Erythritol: Difference between revisions
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==Erythritol and bacteria== |
==Erythritol and bacteria== |
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Erythritol has been certified as [[tooth-friendly]]<ref>Kawanabe, J., Hirasawa, M., Takeuchi, T., Oda, T., and Ideda, T. 1992. Noncariogenicity of erythritol as a substrate. Caries Research 26:358–362. {{Entrez Pubmed|1468100}} </ref>. The [[sugar alcohol]] cannot be [[metabolize]]d by oral [[bacteria]], and so does not contribute to [[Dental caries|tooth decay]]. Interestingly, erythritol exhibits some, but not all, of the tendencies to "starve" harmful bacteria like xylitol does. Unlike xylitol, erythritol is actually absorbed into the [[bloodstream]] after consumption but before [[excretion]]. However, it is not clear at present if the effect of starving harmful bacteria occurs systemically. |
Erythritol has been certified as [[tooth-friendly]]<ref>Kawanabe, J., Hirasawa, M., Takeuchi, T., Oda, T., and Ideda, T. 1992. Noncariogenicity of erythritol as a substrate. Caries Research 26:358–362. {{Entrez Pubmed|1468100}} </ref>. The [[sugar alcohol]] cannot be [[metabolize]]d by oral [[bacteria]], and so does not contribute to [[Dental caries|tooth decay]]. Interestingly, erythritol exhibits some, but not all, of the tendencies to "starve" harmful bacteria like xylitol does. Unlike xylitol, erythritol is actually absorbed into the [[bloodstream]] after consumption but before [[excretion]]. However, it is not clear at present if the effect of starving harmful bacteria occurs systemically. |
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==Erythritol & Muslims== |
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[[Islam]] forbids the handling, promotion, selling and consumption of [[alcoholic beverage]]s and other [[intoxicants]].<ref>{{cite web |url=http://www.isitharam.com/halal_info/prohibited/alcohol.jsp |title="Alcohol." IsItHaram.com}}</ref><ref>{{cite web |url=http://www.isitharam.com/halal_info/quran_hadith/alcohol_qh.jsp |title="Alcohol in Qur'an & Hadith." IsItHaram.com}}</ref> However, [[sugar alcohol]]s are chemically different from [[ethanol]], the type of alcohol found in all alcoholic beverages. Sugar alcohols do not intoxicate, and are permissible for Muslims to eat. |
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Food import regulations of GCC ([[Gulf Cooperation Council]]) countries like [[Saudi Arabia]]<ref>{{cite web |url=http://www.cargillhealthandnutrition.com/products_isomalt_legislation.html |title="Isomalt Legislation." Cargill Incorporated official website. 2008.}}</ref><ref>{{cite web |url=http://www.isitharam.com/halal_info/legal/saudi_regulations.pdf |title=USDA Gain Report #SA6008. "Saudi Arabia: Food and Agricultural Import Regulations and Standards Update 2006." [PDF]}}</ref> and [[Qatar]] permit the sugar alcohols [[isomalt]], [[mannitol]], [[sorbitol]] and [[maltitol]]. At the present time, there is no data on the permissibility of erythritol in GCC countries. GCC food import regulations are based in large part on [[Islamic dietary law]], formed in consult with the member countries' Ministries of Health and religious professionals. |
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==See also== |
==See also== |
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Revision as of 17:50, 29 July 2009
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| Names | |
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| IUPAC name
(2R,3S)-butane-1,2,3,4-tetraol
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| Identifiers | |
3D model (JSmol)
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| ECHA InfoCard | 100.005.217 |
| E number | E968 (glazing agents, ...) |
CompTox Dashboard (EPA)
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| Properties | |
| C4H10O4 | |
| Molar mass | 122.120 g·mol−1 |
| Density | 1.45 g/cm³ |
| Melting point | 121 °C (250 °F; 394 K) |
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
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Erythritol ((2R,3S)-butane-1,2,3,4-tetraol) is a natural sugar alcohol (a type of sugar substitute) which has been approved for use in the United States[1] and throughout much of the world. It occurs naturally in fruits and fermented foods [2]. At industrial level, it is produced from glucose by fermentation with a yeast, Moniliella pollinis[1]. It is 60–70% as sweet as table sugar yet it is almost non-caloric, does not affect blood sugar, does not cause tooth decay, and is absorbed by the body, therefore unlikely to cause gastric side effects unlike other sugar alcohols. Under U.S. Food and Drug Administration (FDA) labeling requirements, it has a caloric value of 0.2 calories per gram (95% less than sugar and other carbohydrates), though nutritional labelling varies from country to country—some countries like Japan label it as zero-calorie, while European Union regulations currently label it and all other sugar alcohols at 2.4 kcal/g.
Erythritol and human digestion
In the body, erythritol is absorbed into the bloodstream in the small intestine, and then for the most part excreted unchanged in the urine. Because erythritol is normally absorbed before it enters the large intestine, it does not normally cause laxative effects as are often experienced after over-consumption of other sugar alcohols (such as xylitol and maltitol) and most people will consume erythritol with no side effects. This is a unique characteristic, as other sugar alcohols are not absorbed directly by the body in this manner, and consequently are more prone to causing gastric distress [3].
