Basic information Description History Properties Safety and Health Effects Safety Supplier Related
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Saccharin

Basic information Description History Properties Safety and Health Effects Safety Supplier Related

Saccharin Basic information

Product Name:
Saccharin
Synonyms:
  • SACCHARIN
  • SACCHARIN 550X
  • SACCHARINE
  • SACCHARINE INSOLUBLE
  • SACCHARIN INSOLUBLE
  • SYNCAL (R) SDI
  • O-BENZOIC ACID SULFIMIDE
  • O-BENZOIC SULFIMIDE
CAS:
81-07-2
MF:
C7H5NO3S
MW:
183.18
EINECS:
201-321-0
Product Categories:
  • food additives
  • GARANTOSE
  • Aromatics
  • Heterocycles
  • Intermediates & Fine Chemicals
  • Sulfur
  • Pharmaceuticals
  • Sulfur & Selenium Compounds
Mol File:
81-07-2.mol
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Saccharin Chemical Properties

Melting point:
226-229 °C (lit.)
Boiling point:
subl
Density 
0.828
vapor pressure 
0Pa at 25℃
refractive index 
1.5500 (estimate)
storage temp. 
Store below +30°C.
solubility 
acetone: soluble1g in 12mL(lit.)
form 
Crystals or Crystalline Powder
pka
11.68(at 18℃)
color 
White
Odor
odorless
Water Solubility 
3.3 g/L (20 ºC)
Merck 
14,8311
BRN 
6888
Stability:
Stable. Incompatible with strong oxidizing agents.
InChIKey
CVHZOJJKTDOEJC-UHFFFAOYSA-N
LogP
-0.024 at 25℃
CAS DataBase Reference
81-07-2(CAS DataBase Reference)
NIST Chemistry Reference
Saccharin(81-07-2)
IARC
3 (Vol. Sup 7, 73) 1999
EPA Substance Registry System
Saccharin (81-07-2)
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Safety Information

Risk Statements 
40-62-63-68
Safety Statements 
24/25
RIDADR 
UN 3077 9/PG 3
WGK Germany 
2
RTECS 
DE4200000
TSCA 
Yes
HazardClass 
IRRITANT
HS Code 
29251100
Hazardous Substances Data
81-07-2(Hazardous Substances Data)
Toxicity
LD50 oral in mouse: 17gm/kg

MSDS

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Saccharin Usage And Synthesis

Description

Saccharin is an organic compound that is normally used as a non-nutritive sweetening agent. Also known as ortho-sulfobenzoic acid imide, saccharin occurs in the form of various salts, mainly calcium and sodium.

History

Saccharin was discovered in 1879 by chemists Constantin Fahlberg and Ira Remsen as they were researching about the oxidation of o-toluenesulfonamide. While eating, Fahlberg noticed the presence of sweetness in his food due to his arms and hands that contained saccharin. As he checked his laboratory apparatus by taste tests, Fahlberg found out that the source of this sweetness was from saccharin. Saccharin is still made of toluenesulfonamide and from phthalic anhydride.

Properties

Saccharin is stable when heated and does not chemically react with other food ingredients, therefore, it stores well. When blended with other sweeteners, saccharin often compensates for each sweetener’s faults and weakness. Commonly, saccharin is used with aspartate in diet carbonated soft drinks.
Saccharin is insoluble in water in its acid form. Its majorly used form as an artificial sweetener is its sodium salt.

Safety and Health Effects

The utilization of saccharin in human food has raised numerous health and safety concerns. In the 1970s, saccharin was linked with the development of bladder in rodents in various laboratory studies on rats. Consequently, the United States Food and Drug Administration (FDA) pushed for its ban, sighting that it is carcinogenic to humans.
However, after strong objection from the public regarding the ban, American Congress intervened and allowed the compound to remain in the food supply as long as all the manufactures libel it with a warning when packaging.
Saccharin gas been classified to have no nutritional or food energy value, as such, it safe for patients with diabetes.

Chemical Properties

white crystalline solid

Chemical Properties

Saccharin is a crystalline solid with a sweet taste (500 times sweeter than sugar).

Chemical Properties

Saccharin occurs as odorless white crystals or a white crystalline powder. It has an intensely sweet taste, with a metallic or bitter aftertaste that at normal levels of use can be detected by approximately 25% of the population. The aftertaste can be masked by blending saccharin with other sweeteners.

