Saccharine

Saccharin1
IUPAC name
1,1-Dioxo-1,2-benzothiazol-3-one
other names
Benzoic sulfimide
E954
Identifiers
CAS number 81-07-2 Yes check.svgY
PubChem 5143
SMILES
Properties
Molecular formula C7H5NO3S
Molar mass 183.18 g mol−1
Appearance White crystalline solid
Density 0.828 g/cm3
Melting point

228.8-229.7 °C
Solubility in water 1 g per 290 mL
 Yes check.svgY (what is this?)  (verify)
Except where noted otherwise, data are given for materials in their standard state (at 25 °C, 100 kPa)
Infobox references
Question book-new.svg
 This article needs additional citations for verification.
Please help improve this article by adding reliable references. Unsourced material may be challenged and removed. (July 2009)

Saccharin2 is an artificial sweetener. The basic substance, benzoic sulfimide, has effectively no food energy and is much sweeter than sucrose, but has an unpleasant bitter or metallic aftertaste, especially at high concentrations. In countries where saccharin is allowed as a food additive, it is used to sweeten products such as drinks, candies, medicines, and toothpaste.

Contents

  • 1 Properties
  • 2 History
  • 3 Chemistry
  • 4 Government regulation
  • 5 Cancer
  • 6 See also
  • 7 Notes and references
  • 8 External links

Properties

Saccharin is unstable when heated but it does not react chemically with other food ingredients. As such, it stores well. Blends of saccharin with other sweeteners are often used to compensate for each sweetener's weaknesses and faults. A 10:1 cyclamate:saccharin blend is common in countries where both these sweeteners are legal; in this blend, each sweetener masks the other's off-taste. Saccharin is often used together with aspartame in diet soda, so that some sweetness remains should the fountain syrup be stored beyond aspartame's relatively short shelf life. Saccharin is believed to be an important discovery, especially for diabetics, as it goes directly through the human digestive system without being digested. Although saccharin thus has no food energy, it can trigger the release of insulin in humans and rats, apparently as a result of its taste.3 45

In its acid form, saccharin is not water-soluble. The form used as an artificial sweetener is usually its sodium salt. The calcium salt is also sometimes used, especially by people restricting their dietary sodium intake. Both salts are highly water-soluble: 0.67 grams per milliliter water at room temperature.67

History

Saccharin was first produced in 1878 by Constantin Fahlberg, a chemist working on coal tar derivatives in Ira Remsen's laboratory at the Johns Hopkins University. It was Fahlberg who, accidentally, discovered its intensely sweet nature.citation needed Fahlberg and Remsen published articles on benzoic sulfinide in 1879 and 1880. In 1884, now working on his own in New York City, Fahlberg applied for patents in several countries describing methods of producing this substance that he named saccharin. Fahlberg would soon grow wealthy, while Remsen merely grew irate, believing that he deserved credit for substances produced in his laboratory. On the matter, Remsen commented, "Fahlberg is a scoundrel. It nauseates me to hear my name mentioned in the same breath with him."

Although saccharin was commercialized not long after its discovery, it was not until sugar shortages during World War I that its use became widespread. Its popularity further increased during the 1960s and 1970s among dieters, since saccharin is a calorie-free sweetener. In the United States saccharin is often found in restaurants in pink packets; the most popular brand is "Sweet'N Low".

Effective October 1, 1989, the Office of Environmental Health Hazard Assessment (OEHHA) of the California Environmental Protection Agency added saccharin to the list of chemicals known to the state to cause cancer, for the purposes of Proposition 65. It was delisted April 6, 2001.8

Chemistry

Saccharin has the chemical formula C7H5NO3S and it can be produced in various ways.9 The original route starts with toluene, but yields from this starting point are low. In 1950, an improved synthesis was developed at the Maumee Chemical Company of Toledo, Ohio. In this synthesis, anthranilic acid successively reacts with nitrous acid, sulfur dioxide, chlorine, and then ammonia to yield saccharin. Another route begins with o-chlorotoluene. It is also known as ortho sulfobenzoic acid.10

Saccharin is an acid with a pKa of about 2.1112

Saccharin can be used to prepare exclusively disubstituted amines from alkyl halides via a Gabriel synthesis.13

Government regulation

Starting in 1907, the USDA began investigating saccharin. Problems with saccharin and the USDA have not been resolved since then. The initial series of investigations begun by the USDA in 1907 was a direct result of the Pure Food and Drug Act. This act was passed in 1906 in the wake of a storm of health controversies concerning the meat-packing industry.