As a whole, erythritol is generally free of side-effects in regular use, but if consumed in very extreme quantities (sometimes encouraged by its almost non-caloric nature), effectively consuming it faster than one's body can absorb it, a laxative effect may result. The laxative response does not begin until the body's natural absorption threshold is crossed, which is the point at which more erythritol has been ingested than is found in reasonable servings of food products and is usually a larger amount than most people will eat in a single sitting. Erythritol, when compared with other sugar alcohols, is also much more difficult for intestinal bacteria to digest, so it is unlikely to cause gas or bloating [4], unlike maltitol, sorbitol, or lactitol. Allergic side effects can be itching with hives.
Physical properties
Heat of solution
Erythritol has a strong cooling effect (positive heat of solution[5]) when it dissolves in water, often combined with the cooling effect of mint flavors, but proves distracting with more subtle flavors and textures. The cooling effect is only present when erythritol is not already dissolved in water, a situation that might be experienced in an erythritol-sweetened frosting, chocolate bar, chewing gum, or hard candy. When combined with solid fats, such as coconut oil, cocoa butter, or cow's butter, the cooling effect tends to accentuate the waxy characteristics of the fat in a generally undesirable manner. This is particularly pronounced in chocolate bars made with erythritol. The cooling effect of erythritol is very similar to that of xylitol and among the strongest cooling effects of all sugar alcohols. [6].
Blending for sugar-like properties
Beyond high intensity sweeteners, erythritol is often paired with other bulky ingredients that exhibit sugar-like characteristics to better mimic the texture and mouthfeel of sucrose. Often these other ingredients are responsible for the gastric side effects blamed on erythritol. The cooling effect of erythritol is rarely desired, hence other ingredients are chosen to dilute or negate that effect. Erythritol also has a propensity to crystallize and is not as soluble as sucrose, so ingredients may also be chosen to help negate this disadvantage. Furthermore, erythritol is non-hygroscopic, meaning it does not attract moisture, which can lead to products, particularly baked goods, drying out if another hygroscopic ingredient is not used in the formulation.
Very commonly, inulin is combined with erythritol, due to inulin offering a complementary negative heat of solution (warming effect when dissolved that helps cancel erythritol's cooling effect) and non-crystallizing properties. Unfortunately, inulin has a propensity to cause gas and bloating when consumed in moderate to large quantities, particularly in individuals unaccustomed to it. Other sugar alcohols are sometimes utilized with erythritol, particularly isomalt due to its minimally positive heat of solution, and glycerin which has a negative heat of solution, moderate hygroscopicity, and non-crystallizing liquid form.
Erythritol and bacteria
Erythritol has been certified as tooth-friendly[7]. The sugar alcohol cannot be metabolized by oral bacteria, and so does not contribute to tooth decay. Interestingly, erythritol exhibits some, but not all, of the tendencies to "starve" harmful bacteria like xylitol does. Unlike xylitol, erythritol is actually absorbed into the bloodstream after consumption but before excretion. However, it is not clear at present if the effect of starving harmful bacteria occurs systemically.
See also
- Threitol, the diastereomer of erythritol
References
- ^ a b FDA/CFSAN: Agency Response Letter: GRAS Notice No. GRN 000076
- ^ Shindou, T., Sasaki, Y., Miki, H., Eguchi, T., Hagiwara, K., and Ichikawa, T. 1988. Determination of erythritol in fermented foods by high performance liquid chromatography. Shokuhin Eiseigaku Zasshi 29(6):419-422.
- ^ Munro, I.C.; Berndt, W.O.; Borzelleca, J.F.; Flamm, G.; Lynch, B.S.; Kennepohl, E.; Bar, E.A.; Modderman, J. 1998. Erythritol: An interpretive summary of biochemical, metabolic, toxicological and clinical data. Food and Chemical Toxicology 36(12):1139–1174. Template:Entrez Pubmed
- ^ Arrigoni, E.; Brouns, F.; Amadò, R. 2005. Human gut microbiota does not ferment erythritol. British Journal of Nutrition 94(5):643–646. Template:Entrez Pubmed
- ^ Wohlfarth, Christian. CRC Handbook of Enthalpy Data of Polymer-Solvent Systems. CRC Press, 2006. Google Books result: ISBN 0849393612
- ^ Jasra,R.V.; Ahluwalia, J.C. 1982. Enthalpies of Solution, Partial Molal Heat Capacities and Apparent Molal Volumes of Sugars and Polyols in Water. Journal of Solution Chemistry, 11( 5): 325-338. Template:ISSN 1572-8927
- ^ Kawanabe, J., Hirasawa, M., Takeuchi, T., Oda, T., and Ideda, T. 1992. Noncariogenicity of erythritol as a substrate. Caries Research 26:358–362. Template:Entrez Pubmed