Could this be the answer to bad breath?

Could fermented foods be the answer to bad breath?

A pooled data analysis published in BMJ Open suggests this might be the case.

Probiotic bacteria are typically found in fermented foods such as yoghurt, sauerkraut, miso soup, kefir, tempeh, kimchi, kombucha, pickles and sourdough bread, to name a few, and while it’s well-known that these foods help gut health, this latest analysis has found that probiotic bacteria may help to keep breath fresh.

What causes bad breath? 

Volatile sulphuric compounds are the main cause of persistent bad breath.

These compounds are produced by mouth bacteria as a result of bacterial mixing and food debris associated with poor gum and dental hygiene.

Options used to tackle the problem include mouthwash, chewing gums, teeth scaling and tongue scraping.

Emerging evidence suggests that probiotic bacteria might offer a simpler alternative.

Exploring an alternative 

To explore this further, and find out how long any such effects might last, the researchers trawled research databases for relevant randomised clinical trials published up to February 2021.

Out of an initial haul of 238 records, duplication and incomplete data reduced the number of eligible clinical trials for pooled data analysis to 7, involving a total of 278 people.

The number of participants in each study was small, ranging from 23 to 68, with an age range between 19 and 70. Monitoring periods spanned 2 to 12 weeks.

Bad breath severity was defined by levels of volatile sulphuric compounds detected in the mouth or the OLP score, which measures breath odour at various distances from the mouth.

Tongue coating scores (3 studies) and the plaque index (3 studies) were also included in the analysis because a dirty tongue and the build-up of tartar between the teeth are often regarded as major causes of bad breath.

The pooled data analysis showed that OLP scores fell significantly in those given probiotics compared with those in the comparison study arms, irrespective of the length of the monitoring period.

A similar result was observed for the levels of volatile sulphuric compounds detected, although these varied substantially in the individual studies, and the observed effects were relatively short-lived—up to 4 weeks, after which there was no noticeable difference.

But there were no significant differences in tongue coating score or plaque index between those given probiotics and those who weren’t.

Probiotics may inhibit the decomposition of amino acids and proteins by anaerobic bacteria in the mouth, so curbing the production of smelly by-products, the researchers explain.

More research required 

But they sound a note of caution in the interpretation of their findings.

The sample sizes of the included studies were small and some of the data were incomplete. These factors, on top of differences in detection methods, bacterial species, plus wide variations in the design and methodology of the clinical trials, all weaken the findings.

“This systematic review and meta-analysis indicates that probiotics (eg, Lactobacillus salivarius, Lactobacillus reuteri, Streptococcus salivarius and Weissella cibaria) may ease halitosis by reducing the [volatile sulphuric compound] concentration levels in the short term, but there is no significant effect on the major causes of halitosis, such as plaque and tongue coating,” say the researchers.

“More high-quality randomised clinical trials are required in the future to verify the results and to provide evidence for the efficacy of probiotics in the management of halitosis.”

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