Gut Health
CAROLINE REES
6 MIN READ

Here Are 6 Things You Can Do To Improve Your Gut Bacteria

Here Are 6 Things You Can Do To Improve Your Gut Bacteria

Our gut microbes are established in our early years and appear to be remarkably resilient. However, the balance of bacteria can change – for good or ill. If your gut bugs are not benefiting your health, how can you change them for the better?

1. Feed them right

Eat whole, unprocessed, unrefined foods: cut out the sugar and refined carbs, reduce alcohol consumption, and increase the high-fibre vegetables. You’ll increase your bacterial diversity through ensuring a good variety in foods you eat. Our gut bacteria need the right foods to live on. They have adapted to use our cast-off foods, those that we cannot digest and absorb ourselves, which mainly means fibre! But not just any fibre, in particular our gut bacteria thrive on so-called soluble fibre which can be fermented.1,2 These kinds of fibres are found in particularly high amounts in leeks, onions, garlic, asparagus, chicory root, Jerusalem artichoke, legumes, radish, carrots, cucumber, peppers, beetroot, cabbage, sweet potato. Some fruits are also rich in prebiotic fibres, such as tomatoes, apples, berries, bananas. Finally, many seeds also contain fibres to feed the gut bacteria, such as chia seed, hemp seed, flax seed, pumpkin seeds, wild rice, quinoa and even cocoa beans.

Eating a wide range of these foods will be most beneficial as they each have slightly different types of fibre so to encourage the growth of a great diversity of gut bacteria, it’s important to eat a good variety of foods to support them. The greater the diversity in types of gut bacteria, the greater benefit to our health.1,2 You don’t have to eat 30 or more different kinds of plant foods every day, however! The variety in your food may be obtained by following seasonal variations in available foods. There is even some evidence that eating seasonally provides extra benefits because these foods will have been picked in the best possible condition.

On the other hand, if you feed them the wrong foods, you’ll encourage growth of the more unfriendly kinds of micro-organisms.3,4 Sugary foods and drinks, refined carbohydrates, alcohol, even artificial sweeteners can tip the balance towards the unwanted bugs.

Changes to what you eat and drink can have rapid effects: even within 24 hours. Drinking alcohol can encourage growth of the Candida fungus within 2 hours. However, in most cases these changes will be fairly transient. To create a long-lasting change could take 6 months.

Caution: if you suffer from IBS type symptoms and experience bloating, and pain on eating high-fibre foods, you’ll need to work on other aspects of gut health before increasing these fermentable foods.5

2. Probiotics

Add fermented foods to your diet. You don’t need to take probiotic supplements if you are eating a healthy diet (as in Step 1). Again, variety is a good idea so choosing, for example, sauerkraut one day, yogurt another.

What about probiotics – foods or supplements containing live bacteria? Can they change the population of your gut bugs? Yes, there is plenty of scientific research to show that probiotics can alter the microbiome.6-15 However, the way in which probiotics work may not be what you might think. When you take a probiotic food or food supplement, the bacteria it contains may not necessarily take up residence in your gut. While some will form a growing population, others they may live only temporarily, others may not survive to form a colony at all. Nonetheless, whether they survive in your gut or not, they can still have an impact on the balance of your gut microflora.You may have read articles claiming that probiotic foods and supplements are not useful because the micro-organisms do not survive in the gut, but studies have found that the presence of even dead bacteria can influence the microbiome by affecting how our body’s immune system responds. It is clear that consuming probiotics does affect the balance of the gut microflora regardless of whether or not the probiotic organisms survive long-term.The most widely studied probiotic bacteria are the lactobacilli (e.g., Lactobacillus acidophilus)16,20 and the bifidobacteria (e.g., Bifidobacterium brevis),18,21-24 and there is one probiotic yeast, Saccharomyces boulardii,16,31-35 which has also been very well researched.