History

Saccharin is the oldest and one of the best-known artificial sweeteners. It was accidentally discovered in 1878 by Ira Remsen (1846 1927) and his postdoctoral research fellow Constantin Fahlberg (1850 1910) at Johns Hopkins University when he was working on toluene derivatives from coal tar. He traced the taste back to the oxidized sulfonated chemicals he was working with and determined it was a sulfonated amide benzoic acid compound. Remsen and Fahlberg jointly published their findings on the compound in 1879 and 1880 in American and German journals. During the next several years, Remsen continued his academic work as one of the world's leading chemists, and Fahlberg perfected methods for commercialization of saccharin. Fours year after they published their work, Fahlberg and his uncle, Adolf List, applied for a United States patent for the compound, which was granted in 1885 (U.S. patent number 319082).
Saccharin was first introduced to the public in 1885. It was initially promoted as an antiseptic and food preservative. The use of saccharin as a sweetener started around 1900 when it was marketed for use by people with diabetes. Because saccharin was a cheap sugar substitute, it was viewed as a threat to the sugar industry. Sugar manufacturers in Europe, Canada, and the United States lobbied for laws restricting saccharin’s use. Calls to regulate saccharin in foods have been present throughout its history. Early in the 20th century, the political climate promoted legislation and government oversight to ensure that food was safe. In 1906, the passage of the Federal Food and Drug Act gave government regulatory authority concerning the safety of food. The Department of Agriculture’s Bureau of Chemistry, the predecessor of the Food and Drug Administration (FDA), performed research and made recommendations with respect to food additives. In 1907, a study by the newly created Board of Food and Drug Inspection made claims (latter refuted) that saccharin damaged the kidneys and other organs. The leader of the Bureau of Chemistry, Harvey W. Wiley (1844–1930), was a member of the Board and held the view that saccharin (and other chemicals such as benzoates) was dangerous.
Approximately 30,000 tons per year of saccharin and saccharin salts are used globally each year, with about 5,000 tons of this used in the United States. Questions on saccharin’s safety has followed its usage to the present day. Saccharin is banned in Canada (except in special cases), several European countries, and many other countries. Countries where it is legal place restrictions on its use. Saccharin has been regulated in the United States since the beginning of the century. A Canadian study in 1977 that reported saccharin Legislation, signed into law on December 21, 2000, repealed the warning label requirement for products containing saccharin. The National Cancer Institute’s position is that there is no clear evidence linking saccharin to cancer in humans.

Uses

Saccharin is a non-nutritive synthetic sweetener which is 300–400 times sweeter than sucrose. it is nonhygroscopic and has a bitter aftertaste and a stability problem in cooked, canned, or baked goods. it is slightly soluble in water with a solubility of 10 g in 100 g of water at 25°c, but the solubility improves in boiling water. as sodium saccharin, there are two forms: 1,2-benzisothiazolin-3-one- 1,1-dioxide, sodium salt dihydrate, with a solubility of 1 g in 1.2 ml of water; and 1,2-benzisothiazolin-3-one-1,1-dioxide, sodium salt. calcium saccharin (chemical name: 1,2-benzisothiazolin-3-one-1, 1-dioxide, calcium salt) is used where low sodium content and reduced after-taste are required. it is used in low-calorie foods such as jam, beverages, and desserts. it is also termed sodium benzosulfimide.

Uses

It is a non-nutritive sweetener; pharmaceutic aid (flavor). Saccharin was formerly listed as reasonably anticipated to be a human carcinogen; delisted because the cancer data are not sufficient to meet the current criteria for this listing.

Uses

Usually used in high performance liquid chromatographic method for the simultaneous separation and determination of acesulfame potassium, saccharine and aspartame;and also used in sweet preference test of rats.

Definition

ChEBI: A 1,2-benzisothiazole having a keto-group at the 3-position and two oxo substituents at the 1-position. It is used as an artificial sweetening agent.

