The study of gut health and the microbiome is on the cutting edge of wellness, and people are returning to diets that include fermented, probiotic foods. Kombucha is massively popular today, as is kefir, sauerkraut, yogurt and other natural homemade foods, and our understanding of the benefits of probiotics continues to grow.
We are learning how mood may be heavily influenced by gut health, how poor gut health can contribute to depression, and even how the microbiome affects metabolism and obesity.
Furthermore, we are also learning just how vulnerable our natural colony of internal bacteria is to the foods and chemicals we ingest, with glyphosate having a profoundly destructive effect on healthy gut bacteria. And as we learn more, we are also realizing that destroying the body’s bacteria with antibiotics can have long-term negative effects on overall health.
Did you know, though, that probiotics can also have a detoxifying effect on the body, helping us to expel many of the toxins and chemicals we consume on a daily basis?
Sayer Ji of Green Med Info explains seven ways in which probiotics help to detoxify chemicals within the body.
- Bisphenol A: This ubiquitous toxicant — linked to over 40 diseases — found in anything from thermal printer receipts, paper money, canned food liners, dental composites, and of course plastics, is a powerful endocrine disrupter now found in everyone’s bodies. Remarkably, two common probiotic strains, Bifidobacterium breve and Lactobacillus casei, have been found in animal research to help the body detoxify it by reducing the intestinal absorption of bisphenol A through facilitating increased excretion.[i] The animals receiving probiotic treatment were found to have 2.4 times higher excretion of Bisphenol A in their feces, suggesting probiotic supplementation could be of significant benefit to humans as well.
- Pesticides: Probiotic strains from the traditional Korean fermented cabbage dish known as kimchi have been identified to degrade a variety of organophosphorous pesticides such as chlorpyrifos, coumaphos, diazinon, methylparathion, and parathion.[ii] These nifty organisms actually use these exceedingly hard to break down chemicals as sources of carbon and phosphorous – ‘food’! – and were found to break down the pesticide 83.3% after 3 days and degraded it completely by day 9.[iii] While this test tube study likely does not reflect exactly what happens in our gut when we ingest both chlorpyrifos and Kimchi, it is provocative, and may indicate there is some protective effects in the gut, and certainly cabbage tainted with organophosphorous pesticide which is subsequently fermented as an ingredient in Kimchi would certainly reduce the burden of this chemical in the diet.
- Heavy Metals: Lactobacillus bacteria found in food have been looked at as a potential adjunct agent for reducing metal toxicity in humans. According to one study, “This is because they have resistance mechanisms which are effective in preventing damage to their cells and they can bind and sequester heavy metals to their cell surfaces, thus removing them through subsequent defecation.” [iv] The study differentiates between detoxification and detoxication, the former of which is described as “the ability to remove drugs, mutagens, and other harmful agents from the body,” and the latter of which is the mechanism through which ‘good bacteria’ prevent “of damaging compounds into the body.” Because there is a large body of research on probiotics preventing and/or healing up intestinal permeability, this may be another way in which toxic stomach contents are preventing from doing harm to the body as a whole.
- Cancerous Food Preservatives: Another imchi study found it contained a strain of bacteria capable of breaking down sodium nitrate, a naturally and artificially occurring chemical (used from anything to rocket fuel and gunpowder) linked to a variety of chronic degenerative diseases, including cancer.[v] The study found a depletion of sodium nitrate by up to 90.0% after 5 days. Sodium nitrate becomes toxic when it is converted in food products, and even our intestines via microbiota, to N-nitrosodimethylamine. A recent study found that four lactobacillus strains where capable of breaking this toxic byproduct down by up to 50%.[vi]
- Perchlorate – perchlorate is an ingredient in jet fuel and fireworks that widely contaminates the environment and our food. Sadly, even organic food has been found concentrate high levels of this toxicant, making it exceedingly difficult to avoid exposure. It is now found in disturbing concentrations in breast milk and urine, and is a well-known endocrine disrupter capable of blocking the iodine receptor in the thyroid, resulting in hypothyroidism and concomitant neurological dysfunction. A recent study found that the beneficial bacterial strain known as Bifidobacterium Bifidum is capable of degrading perchlorate, and that breast fed infants appear to have lower levels than infant formula fed babies due to the breast milk bacteria’s ability to degrade perchlorate through the perchlorate reductase pathway.[vii]
- Heterocylic Amines: Heterocyclic aromatic amines (HCA) are compounds formed when meat is cooked at high temperatures of 150-300 degrees C, and are extremely mutagenic (damage the DNA). Lactobacillus strains have been identified that significantly reduce the genotoxicity of theses compounds.[viii]
- Toxic Foods: While not normally considered a ‘toxin,’ wheat contains a series of proteins that we do not have the genomic capability to produce enzymes to degrade. When these undigested proteins – and there are over 23,000 that have been identified in the wheat proteome – enter into the blood, they can wreak havoc on our health. Recent research has found that our body has dozens of strains of bacteria that are capable of breaking down glutinous proteins and therefore reduce its antigenicity and toxicity.
All of this further adds to the substantial case that probiotic foods and supplements are a critical part of human health and should not be ignored