You don’t need to take a probiotic supplement to gain advantage of probiotic bacteria: these organisms are commonly found in fermented foods.32 For example, fermented dairy contains lactobacilli and bifidobacteria; sauerkraut and kimich contain lactobacilli; kefir contains probiotic yeast species.

Caution: If you choose to take a probiotic supplement, change products regularly (e.g., from Lactobacillus to Bifidobacterium), and stop taking the probiotics once your symptoms have improved.

3. Exercise

Include daily exercise in your lifestyle but don’t overdo it! If you enjoy endurance exercise, be sure to take especial care of your gut health.You may be surprised to know that exercise can also influence the balance of your gut microbes.33,36 However, extreme endurance exercise can adversely affect gut health.37

4. Don't kill the good guys!

Antibiotics can have a positive and negative effect on your gut bacteria. Be mindful of this, and only take antibiotics under the direction of your doctor. Antibiotics can have a dramatic impact on your gut microbes.38-42 Whether you are taking antibiotics with the intention of altering your gut bugs or to clear a different infection, when you take these medicines, you will undoubtedly be making changes. How big a change and whether the end result is what you wanted will depend on a lot of factors, including the type, dose and duration of the antibiotics used, the balance of your microbiome before starting the course of antibiotics and the state of your immune system. A course of antibiotics will not kill all of your gut bacteria, but they may have a long-term effect on the balance – studies have found in some cases, the effects can be seen for 2 years or more after finishing the course.43,44 On the other hand, if you are taking antibiotics with the aim of killing unwanted gut bacteria, the treatment is likely not to kill all the target organisms, but simply reduce the load sufficiently that your immune system can (hopefully) deal with the remainder. The treatment may be more effective at killing some bacteria than others. Thus, a course of antibiotics may have unpredictable effects on your gut bugs.45,46

5. Other Medicines

Be cautious about taking medications unnecessarily. Make sure your doctor reviews your medications regularly and do not buy over-the-counter medicines without medical advice. A wide range of medicines apart from antibiotics can adversely affect the gut microbiome.47 In particular, types of antidepressants, diabetes medications, antacids, nonsteroidal anti-inflammatory drugs and antipsychotic medicines have been found to affect our gut microbes.

6. Oral Hygiene

Look after your oral microbiome. Avoid using toothpastes and mouthwashes that may kill off the helpful bacteria. Instead, prevent growth of unwanted bacteria by starving them of sugary foods and drinks which they thrive on. Remember that the gut starts in the mouth! The oral microbiome is equally as important as the microbes living further down.48,50 What you put in your mouth can affect the oral microbiome and beyond. Consider whether antibacterial mouthwash or toothpaste might upset the balance of your microbiome: there may be unexpected consequences to your health.51,52

A great alternative to mouthwash is “oil pulling”. Swoosh about a tablespoon of coconut or sesame oil around your mouth, ideally first thing in the morning for about 5 minutes if you can manage it. The oil penetrates into crevices that flossing doesn’t reach. Don’t swallow the oil! Spit it out into a tissue then flush down the toilet. You can brush your teeth afterwards with non-antibacterial toothpaste if you want.