Preparation

Saccharin is synthesized using two methods: the Remsen-Fahlberg process and the Maumee or Sherwin-Williams method. The Remsen-Fahlberg synthesis of saccharin starts by reacting toluene with chlorosulfonic acid to give ortho and para forms of toluene-sulfonic acid (Figure 78.1). The acid can be converted to sulfonyl chlorides by treating with phosphorus pentachloride. The ortho form, o-toluene-sulfonyl chloride, is treated with ammonia to give o-toluene-sulfonamide, which is then oxidized with potassium permanganate to produce o-sulfamido-benzoic acid. On heating, the latter yields saccharin. Another synthesis was developed at Maumee Chemical Company in Toledo, Ohio, and it came to be known as the Maumee process. This process starts with phthalic anhydride, which is converted into anthranilic acid. Anthranilic acid is then reacted with nitrous acid, sulfur dioxide, chlorine, and ammonia to give saccharin. The Maumee process was further refi ned by the Sherwin-Williams Company and is therefore now referred to as the Sherwin-Williams process.

Definition

A white crystalline organic compound used as an artificial sweetener; it is about 550 times as sweet as sugar (sucrose). It is nearly insoluble in water and so generally used in the form of its sodium salt. Possible links with cancer in animals has restricted its use in some countries.

Definition

saccharin: A white crystalline solid,C7H5NO3S, m.p. 224°C. It is madefrom a compound of toluene, derivedfrom petroleum or coal tar. It is awell-known artificial sweetener,being some 500 times as sweet assugar (sucrose), and is usually marketedas its sodium salt. Because ofan association with cancer in laboratoryanimals, its use is restricted insome countries.

Production Methods

Saccharin is prepared from toluene by a series of reactions known as the Remsen–Fahlberg method. Toluene is first reacted with chlorosulfonic acid to form o-toluenesulfonyl chloride, which is reacted with ammonia to form the sulfonamide. The methyl group is then oxidized with dichromate, yielding o-sulfamoylbenzoic acid, which forms the cyclic imide saccharin when heated.
An alternative method involves a refined version of the Maumee process. Methyl anthranilate is initially diazotized to form 2- carbomethoxybenzenediazonium chloride; sulfonation followed by oxidation then yields 2-carbomethoxybenzenesulfonyl chloride. Amidation of this material, followed by acidification, forms insoluble acid saccharin.

brand name

Sweeta (Bristol-Myers Squibb).

General Description

White crystals. Odorless or faintly aromatic odor. Sweet taste.

Air & Water Reactions

Slightly soluble in water.

Reactivity Profile

An amide. Acid to litmus. pH of 0.35% aqueous solution: 2.0. Organic amides/imides react with azo and diazo compounds to generate toxic gases. Flammable gases are formed by the reaction of organic amides/imides with strong reducing agents. Amides are very weak bases (weaker than water). Imides are less basic yet and in fact react with strong bases to form salts. That is, they can react as acids. Mixing amides with dehydrating agents such as P2O5 or SOCl2 generates the corresponding nitrile. The combustion of these compounds generates mixed oxides of nitrogen (NOx).

Hazard

A questionable carcinogen. Products con- taining it must have a warning label.

Fire Hazard

Flash point data for Saccharin are not available; however, Saccharin is probably combustible.

Flammability and Explosibility

Non flammable

Pharmaceutical Applications

Saccharin is an intense sweetening agent used in beverages, food products, table-top sweeteners, and oral hygiene products such as toothpastes and mouthwashes. In oral pharmaceutical formulations, it is used at a concentration of 0.02–0.5% w/w. It has been used in chewable tablet formulations as a sweetening agent.
Saccharin has been used to form various pharmaceutical cocrystals. Saccharin can be used to mask some unpleasant taste characteristics or to enhance flavor systems. Its sweetening power is approximately 300–600 times that of sucrose.

Biochem/physiol Actions

A sweet tastant for mammals. A glycerol taste receptor binding site specific for glucose has been proposed in drosophila.

Safety Profile

Confirmed carcinogen withexperimental neoplastigenic and tumorigenic data. Mildacute toxicity by ingestion. Experimental teratogenic andreproductive effects. Mutation data reported. Whenheated to decomposition it emits toxic NOx and SOx.

