacteria should be further demonstrated.
Subject(s)
Dental Caries/microbiology , Lactobacillus/physiology , Mouth/microbiology , Analysis of Variance , Antibiosis , Bacterial Adhesion , Case-Control Studies , Chi-Square Distribution , Colony Count, Microbial , Diet , Female , Hemagglutination , Humans , Hydrogen-Ion Concentration , Hydrophobic and Hydrophilic Interactions , Male , Oral Hygiene/statistics & numerical data , Saliva/microbiology , Statistics, NonparametricABSTRACT
Salivary components may suffer variations that can be detected by chemical determinations. The aim of this work was to determine physical and biochemical characteristics of the saliva of a group of diabetic children compared to those of a control group. Relation to oral health indices was also determined. Twenty diabetic children (3-15-years-old) and 21 control children (5-12-years-old) were included in this study. Total proteins, sugars and calcium were determined by colorimetric methods, and glucose, urea, alpha-amylase and acid phosphatase by enzymatic methods. Our results demonstrated that acidic pH, diminished salivary flow rate and excess foam are usually present in saliva of diabetic children. Total sugars, glucose, urea and total proteins were greater in diabetic patients than controls, while calcium values were decreased. These differences were confirmed by the discrimination test. Diabetic children have higher DMFT-dmft-deft and DMFS-dmfs-defs values compared to those of the control children despite their lower sugar intake. Some salivary components in addition to the diminished flow rate could be involved in the characterization of the oral health state of diabetic children
Subject(s)
Adolescent , Child , Child, Preschool , Female , Humans , Male , Diabetes Mellitus/metabolism , Saliva/chemistry , Analysis of Variance , Acid Phosphatase/analysis , Colorimetry , Calcium/analysis , Carbohydrates/analysis , Dental Plaque Index , DMF Index , Diabetes Mellitus/physiopathology , Glucose/analysis , Hydrogen-Ion Concentration , Linear Models , Periodontal Index , Saliva , Salivary Proteins and Peptides/analysis , Secretory Rate/physiology , Urea/analysis , alpha-Amylases/analysisABSTRACT
Salivary components may suffer variations that can be detected by chemical determinations. The aim of this work was to determine physical and biochemical characteristics of the saliva of a group of diabetic children compared to those of a control group. Relation to oral health indices was also determined. Twenty diabetic children (3-15-years-old) and 21 control children (5-12-years-old) were included in this study. Total proteins, sugars and calcium were determined by colorimetric methods, and glucose, urea, alpha-amylase and acid phosphatase by enzymatic methods. Our results demonstrated that acidic pH, diminished salivary flow rate and excess foam are usually present in saliva of diabetic children. Total sugars, glucose, urea and total proteins were greater in diabetic patients than controls, while calcium values were decreased. These differences were confirmed by the discrimination test. Diabetic children have higher DMFT-dmft-deft and DMFS-dmfs-defs values compared to those of the control children despite their lower sugar intake. Some salivary components in addition to the diminished flow rate could be involved in the characterization of the oral health state of diabetic children.