Research on postmenopausal women identifies associations between commonly eaten foods and the diversity and composition of oral bacteria
By the University at Buffalo
The foods we eat on a regular basis influence the makeup of the bacteria – both good and bad – in our mouths. And researchers are finding that this collective of bacteria known as the oral microbiome likely plays a large role in our overall health, in addition to its previously known associations with tooth decay and periodontal disease.
Scientists from the University at Buffalo have shown how eating certain types of foods impacts the oral microbiome of postmenopausal women. They found that higher intake of sugary and high glycemic load foods – like doughnuts and other baked goods, regular soft drinks, breads and nonfat yogurts – may influence poor oral health and, perhaps, systemic health outcomes in older women due to the influence these foods have on the oral microbiome.
In a study in Scientific Reports, an open access journal from the publishers of Nature, the UB-led team investigated whether carbohydrates and sucrose, or table sugar, were associated with the diversity and composition of oral bacteria in a sample of 1,204 postmenopausal women using data from the Women’s Health Initiative.
It is the first study to examine carbohydrate intake and the subgingival microbiome in a sample consisting exclusively of postmenopausal women. The study was unique in that the samples were taken from subgingival plaque, which occurs under the gums, rather than salivary bacteria.
“This is important because the oral bacteria involved in periodontal disease are primarily residing in the subgingival plaque,” said study first author Amy Millen, Ph.D., associate professor of epidemiology and environmental health in UB’s School of Public Health and Health Professions. “Looking at measures of salivary bacteria might not tell us how oral bacteria relate to periodontal disease, because we are not looking in the right environment within the mouth.”
The research team reported positive associations between total carbohydrates, glycemic load and sucrose and streptococcus mutans, a contributor to tooth decay and some types of cardiovascular disease, a finding that confirms previous observations. But they also observed associations between carbohydrates and the oral microbiome that are not as well established.
The researchers observed leptotrichia spp., which has been associated with gingivitis, a common gum disease, in some studies, to be positively associated with sugar intake. The other bacteria they identified as associated with carbohydrate intake or glycemic load have not been previously appreciated as contributing to periodontal disease in the literature or in this cohort of women, according to Millen.
“We examined these bacteria in relation to usual carbohydrate consumption in postmenopausal women across a wide variety of carbohydrate types: total carbohydrate intake, fiber intake, disaccharide intake, to simple sugar intake,” Millen said. “No other study had examined the oral bacteria in relation to such a broad array of carbohydrate types in one cohort. We also looked at associations with glycemic load, which is not well studied in relation to the oral microbiome.”
The key question now is what this all means for overall health, and that’s not as easily understood just yet.
“As more studies are conducted looking at the oral microbiome using similar sequencing techniques and progression or development of periodontal disease over time, we might begin to make better inferences about how diet relates to the oral microbiome and periodontal disease,” Millen said.
UB co-authors on the study include: Runda Dahhan, Jo L. Freudenheim, Kathleen M. Hovey, Michael J. LaMonte and Jean Wactawski-Wende, department of epidemiology and environmental health, School of Public Health and Health Professions; Lu Li and Keith L. Kirkwood, department of oral biology, School of Dental Medicine; Michael J. Buck, Vijaya Murugaiyan and Maria Tsompana, department of biochemistry, Jacobs School of Medicine and Biomedical Sciences; and Yijun Sun, department of microbiology and immunology, Jacobs School.