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Fermented Foods: Definitions and Characteristics, Impact on the Gut Microbiota and Effects on Gastrointestinal Health and Disease.
Dimidi, E, Cox, SR, Rossi, M, Whelan, K
Nutrients. 2019;11(8)
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Fermented foods have grown in popularity due to their proposed health benefits but there is limited clinical evidence for the effectiveness of most fermented foods in gastrointestinal health. This review paper looks at non-dairy fermented foods which have been studied in at least one RCT: kefir, sauerkraut, natto, and sourdough bread. The health benefits are attributed to the high ratio of probiotic microorganisms, metabolites, or ability to convert compounds into active metabolites, as well as prebiotics and vitamins contained in these foods. Kimchi has the greatest evidence from epidemiological and case control studies investigating risk of gastric cancers. Different food composition of kimchi is shown to both increase and decrease risks, whilst it had no impact on H. pylori levels. There were no studies on kefir in functional bowel disorders however, it was shown to help lactose malabsorption and reduce H. pylori levels. A small RCT on Sauerkraut showed it reduced IBS severity in patients and increased in vitro activity of key liver and kidney detoxifying enzymes. There are small pockets of data that show that tempeh may influence gut microbiota in humans, and that natto may increase bifidobacterial and short-chain fatty acids in healthy volunteers. There are numerous limited cohort studies on miso and cancer risk but no studies on gastrointestinal conditions. Finally, sourdough was shown to reduce FODMAPS and be better tolerated in IBS patients, reducing bloating, nausea and discomfort. Overall, all the studies provide insufficient evidence on fermented foods and gastrointestinal health.
Abstract
Fermented foods are defined as foods or beverages produced through controlled microbial growth, and the conversion of food components through enzymatic action. In recent years, fermented foods have undergone a surge in popularity, mainly due to their proposed health benefits. The aim of this review is to define and characterise common fermented foods (kefir, kombucha, sauerkraut, tempeh, natto, miso, kimchi, sourdough bread), their mechanisms of action (including impact on the microbiota), and the evidence for effects on gastrointestinal health and disease in humans. Putative mechanisms for the impact of fermented foods on health include the potential probiotic effect of their constituent microorganisms, the fermentation-derived production of bioactive peptides, biogenic amines, and conversion of phenolic compounds to biologically active compounds, as well as the reduction of anti-nutrients. Fermented foods that have been tested in at least one randomised controlled trial (RCT) for their gastrointestinal effects were kefir, sauerkraut, natto, and sourdough bread. Despite extensive in vitro studies, there are no RCTs investigating the impact of kombucha, miso, kimchi or tempeh in gastrointestinal health. The most widely investigated fermented food is kefir, with evidence from at least one RCT suggesting beneficial effects in both lactose malabsorption and Helicobacter pylori eradication. In summary, there is very limited clinical evidence for the effectiveness of most fermented foods in gastrointestinal health and disease. Given the convincing in vitro findings, clinical high-quality trials investigating the health benefits of fermented foods are warranted.
2.
Bioactivity of soy-based fermented foods: A review.
Cao, ZH, Green-Johnson, JM, Buckley, ND, Lin, QY
Biotechnology advances. 2019;37(1):223-238
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Plain language summary
Fermented foods are growing in popularity in the West due to their unique flavour and nutritional value. This review investigates the fermentation processes, health-associated bioactive components and underlying mechanisms of the popular fermented soy products Natto, fermented soy milk, Tempeh and soy sauce. Each fermented soy product is summarised based on functional activities. The existing literature points to an overall positive effect on bone health and immune activities. Interestingly, each fermented soy food exhibits different profiles of bioactive components and therefore different mechanisms of action. Based on this review, the authors conclude there is a need for further in-depth human studies with large sample sizes and long-term follow up to better understand these foods benefits and potential toxicity.
Abstract
For centuries, fermented soy foods have been dietary staples in Asia and, now, in response to consumer demand, they are available throughout the world. Fermentation bestows unique flavors, boosts nutritional values and increases or adds new functional properties. In this review, we describe the functional properties and underlying action mechanisms of soy-based fermented foods such as Natto, fermented soy milk, Tempeh and soy sauce. When possible, the contribution of specific bioactive components is highlighted. While numerous studies with in vitro and animal models have hinted at the functionality of fermented soy foods, ascribing health benefits requires well-designed, often complex human studies with analysis of diet, lifestyle, family and medical history combined with long-term follow-ups for each subject. In addition, the contribution of the microbiome to the bioactivities of fermented soy foods, possibly mediated through direct action or bioactive metabolites, needs to be studied. Potential synergy or other interactions among the microorganisms carrying out the fermentation and the host's microbial community may also contribute to food functionality, but the details still require elucidation. Finally, safety evaluation of fermented soy foods has been limited, but is essential in order to provide guidelines for consumption and confirm lack of toxicity.
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Effects of Products Containing Bacillus subtilis var. natto on Healthy Subjects with Neck and Shoulder Stiffness, a Double-Blind, Placebo-Controlled, Randomized Crossover Study.
Sunagawa, Y, Okamura, N, Miyazaki, Y, Shimizu, K, Genpei, M, Funamoto, M, Shimizu, S, Katanasaka, Y, Morimoto, E, Yamakage, H, et al
Biological & pharmaceutical bulletin. 2018;41(4):504-509
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Neck and shoulder stiffness and pain are common complaints, and causative factors include muscle tension and reduced blood flow around the neck and shoulders. NKCP® is as a food supplement that contains bacillopeptidase F, a protease (enzyme) that is isolated and purified from the culture of the probiotic bacterium B. subtilis var. natto, which is used to ferment soy beans to natto, a traditional Japanese food. Various health benefits have been attributed to natto, and NKCP® has been shown to have blood thinning properties. This double-blind, placebo controlled crossover study aimed to evaluate the effects of NKCP® on healthy individuals with neck and shoulder stiffness and pain. Subjects received either NKCP® or placebo for 4 weeks, then had a 4 week washout period where they received neither test supplement, and then received the other test supplement for another 4 weeks. Shoulder and neck symptoms were assessed prior to starting the trial, and at 4, 8 and 12 weeks, through subjective reporting and a muscle hardness meter to measure muscle stiffness. Neck and shoulder stiffness and pain were improved after taking NKCP® but not significantly more than in the placebo group. Headaches improved significantly more in the NKCP® group compared to the placebo group. No significant changes were observed for lower back pain, cold hands and feet, eyestrain, and dry eye.
Abstract
Neck and shoulder stiffness is a typical subjective symptom in developed countries. This stiffness is caused by factors such as muscle tension and poor blood flow, leading to reduce work efficiency and diminish QOL. NKCP®, a natto-derived dietary food supplement whose main component is bacillopeptidase F, has antithrombotic, fibrinolytic, and blood viscosity-lowering effects. Here, we investigated the effect of NKCP® on neck and shoulder stiffness in a double-blind placebo-controlled randomized crossover study. Thirty subjects with neck and shoulder stiffness were randomly divided into 2 groups and ingested 250 mg of NKCP® or placebo daily for 4 weeks. Headache score significantly improved in the NKCP® group compared to the placebo group. Moreover, NKCP® significantly improved the score of visual analogue scale for neck and shoulder stiffness and pain, reduced muscle stiffness of the neck, and increased the skin surface temperature of neck and shoulders, compared to before ingestion. No adverse effects were observed during this study. These results suggest that NKCP® may alleviate headaches and chronic neck and shoulder stiffness and pain.