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    References

    1. Holscher HD. Dietary fiber and prebiotics and the gastrointestinal microbiota. Gut Microbes. 2017;8(2):172. doi:10.1080/19490976.2017.1290756
    2. Conlon MA, Bird AR. The impact of diet and lifestyle on gut microbiota and human health. Nutrients. 2014;7(1):17-44. doi:10.3390/nu7010017
    3. David LA, Maurice CF, Carmody RN, et al. Diet rapidly and reproducibly alters the human gut microbiome. Nature. 2014;505(7484):559-563. doi:10.1038/nature12820
    4. Koropatkin NM, Cameron EA, Martens EC. How glycan metabolism shapes the human gut microbiota. Nat Rev Microbiol. 2012;10(5):323-335. doi:10.1038/nrmicro2746
    5. El-Salhy M, Ostgaard H, Gundersen D, Hatlebakk JG, Hausken T. The role of diet in the pathogenesis and management of irritable bowel syndrome (Review). Int J Mol Med. 2012;29(5):723-731. doi:10.3892/ijmm.2012.926
    6. Bienenstock J, Gibson G, Klaenhammer TR, Walker WA, Neish AS. New insights into probiotic mechanisms: a harvest from functional and metagenomic studies. Gut Microbes. 2013;4(2):94-100. doi:10.4161/gmic.23283
    7. Gossard CM, Pizano JM, Burns CM, et al. Probiotics and Disease: A Comprehensive Summary-Part 9, Cancer. Integr Med (Encinitas). 2018;17(2):34-46.
    8. Finley HJ, Gasta MG, Dolan KE, et al. Probiotics and Disease: A Comprehensive Summary-Part 8, Gastrointestinal and Genitourinary Disorders. Integr Med (Encinitas). 2018;17(1):38-48.
    9. Pizano JM, Williamson CB, Dolan KE, et al. Probiotics and Disease: A Comprehensive Summary-Part 7, Immune Disorders. Integr Med (Encinitas). 2017;16(5):46-57.
    10. Gasta MG, Gossard CM, Williamson CB, et al. Probiotics and Disease: A Comprehensive Summary-Part 5, Respiratory Conditions of the Ears, Nose, and Throat. Integr Med (Encinitas). 2017;16(3):28-40.
    11. Dolan KE, Pizano JM, Gossard CM, et al. Probiotics and Disease: A Comprehensive Summary–Part 6, Skin Health. Integr Med A Clin J. 2017.
    12. Parker EC, Gossard CM, Dolan KE, et al. Probiotics and Disease: A Comprehensive Summary-Part 2, Commercially Produced Cultured and Fermented Foods Commonly Available in the United States. Integr Med. 2016.
    13. Williamson CB, Burns CM, Gossard CM, et al. Probiotics and Disease: A Comprehensive Summary-Part 3, Cardiometabolic Disease and Fatigue Syndromes. Integr Med. 2017.
    14. Gasta MG, Williamson CB, Gossard CM, et al. Probiotics and Disease: A Comprehensive Summary-Part 4, Infectious Diseases. Integr Med (Encinitas). 2017.
    15. Dolan KE, Finley HJ, Burns CM, et al. Probiotics and Disease: A Comprehensive Summary-Part 1, Mental and Neurological Health. Integr Med (Encinitas). 2016;15(5):46-58.
    16. de Vrese M, Schrezenmeir J. Probiotics, Prebiotics, and Synbiotics. Adv Biochem Eng Biotechnol. 2008;111:1-66. doi:10.1007/10_2008_097
    17. Toribio-Mateas M. Harnessing the Power of Microbiome Assessment Tools as Part of Neuroprotective Nutrition and Lifestyle Medicine Interventions. Microorganisms. 2018;6(2). doi:10.3390/microorganisms6020035
    18. Bischoff SC. “Gut health”: a new objective in medicine? BMC Med. 2011;9(1):24. doi:10.1186/1741-7015-9-24
    19. Salem I, Ramser A, Isham N, Ghannoum MA. The Gut Microbiome as a Major Regulator of the Gut-Skin Axis. Front Microbiol. 2018;9:1459. doi:10.3389/fmicb.2018.01459
