Probiotic-rich yogurt may protect against microbiome changes
Eating yogurt containing a strain of a well-studied probiotic appears to protect against harmful changes in the gut microbiome associated with antibiotic administration, according to a new randomized clinical trial.
The findings, published in the journal Nutrients, found yogurt containing the probiotic Bifidobacterium lactis BB-12 (from Chr. Hansen) worked better than a placebo at maintaining the community of bacteria in the colon. The findings were so positive that the NIH funded an additional follow-up study.
“This finding provides important new insights into the mechanisms by which the probiotic, BB-12, may protect against antibiotic-associated diarrhea,” said study co-leader Claire Fraser, Ph.D., professor of medicine and Dean’s Endowed Professor of UMSOM and director of the UMSOM Institute for Genome Sciences. “The new insights that we obtained regarding BB-12 reflect the multi-omics approach that we used in our study. This was possible only because of the different expertise that each of the principal investigators brought to this collaboration.”
For the study, 42 healthy volunteers were randomly assigned to consume a daily serving-size container of yogurt containing BB-12 along with a standard week-long regimen of the antibiotic amoxicillin clavulanate. They continued to consume the yogurt every day for a week after finishing the antibiotic. An additional 20 participants served as the control group and were randomly assigned to consume a daily yogurt without the probiotic for two weeks while also taking the same antibiotic regimen.
Researchers found levels of the short chain fatty acid acetate, a beneficial metabolite produced by the microbiota, were reduced in all subjects after taking the antibiotic; however, the reduction in acetate was significantly greater in subjects receiving the placebo yogurt as compared with BB-12 supplemented yogurt. Acetate levels in subjects who received BB-12 also returned to baseline levels by 30 days, while they remained below baseline in subjects receiving the placebo.
About 1 in 5 people who take antibiotics develop antibiotic-associated diarrhea due to the drugs disrupting the healthy gut microbiome. Patients may stop taking their medications early after developing diarrhea, which could cause their original infection to persist. A small percentage may develop a life-threatening infection with the bacteria C. difficile, which can reside in the gut but is usually kept in check by good bacteria in the microbiome.
“An important reason why our study may have demonstrated positive results may be the timing of the probiotic administration on the day antibiotics were initiated by the study volunteers,” said study co-leader Daniel Merenstein, M.D., professor of family medicine and director of research programs for the Department of Family Medicine at Georgetown University School of Medicine. “Starting the probiotic as early as possible, before the antibiotic symptoms have progressed, may result in a greater opportunity for the probiotic mechanisms to be expressed and may ultimately lead to more beneficial clinical outcomes.”
The clinical trial was led by researchers at the University of Maryland School of Maryland (UMSOM), the University of Maryland School of Pharmacy (UMSOP) and Georgetown University Medical Center.
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