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What are Prebiotics?

 

According to Wikipedia,

Prebiotics are non-digestible fiber compounds that pass undigested through the upper part of the gastrointestinal tract and stimulate the growth and/or activity of advantageous bacteria that colonize the large bowel by acting as substrate for them. They were first identified and named by Marcel Roberfroid in 1995. As a functional food component, prebiotics, like probiotics, are conceptually intermediate between foods and drugs. Depending on the jurisdiction, they yypically receive an intermediate level of regulatory scrutiny, in particular of the health claims made concerning them.

Roberfroid offered a refined definition in the March 2007 Journal of Nutrition stating:

A prebiotic is a selectively fermented ingredient that allows specific changes, both in the composition and/or activity in the gastrointestinal microflora that confers benefits upon host well-being and health.

Additionally, in his 2007 revisit of prebiotics, Roberfroid stated that only two particular prebiotics then fully met this definition: trans-galactooligosaccharide and inulin. Other authorities also classify fructooligosaccharide (FOS) and lactulose as prebiotics. Mannan Oligosaccharides (MOS) have been termed as prebiotics but would more correctly be termed immunosaccharides.

Researchers now also focus on the distinction between short-chain, long-chain, and full-spectrum prebiotics. “Short-chain” prebiotics, e.g. oligofructose, contain 2–8 links per saccharide molecule and are typically fermented more quickly in the right side of the colon providing nourishment to the bacteria in that area. Longer-chain
prebiotics, e.g. inulin, contain 9-64 links per saccharide molecule, and tend to be fermented more slowly, nourishing bacteria predominantly in the left-side colon. Full-spectrum prebiotics provide the full range of molecular link-lengths from 2-64 links per molecule, and nourish bacteria throughout the colon, e.g.
Oligofructose-Enriched Inulin (OEI). The majority of research done on prebiotics is based on full-spectrum prebiotics, typically using OEI as the research substance.

Function

The prebiotic definition does not emphasize a specific bacterial group. Generally, however, it is assumed that a prebiotic should increase the number and/or activity of bifidobacteria and lactic acid bacteria. The importance of the bifidobacteria and the lactic acid bacteria (LABs) is that these groups of bacteria may have several beneficial effects on the host, especially in terms of improving digestion (including enhancing mineral absorption) and the effectiveness and intrinsic strength of the immune system. A product that stimulates bifidobacteria is considered a bifidogenic factor. Some prebiotics may thus also act as a bifidogenic factor and vice versa, but the two concepts are not identical.

Sources

Acacia Gums (Gum Arabic) are considered the richest natural source. Other traditional dietary sources of prebiotics include beans, inulin sources (such as Jerusalem artichoke, jicama, and chicory root), raw oats, unrefined wheat, unrefined barley, and yacon. Some of the oligosaccharides that naturally occur in breast milk are believed to play an important role in the development of a healthy immune system in infants.

While there is no broad consensus on an ideal daily serving of prebiotics, recommendations typically range from 4 to 8 grams (0.14–0.28 oz) for general digestive health support, to 15 grams (0.53 oz) or more for those with active digestive disorders. Given an average 6 grams (0.21 oz) serving, below are the amounts of prebiotic foods required to achieve a daily serving of prebiotic fiber:

Those wishing to ensure sufficient prebiotic intake should carefully consider the prebiotic content of their diet, as well as what caloric/nutritive load comes along with it: e.g., eating 600 grams (1.3 lb) of bananas daily is likely to provide an excess of calories and sugars/carbohydrates to the diet. Prebiotic fiber supplements with minimal caloric/fat/sugar load are also available.

Prebiotic oligosaccharides are increasingly added to foods for their health benefits. Some oligosaccharides that are used in this manner are fructooligosaccharides (FOS), xylooligosaccharides (XOS), polydextrose, and galactooligosaccharides (GOS). Moreover disaccharids like lactulose or some monosaccharides such as tagatose are also used sometimes as prebiotics.

Also in petfood, mannooligosaccharides are being used for prebiotic purposes.

Genetically engineering plants for the production of inulins has also become more prevalent, despite the still limited insight into the immunological mechanisms activated by such food supplementation.

Effects

Preliminary research has demonstrated potential effects on calcium and other mineral absorption, immune system effectiveness, bowel pH, reduction of colorectal cancer risk, inflammatory bowel disorders (Crohn’s disease and ulcerative colitis) hypertension and intestinal regularity.[citation needed] Recent human trials have provided further evidence for the potential role of prebiotics in lowering risk of colon cancer. It has been argued[by whom?] that many of these
health effects emanate from increased production of short-chain fatty acids (SCFA) by the stimulated beneficial bacteria. Thus food supplements specifically enhancing the growth of SCFA producing intestinal bacteria (such as clostridia and bacteroides species) are widely recognized to have such potential.[citation needed]

While research does clearly demonstrate that prebiotics lead to increased production of these SCFA, more research is required to establish a direct causal connection. It has been argued[by whom?] that prebiotics are beneficial to Crohn’s disease through production of SCFAs to nourish the colon walls, and beneficial to ulcerative colitis through reduction of hydrogen sulfide gas due to reduction of sulfate-producing bacteria, which do not thrive in the slightly acidic environment SCFAs create.

The immediate addition of substantial quantities of prebiotics to the diet may result in an increase in gas, bloating or bowel movement. It has been argued that chronically low consumption of prebiotic-containing foods in the typical Western diet may exaggerate this effect.

Human colonic bacteria substrates are relatively stable. Production of SCFA and fermentation quality are reduced during long-term diets of low fiber intake. Until bacterial flora are gradually established to habilitate or restore intestinal tone, nutrient absorption will be impaired and colonic transit time temporarily increased with an immediate addition of higher prebiotic intake.

Source: http://en.m.wikipedia.org/wiki/prebiotics

Other references:

  1. Learn about Prebiotics: Protection for Your Child’s Digestive System, Nestle, http://www.nestle-family.com/nutrition-for-all/english/learn-about-prebiotics-protection-for-your-child-s-digestive-system_867238.aspx
  2. Frost & Sullivan: US Prebiotics Market to double in five years, by Elaine Wilson, 20 May 11
  3. Prebiotics vs Probiotics, BBC, http://www.bbc.co.uk/sn/humanbody/truthaboutfood/healthy/prebiotics.shtml
  4. Prebiotic Canada, www.prebiotic.ca
  5. Prebiotics vs Probiotics Difference – Which is Better? http://www.nutritional-supplements-health-guide.com/probiotics-vs-prebiotics.html
  6. Prebiotic Ingredients Market is Expected to reach USD 4.5 Billion Globally by 2018; Transparency Market Research – Wed. Febr. 6, 2013.