Harvey Wiley was one particularly well-known figure involved in the investigation of saccharin. Wiley, then the director of the bureau of chemistry for the USDA, had suspected saccharin to be damaging to human health. Wiley first battled saccharin in 1908. In a clash that epitomizes the controversial history of saccharin, Harvey told then President Theodore Roosevelt directly that "Everyone who ate that sweet corn was deceived. He thought he was eating sugar, when in point of fact he was eating a coal tar product totally devoid of food value and extremely injurious to health." In a heated exchange, Roosevelt angrily answered Harvey by stating "Anybody who says saccharin is injurious to health is an idiot."14 In 1911, the Food Inspection Decision 135 stated that foods containing saccharin were adulterated. However in 1912, Food Inspection Decision 142 stated that saccharin was not harmful. The government's stance on saccharin has continued to waver ever since. More controversy was stirred in 1969 with the discovery of files from the Food and Drug Administration's investigations of 1948 and 1949. These investigations, which had originally argued against saccharin use, were shown to prove little about saccharin being harmful to human health. In 1972 the USDA made an attempt to completely ban the substance.15 However, this attempt was unsuccessful and the sweetener remains widely available in the United States; it is the third-most popular after sucralose and aspartame. Cyclamate, however, was banned in the U.S. in 1969 and saccharin was banned in Canada in 1977, leading to different product formulations being marketed in these countries.

In the European Union saccharin is also known by the E number (additive code) E954.

Cancer

Question book-new.svg
 This section needs additional citations for verification.
Please help improve this article by adding reliable references. Unsourced material may be challenged and removed. (July 2007)
Saccharin warning on a diet soda can.
Sweet 'n Low packet with cancer warning printed on the back

Throughout the 1960s, various studies suggested that saccharin might be an animal carcinogen. Concern peaked in 1977, after the publication of a study indicating an increased rate of bladder cancer in rats fed large doses of saccharin. Alternatively, the large quantities fed to rats may not be directly translatable to human consumption,citation needed, and laborary rats may merely be unusually cancer prone.citation needed In that year, Canada banned saccharin while the United States Food and Drug Administration also proposed a ban. At the time, saccharin was the only artificial sweetener available in the U.S., and the proposed ban met with strong public opposition, especially among diabetics. Eventually, the U.S. Congress placed a moratorium on the ban, requiring instead that all saccharin-containing foods display a warning label indicating that saccharin may be a carcinogen.

Many studies have since been performed on saccharin, some showing a correlation between saccharin consumption and increased frequency of cancer in rats (especially bladder cancer) and others finding no such correlation. No study has ever shown a clear causal relationship between saccharin consumption and health risks in humans at normal doses, though some studies have shown a correlation between consumption and cancer incidence.16 It appears that there is insufficient data to test hypotheses about humans from certain animal studies that have been performed.17 According to saccharin.org, a group which represents the low-calorie and reduced-fat food and beverage industry, the products of those it represents containing saccharin are perfectly safe: "Concerns over saccharin's safety were first raised twenty years ago after a flawed study that administered huge quantities of the sweetener to laboratory rats produced bladder tumors in rats. New and better scientific research has decisively shown that the earlier rat studies are not at all applicable to humans." The U.S. National Institute of Environmental Health Sciences came to the same conclusion in 2000, recommending that saccharin be removed from the list of known or suspected human carcinogens.18 The mechanism appears to be due the way that rats metabolize sodium, and bladder cancer which cannot be replicated in other mammals has also been observed with rat consumption of other sodium salts such as sodium citrate and bicarbonate. Saccharin has, however, also been linked to thyroid cancer in mice.19

In 1991, after fourteen years, the FDA formally withdrew its 1977 proposal to ban the use of saccharin, and in 2000, the U.S. Congress repealed the law requiring saccharin products to carry health warning labels.