Safety

There has been considerable controversy concerning the safety of saccharin, which has led to extensive studies since the mid-1970s. Two-generation studies in rats exposed to diets containing 5.0–7.5% total saccharin (equivalent to 175 g daily in humans) suggested that the incidence of bladder tumors was significantly greater in saccharin-treated males of the second generation than in controls. Further experiments in rats suggested that a contaminant of commercial saccharin, o-toluene sulfonamide, might also account for carcinogenic effects. In view of these studies, a ban on the use of saccharin was proposed in several countries. However, in 1977 a ban by the FDA led to a Congressional moratorium that permitted the continued use of saccharin in the USA.
From the available data it now appears that the development of tumors is a sex-, species-, and organ-specific phenomenon, and extensive epidemiological studies have shown that saccharin intake is not related to bladder cancer in humans.
The WHO has set a temporary acceptable daily intake for saccharin, including its calcium, potassium, and sodium salts, at up to 2.5 mg/kg body-weight. In the UK, the Committee on Toxicity of Chemicals in Food, Consumer Products, and the Environment (COT) has set an acceptable daily intake for saccharin and its calcium, potassium, and sodium salts (expressed as saccharin sodium) at up to 5 mg/kg body-weight.
Adverse reactions to saccharin, although relatively few in relation to its widespread use, include: urticaria with pruritus following ingestion of saccharin-sweetened beverages and photosensitization reactions.
LD50 (mouse, oral): 17.5 g/kg
LD50 (rat, IP): 7.10 g/kg
LD50 (rat, oral): 14.2 g/kg

Potential Exposure

The information provided has to do, primarily, with the manufacturing of saccharin. Saccharin has been used as a nonnutritive sweetening agent. At one point the United States consumption pattern for all forms of saccharin has been estimated as 45% in soft drinks; 18% in tabletop sweeteners; 14% in fruits, juices, sweets, chew- ing gum, and jellies; 10% in cosmetics and oral hygiene products; 7% in drugs, such as coating on pills; 2% in tobacco; 2% in electroplating; and 2% for miscellaneous uses. Human exposure to saccharin occurs primarily through ingestion because of its use in many dietic foods and drinks and some personal hygiene products, including toothpastes and mouthwashes. The general public is exposed to saccharin, especially by persons required to reduce sugar intake.

storage

Saccharin is stable under the normal range of conditions employed in formulations. In the bulk form it shows no detectable decomposition and only when it is exposed to a high temperature (125°C) at a low pH (pH 2) for over 1 hour does significant decomposition occur. The decomposition product formed is (ammonium-o-sulfo)benzoic acid, which is not sweet. The aqueous stability of saccharin is excellent.
Saccharin should be stored in a well-closed container in a dry place.

Shipping

UN3077 Environmentally hazardous substances, solid, n.o.s., Hazard class: 9; Labels: 9-Miscellaneous haz- ardous material, Technical Name Required.

Purification Methods

Purify saccharin by recrystallisation from Me2CO [solubility 7.14% at 0o, 14.4% at 50o], or aqueous isoPrOH to give a fluorescent solution. It sublimes in vacuo. It is an artificial sweetner and is 500 times sweeter than sucrose. [DeGarmo et al. J Am Pharm Assoc (Sci Ed) 41 17 1952, Beilstein 27 H 168, 870, 27 I 266, 27 II 214, 27 III/IV 2649.]

Incompatibilities

Saccharin can react with large molecules, resulting in a precipitate being formed. It does not undergo Maillard browning.

Incompatibilities

Dust may form explosive mixture with air. Incompatible with strong oxidizers (chlorates, nitrates, peroxides, permanganates, perchlorates, chlorine, bromine, fluorine, etc.); contact may cause fires or explosions. Keep away from alkaline materials, strong bases, strong acids, oxoacids, and epoxides.

Waste Disposal

Consult with environmental regulatory agencies for guidance on acceptable disposal practices. Generators of waste containing this contami- nant (≥100 kg/mo) must conform to EPA regulations governing storage, transportation, treatment, and waste disposal.

Regulatory Status

Accepted for use as a food additive in Europe. Note that the EU number ‘E954’ is applied to both saccharin and saccharin salts. Included in the FDA Inactive Ingredients Database (oral solutions, syrups, tablets, and topical preparations). Included in nonparenteral medicines licensed in the UK. Included in the Canadian List of Acceptable Non-medicinal Ingredients.

SaccharinSupplier

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