    20. Nettis E, Di Leo E, Pastore A, et al. Probiotics and refractory chronic spontaneous urticaria. Eur Ann Allergy Clin Immunol. 2016;48(5):182-187.
    21. Desbonnet L, Garrett L, Clarke G, Bienenstock J, Dinan TG. The probiotic Bifidobacteria infantis: An assessment of potential antidepressant properties in the rat. J Psychiatr Res. 2008;43(2):164-174. doi:10.1016/j.jpsychires.2008.03.009
    22. Krumbeck JA, Rasmussen HE, Hutkins RW, et al. Probiotic Bifidobacterium strains and galactooligosaccharides improve intestinal barrier function in obese adults but show no synergism when used together as synbiotics. Microbiome. 2018;6(1):121. doi:10.1186/s40168-018-0494-4
    23. Hsieh C-Y, Osaka T, Moriyama E, Date Y, Kikuchi J, Tsuneda S. Strengthening of the intestinal epithelial tight junction by Bifidobacterium bifidum. Physiol Rep. 2015;3(3). doi:10.14814/PHY2.12327
    24. Sarkar A, Mandal S. Bifidobacteria—Insight into clinical outcomes and mechanisms of its probiotic action. Microbiol Res. 2016;192:159-171. doi:10.1016/j.micres.2016.07.001
    25. Ribeiro MRS, Oliveira DR, Oliveira FMS, et al. Effect of probiotic Saccharomyces boulardii in experimental giardiasis. Benef Microbes. 2018;9(5):789-797. doi:10.3920/BM2017.0155
    26. Moré MI, Swidsinski A. Saccharomyces boulardii CNCM I-745 supports regeneration of the intestinal microbiota after diarrheic dysbiosis – a review. Clin Exp Gastroenterol. 2015;8:237. doi:10.2147/CEG.S85574
    27. Szajewska H, Kołodziej M. Systematic review with meta-analysis: Saccharomyces boulardii in the prevention of antibiotic-associated diarrhoea. Aliment Pharmacol Ther. 2015;42(7):793-801. doi:10.1111/apt.13344
    28. Stier H, Bischoff S. Influence of <em>Saccharomyces boulardii</em> CNCM I-745 on the gut-associated immune system. Clin Exp Gastroenterol. 2016;Volume 9:269-279. doi:10.2147/CEG.S111003
    29. Kelly CP, Chong Nguyen C, Palmieri LJ, et al. Saccharomyces boulardii CM I-745 Modulates the Fecal Bile Acids Metabolism During Antimicrobial Therapy in Healthy Volunteers. Front Microbiol. 2019;10:336. doi:10.3389/fmicb.2019.00336
    30. Terciolo C, Dapoigny M, Andre F. Beneficial effects of <em>Saccharomyces boulardii</em> CNCM I-745 on clinical disorders associated with intestinal barrier disruption. Clin Exp Gastroenterol. 2019;Volume 12:67-82. doi:10.2147/CEG.S181590
    31. Moré MI. Saccharomyces boulardii CNCM I-745 — die medizinische Hefe verbessert die Funktion intestinaler Enzyme. MMW – Fortschritte der Medizin. 2019;161(S4):20-24. doi:10.1007/s15006-019-0290-5
    32. Marco ML, Heeney D, Binda S, et al. Health benefits of fermented foods: microbiota and beyond. Curr Opin Biotechnol. 2017;44:94-102. doi:10.1016/j.copbio.2016.11.010
    33. ALLEN JM, MAILING LJ, NIEMIRO GM, et al. Exercise Alters Gut Microbiota Composition and Function in Lean and Obese Humans. Med Sci Sport Exerc. 2018;50(4):747-757. doi:10.1249/MSS.0000000000001495
    34. Codella R, Luzi L, Terruzzi I. Exercise has the guts: How physical activity may positively modulate gut microbiota in chronic and immune-based diseases. Dig Liver Dis. 2018;50(4):331-341. doi:10.1016/j.dld.2017.11.016
    35. O’Sullivan O, Cronin O, Clarke SF, et al. Exercise and the microbiota. Gut Microbes. 2015;6(2):131-136. doi:10.1080/19490976.2015.1011875
