Acesulfame potassium

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Acesulfame potassium
Acesulfame potassium
Ball-and-stick model of acesulfame potassium
Names
IUPAC name
potassium 6-methyl-2,2-dioxo-2H-1,2λ6,3-oxathiazin-4-olate
Other names
Acesulfame K Ace K
Identifiers
55589-62-3 YesY
ChEMBL ChEMBL1351474 N
ChemSpider 55940 N
EC Number 259-715-3
Jmol 3D model Interactive image
PubChem 23683747
UNII 23OV73Q5G9 YesY
  • InChI=1S/C4H5NO4S.K/c1-3-2-4(6)5-10(7,8)9-3;/h2H,1H3,(H,5,6);/q;+1/p-1 N
    Key: WBZFUFAFFUEMEI-UHFFFAOYSA-M N
  • InChI=1/C4H5NO4S.K/c1-3-2-4(6)5-10(7,8)9-3;/h2H,1H3,(H,5,6);/q;+1/p-1
    Key: WBZFUFAFFUEMEI-REWHXWOFAT
  • [K+].C\C1=C\C(=O)[N-]S(=O)(=O)O1
Properties
C4H4KNO4S
Molar mass 201.242
Appearance white crystalline powder
Density 1.81 g/cm3
Melting point 225 °C (437 °F; 498 K)
270 g/L at 20 °C
Vapor pressure {{{value}}}
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
N verify (what is YesYN ?)
Infobox references

Acesulfame potassium (ace-SUHL-faym), also known as acesulfame K (K is the symbol for potassium) or Ace K, is a calorie-free sugar substitute (artificial sweetener), and marketed under the trade names Sunett and Sweet One. In the European Union, it is known under the E number (additive code) E950.[1] It was discovered accidentally in 1967 by German chemist Karl Clauss at Hoechst AG (now Nutrinova).[2] In chemical structure, acesulfame potassium is the potassium salt of 6-methyl-1,2,3-oxathiazine-4(3H)-one 2,2-dioxide. It is a white crystalline powder with molecular formula C4H4KNO4S and a molecular weight of 201.24 g/mol.[3]

Properties

Acesulfame K is 200 times sweeter than sucrose (common sugar), as sweet as aspartame, about 2/3 as sweet as saccharin, and 1/3 as sweet as sucralose. Like saccharin, it has a slightly bitter aftertaste, especially at high concentrations. Kraft Foods has patented the use of sodium ferulate to mask acesulfame's aftertaste.[4] Acesulfame K is often blended with other sweeteners (usually sucralose or aspartame). These blends are reputed[by whom?] to give a more sucrose-like taste whereby each sweetener masks the other's aftertaste, or exhibits a synergistic effect by which the blend is sweeter than its components. Acesulfame potassium has a smaller particle size than sucrose, allowing for its mixtures with other sweeteners to be more uniform.[5]

Unlike aspartame, acesulfame K is stable under heat, even under moderately acidic or basic conditions, allowing it to be used as a food additive in baking, or in products that require a long shelf life. Although acesulfame potassium has a stable shelf life, it can eventually degrade to acetoacetamide, which is toxic in high doses.[6] In carbonated drinks, it is almost always used in conjunction with another sweetener, such as aspartame or sucralose. It is also used as a sweetener in protein shakes and pharmaceutical products,[7] especially chewable and liquid medications, where it can make the active ingredients more palatable. The acceptable daily intake of acesulfame potassium is listed as 15 mg/kg/day.[8]

Discovery

Acesulfame potassium was developed after the accidental discovery of a similar compound (5,6-dimethyl-1,2,3-oxathiazin-4(3H)-one 2,2-dioxide) in 1967 by Karl Clauss and Harald Jensen at Hoechst AG.[9][10] After accidentally dipping his fingers into the chemicals with which he was working, Clauss licked them to pick up a piece of paper.[11] Clauss is the inventor listed on a United States patent issued in 1975 to the assignee Hoechst Aktiengesellschaft for one process of manufacturing acesulfame potassium.[12] Subsequent research showed a number of compounds with the same basic ring structure had varying levels of sweetness. 6-methyl-1,2,3-oxathiazine-4(3H)-one 2,2-dioxide had particularly favourable taste characteristics and was relatively easy to synthesize, so it was singled out for further research, and received its generic name (acesulfame-K) from the World Health Organization in 1978.[9] Acesulfame potassium first received approval for table top use is in the United States in 1988.[8]

Safety

As with other artificial sweeteners, concern exists over the safety of acesulfame potassium. However, the United States Food and Drug Administration (FDA) has approved its general use. Critics say acesulfame potassium has not been studied adequately and may be carcinogenic,[13] although these claims have been dismissed by the FDA[14] and equivalent authorities in the European Union.[15]

As for potential negative effects, when injected directly in very large doses (the equivalent of 10 g for an average sized human male), acesulfame K has been shown to stimulate dose-dependent insulin secretion in rats, though no hypoglycemia was observed.[16]

One rodent study showed no increased incidence of tumors in response to administration of acesulfame K.[17] In this study, conducted by the National Toxicology Program, 60 rats were given acesulfame K for 40 weeks, making up as much as 3% of their total diet (which would be equivalent to a human consuming 1,343 12 oz cans of artificially sweetened soft drinks every day). No sign indicated these (or lower) levels of acesulfame K increased the rats' risk of cancer or other neoplasms. However, a similar study conducted with p53 haploinsufficient mice showed signs of carcinogenicity in males but not females.[17] Further food safety research has been recommended.[13][18]

Research suggests acesulfame K may affect prenatal development. One study appeared to show acesulfame K is ingested by mice through their mothers' amniotic fluid or breast milk, and this influences the adult mouse's sweet preference.[19]

Additional research on the effects of acesulfame K on mice revealed chronic use over a period of 40 weeks resulted in a moderate but limited effect on neurometabolic function. These results suggest chronic usage of acesulfame K may alter neurological function.[20]

Environment Canada tested the water from the Grand River at 23 sites between its headwaters and where it dumps into Lake Erie. The results suggest the artificial sweetener acesulfame is the best at evading wastewater treatment, and it appears in far higher concentrations than saccharin or sucralose at the various test sites.[21]

Compendial status

References

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  4. United States Patent 5,336,513
  5. Mullarney, M.; Hancock, B.; Carlson, G.; Ladipo, D.; Langdon, B. The powder flow and compact mechanical properties of sucrose and three high-intensity sweeteners used in chewable tablets. Int. J. Pharm. 2003, 257, 227–236.
  6. Findikli, Z.; Zeynep, F.; Sifa, T. Determination of the effects of some artificial sweeteners on human peripheral lymphocytes using the comet assay. Journal of toxicology and environmental health sciences 2014, 6, 147–153.
  7. http://www.who.int/prequal/trainingresources/pq_pres/TrainingZA-April07/Excipients.ppt
  8. 8.0 8.1 Whitehouse, C.; Boullata, J.; McCauley, L. The potential toxicity of artificial sweeteners. AAOHN J. 2008, 56, 251-9 quiz 260.
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  12. Clauss, K. Process for the manufacture of 6-methyl-3,4-dihydro-1,2,3-oxathiazine-4-one-2,2-dioxide. US Patent 3917589, 1975.
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External links

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