See also

  • Cyclamate
  • Sucralose (Splenda)
  • Aspartame (Equal, NutraSweet, and Canderel)
  • Neotame
  • Steviol glycoside

Notes and references

  • Paul M. Priebe and George B. Kauffman, “Making Government Policy under Conditions of Scientific Uncertainty: a Century of Controversy about Saccharin in Congress and the Laboratory,” Minerva, 18, 1980, 556-74.
  • Novel 1984, by George Orwell, Saccharin is referred to as "saccharine" in the book, however they are referring to the artificial sweetner.
  1. ^ Merck Index, 11th Edition, 8282.
  2. ^ The word saccharin (as above) has no final "e". The word saccharine, with a final "e", is much older and is an adjective meaning "sugary" – its connection with sugar means the term is used metaphorically, often in a derogative sense, to describe something "unpleasantly over-polite" or "overly sweet".[1] Both words are derived from the Greek word σάκχαρον (sakcharon, German "ch" sound), which ultimately derives from Sanskrit for sugar, sharkara (शर्करा), which literally means "gravel" [2]
  3. ^ Just T, Pau HW, Engel U, Hummel T (November 10, 2008). "Cephalic phase insulin release in healthy humans after taste stimulation?". Appetite 238 (4): 622–7. PMID 18556090. http://www.ncbi.nlm.nih.gov/pubmed/18556090. 
  4. ^ E Ionescu, F Rohner-Jeanrenaud, J Proietto, RW Rivest and B Jeanrenaud (1988). "Taste-induced changes in plasma insulin and glucose turnover in lean and genetically obese rats". Diabetes 37: 773–779. doi:10.2337/diabetes.37.6.773. PMID 3289998. 
  5. ^ H. R. Berthoud, E. R. Trimble, E. G. Siegel, D. A. Bereiter and B. Jeanrenaud (April 1, 1980). "Cephalic-phase insulin secretion in normal and pancreatic islet-transplanted rats". American Journal of Physiology-Endocrinology and Metabolism 238 (4): E336=E340. PMID 6769337. http://ajpendo.physiology.org/cgi/content/abstract/238/4/E336. 
  6. ^ Remsen, I. and Fahlberg, C., (1879). "Über die Oxydation des Orthotoluolsulfamids". Chemische Berichte 12: 469–473. http://gallica.bnf.fr/ark:/12148/bpt6k90688q/f519.chemindefer. 
  7. ^ P. M. Priebem, G. B. Kauffman (1980). "Making governmental policy under conditions of scientific uncertainty: A century of controversy about saccharin in congress and the laboratory". Minerva 18 (4): 556–574. doi:10.1007/BF01096124. 
  8. ^ http://oehha.ca.gov/prop65/prop65_list/files/P65single121809.pdf
  9. ^ David J. Ager, David P. Pantaleone, Scott A. Henderson, Alan R. Katritzky, Indra Prakash, D. Eric Walters (1998). "Commercial, Synthetic Nonnutritive Sweeteners". Angewandte Chemie International Edition 37 (13-24): 1802–1817. doi:10.1002/(SICI)1521-3773(19980803)37:13/14<1802::AID-ANIE1802>3.0.CO;2-9. http://cat.inist.fr/?aModele=afficheN&cpsidt=10528065. 
  10. ^ Bungard, 1967
  11. ^ WHO food additives series 17
  12. ^ pKa data compiled by R. Williams
  13. ^ Sugasawa, S.; Abe, K. J. Pharm. Soc. Jpn. 1952, 72, 270; Chem Abstr, 1953, 47, 1626c
  14. ^ Junod, Suzanne. Sugar: A Cautionary Tale. Update Magazine, USFDA, 7-8, 2003. http://www.fda.gov/oc/history/makinghistory/sugar.html
  15. ^ Preibe and Kauffman, 2,3,4,6,7
  16. ^ Weihrauch M. R., Diehl V. (2004). "Artificial sweeteners - do they bear a carcinogenic risk?". Annals of Oncology 15 (10): 1460–1465. doi:10.1093/annonc/mdh256. PMID 15367404. 
  17. ^ Saccharin and Its Salts, International Agency for Research on Cancer
  18. ^ (no byline) (2000-05-16). "U.S. Report Adds to List of Carcinogens". New York Times. http://query.nytimes.com/gst/fullpage.html?res=9801E4D6103BF935A25756C0A9669C8B63. Retrieved 2008-02-19. 
  19. ^ Chappel CI (June 1994). "Saccharin revisited". West. J. Med. 160 (6): 583–5. PMID 8053194. 
v  d  e
Consumer Food Safety
Adulterants/Food contaminants
Formaldehyde • Melamine • 3-MCPD • Cyanide • Lead poisoning • Mercury in fish • Sudan red dye • Aldicarb
Toxins/Poisons
Mycotoxins • Shellfish poisoning • Arsenic contamination of groundwater • Aflatoxin • Benzene in soft drinks • Bisphenol A
Microorganisms
Campylobacter jejuni • Escherichia coli O157:H7 • Salmonella • Listeria • Botulism • Clostridium perfringens • Hepatitis A • Hepatitis E • Rotavirus • Norovirus
Pesticides Overuse/Residues
Lindane • DDT, Malathion, Chlorpyrifos, Methamidophos
Preservatives
Benzoic acid • sodium benzoate • EDTA
Sweeteners
Cyclamate • Aspartame controversy • Saccharin • Sucralose • acesulfame potassium • high fructose corn syrup • sorbitol
Food Scares
ICA meat repackaging controversy • Bradford sweets poisoning • Minamata disease • Chilean grape scare • 2005 Indonesia food scare • 2008 Chinese milk scandal  • 2007 Vietnam food scare  • 2008 Canadian listeriosis outbreak • 2008 United States salmonellosis outbreak • 2006 North American E. coli outbreak • Irish pork crisis of 2008 • Toxic oil syndrome • List of foodborne illness outbreaks • List of food contamination incidents
Regulatory/Watchdog
International Food Safety Network • Food and Drug Administration • E number • Acceptable daily intake • Food Standards Agency • Quality Assurance International • Food Safety Act 1990 • Pure Food and Drug Act • European Food Safety Authority • List of food safety organisations • Food law • Early history of food regulation in the United States • Food labeling regulations
Food Processing
Polycyclic aromatic hydrocarbon • Food irradiation • Nitrosamines • Trans fat • Acrylamide • Shortening • Hydrolyzed vegetable protein • Modified starch • 4-Hydroxynonenal • Heterocyclic amines • Creutzfeldt–Jakob disease
Misc
Foodborne illness • Food Preservation • Food safety in the People's Republic of China  • Curing (food preservation) • Food quality • Food marketing • Genetically modified food • Food safety (science) • Food politics
v  d  e
E numbers - 950-969