    36. Cook MD, Allen JM, Pence BD, et al. Exercise and gut immune function: evidence of alterations in colon immune cell homeostasis and microbiome characteristics with exercise training. Immunol Cell Biol. 2016;94(2):158-163. doi:10.1038/icb.2015.108
    37. Mach N, Fuster-Botella D. Endurance exercise and gut microbiota: A review. J Sport Heal Sci. 2017;6(2):179-197. doi:10.1016/J.JSHS.2016.05.001
    38. Langdon A, Crook N, Dantas G. The effects of antibiotics on the microbiome throughout development and alternative approaches for therapeutic modulation. Genome Med. 2016;8(1):39. doi:10.1186/s13073-016-0294-z
    39. Raymond F, Ouameur AA, Déraspe M, et al. The initial state of the human gut microbiome determines its reshaping by antibiotics. ISME J. 2016;10(3):707-720. doi:10.1038/ismej.2015.148
    40. Zaura E, Brandt BW, Teixeira de Mattos MJ, et al. Same Exposure but Two Radically Different Responses to Antibiotics: Resilience of the Salivary Microbiome versus Long-Term Microbial Shifts in Feces. van Belkum A, ed. MBio. 2015;6(6):e01693-15. doi:10.1128/mBio.01693-15
    41. Thiemann S, Smit N, Strowig T. Antibiotics and the Intestinal MicrobiomeIntestinal microbiome : Individual Responses, Resilience of the Ecosystem, and the Susceptibility to Infections. In: Current Topics in Microbiology and Immunology. Vol 398. ; 2016:123-146. doi:10.1007/82_2016_504
    42. Ferrer M, Méndez-García C, Rojo D, Barbas C, Moya A. Antibiotic use and microbiome function. Biochem Pharmacol. 2017;134:114-126. doi:10.1016/j.bcp.2016.09.007
    43. Shaw LP, Bassam H, Barnes CP, Walker AS, Klein N, Balloux F. Modelling microbiome recovery after antibiotics using a stability landscape framework. ISME J. March 2019. doi:10.1038/s41396-019-0392-1
    44. McDonald LC. Effects of short- and long-course antibiotics on the lower intestinal microbiome as they relate to traveller’s diarrhea. J Travel Med. 2017;24(suppl_1):S35-S38. doi:10.1093/jtm/taw084
    45. Kim S, Covington A, Pamer EG. The intestinal microbiota: Antibiotics, colonization resistance, and enteric pathogens. Immunol Rev. 2017;279(1):90-105. doi:10.1111/imr.12563
    46. Hildebrand F, Moitinho-Silva L, Blasche S, et al. Antibiotics-induced monodominance of a novel gut bacterial order. Gut. January 2019:gutjnl-2018-317715. doi:10.1136/gutjnl-2018-317715
    47. Maier L, Pruteanu M, Kuhn M, et al. Extensive impact of non-antibiotic drugs on human gut bacteria. Nature. 2018;555(7698):623-628. doi:10.1038/nature25979
    48. Takahashi N. Oral Microbiome Metabolism. J Dent Res. 2015;94(12):1628-1637. doi:10.1177/0022034515606045
    49. Nikitakis N, Papaioannou W, Sakkas L, Kousvelari E. The autoimmunity-oral microbiome connection. Oral Dis. 2017;23(7):828-839. doi:10.1111/odi.12589
    50. Krishnan K, Chen T, Paster B. A practical guide to the oral microbiome and its relation to health and disease. Oral Dis. 2017;23(3):276-286. doi:10.1111/odi.12509
    51. Joshipura KJ, Muñoz-Torres FJ, Morou-Bermudez E, Patel RP. Over-the-counter mouthwash use and risk of pre-diabetes/diabetes. Nitric Oxide. 2017;71:14-20. doi:10.1016/j.niox.2017.09.004
    52. Bondonno CP, Liu AH, Croft KD, et al. Antibacterial Mouthwash Blunts Oral Nitrate Reduction and Increases Blood Pressure in Treated Hypertensive Men and Women. Am J Hypertens. 2015;28(5):572-575. doi:10.1093/ajh/hpu192