Colours (E100–199) • Preservatives (E200–299) • Antioxidants & Acidity regulators (E300–399) • Thickeners, stabilisers & emulsifiers (E400–499) • pH regulators & anti-caking agents (E500–599) • Flavour enhancers (E600–699) • Antibiotics (E700–799) • Miscellaneous (E900–999) • Additional chemicals (E1100–1599)

Waxes (E900–909) • Synthetic glazes (E910–919) • Improving agents (E920–929) • Packaging gases (E930–949) • Sweeteners (E950–969) • Foaming agents (E990–999)

Acesulfame K (E950) • Aspartame (E951) • Cyclamate (E952) • Isomalt (E953) • Saccharin (E954) • Sucralose (E955) • Alitame (E956) • Thaumatin (E957) • Neohesperidin dihydrochalcone (E959) • Aspartame-acesulfame salt (E962) • Maltitol (E965) • Lactitol (E966) • Xylitol (E967)

External links

  • Rosalind Franklin: Saccharin
  • CSPI: Saccharin
  • NIH:Saccharin

Interested?

This nomenclature contains pharmaceutical base products, as well as heavy and fine chemicals which are currently supplied by us. In case of interest, please apply for our special offer stating quantity, quality and packing, thus ensuring speedy compliance with your requirements.
We also invite your enquiries relating to chemicals, pharmaceuticals and other items not mentioned in our product list.

Name*

E-Mail*

Subject

Phone

Message*

Attachment (max. 3.000 KBytes)

Security code*
captcha  » 

Send me a copy of above message

* required fields

This article is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article http://en.wikipedia.org/wiki/Saccharine. Additionally, in some cases elements from this article might be licensed under a different license. Please refer to the original article to check the license status http://en.wikipedia.org/wiki/Saccharine.