Sodium stearoyl lactylate

Sodium stearoyl lactylate
Names
IUPAC name
sodium 2-(2-octadecanoyloxypropanoyloxy)propanoate
Other names
octadecanoic acid, 2-(1-carboxyethoxy)-1-methyl-2-oxoethyl ester, sodium salt; sodium 2-{[2-(stearoyloxy)propanoyl]oxy}propanoate; sodium stearoyl lactylate; sodium stearoyl-2-lactylate; sodium stearyl-2-lactylate; sodium 2-stearoyllactylate; sodium stelate; stearoyl-2-lactylic acid, sodium salt; sodium alpha-(alpha-(stearoyloxy)propionyloxy)propionate; sodium 2-(1-carboxyethoxy)-1-methyl-2-oxoethyloctadecanoate; stearic acid, ester with lactate of lactic acid, sodium salt; stearic acid ester with lactic acid bimol. ester sodium salt; sodium 2-(1-carboxylatoethoxy)-1-methyl-2-oxoethyl stearate
Identifiers
25383-99-7 YesY
3D model (Jmol) Interactive image
ChemSpider 8065662 N
ECHA InfoCard 100.042.648
EC Number 246-929-7
E number E481 (thickeners, ...)
PubChem 23671849
Properties
C24H43NaO6
Molar mass 450.59 g·mol−1
Appearance a white or cream-colored powder with a caramel odor[1][2]
Density 1.063 g/cm3[3]
Melting point 49 °C (120 °F; 322 K)[3]
dispersible in warm water[2]
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

Sodium stearoyl-2-lactylate (sodium stearoyl lactylate or SSL) is a versatile, FDA approved food additive used to improve the mix tolerance and volume of processed foods. It is one type of a commercially available lactylate. SSL is non-toxic,[4][5] biodegradable,[6] and typically manufactured using biorenewable feedstocks.[7][8] Because SSL is a safe and highly effective food additive, it is used in a wide variety of products ranging from baked goods and desserts to pet foods.[2][9][10][11][12]

As described by the Food Chemicals Codex 7th edition, SSL is a cream-colored powder or brittle solid.[1] SSL is currently manufactured by the esterification of stearic acid with lactic acid and partially neutralized with either food-grade soda ash (sodium carbonate) or caustic soda (concentrated sodium hydroxide). Commercial grade SSL is a mixture of sodium salts of stearoyl lactylic acids and minor proportions of other sodium salts of related acids. The HLB for SSL is 10-12. SSL is slightly hygroscopic, soluble in ethanol and in hot oil or fat, and dispersible in warm water.[2] These properties are the reason that SSL is an excellent emulsifier for fat-in-water emulsions[13] and can also function as a humectant.[14]

Food labeling requirements

To be labeled as SSL for sale within the United States, the product must conform to the specifications detailed in 21 CFR 172.846[9] and the most recent edition of the Food Chemical Codex. In the EU, the product must conform to the specifications detailed in Regulation (EC) No 96/77.[15] For the 7th edition of the FCC[1] and Regulation (EC) No 96/77, these specifications are:

Specific Test Acceptance Criterion (FCC) Acceptance Criterion (EU)
Acid Value 50 - 86 60 - 130
Ester Value 120 - 190 90 - 190
Sodium Content 3.5% - 5.0% 2.5% - 5%
Total Recoverable Lactic Acid 23.0% - 34.0% 15% - 40%

To be labeled as SSL for sale in other regions, the product must conform to the specifications detailed in that region's codex.

Food applications and maximum use levels

SSL finds widespread application in baked goods, pancakes, waffles, cereals, pastas, instant rice, desserts, icings, fillings, puddings, toppings, sugar confectionaries, powdered beverage mixes, creamers, cream liqueurs, dehydrated potatoes, snack dips, sauces, gravies, chewing gum, dietetic foods, minced and diced canned meats, mostarda di frutta, and pet food.[9][10][11] Approved uses and maximum use levels in the United States are described in 21 CFR 172.846[9] and 21 CFR 177.120.[12] In the European Union, the approved uses and maximum use levels are described in Regulation (EC) No 95/2.[10]

United States European Union
Application Maximum Use Level Application Maximum Use Level Application Maximum Use Level
Baked goods, pancakes, waffles 0.5% of flour Fine baked goods 5 g/kg Bread 3 g/kg
Icings, fillings, puddings, toppings 0.2% Fat Emulsions 10 g/kg Desserts 5 g/kg
Beverage creamers 0.3% Beverage whiteners 3 g/kg Hot powder beverage mixes 2 g/L
Dehydrated potatoes 0.5% Quick cook rice 4 g/kg Breakfast cereals 5 g/kg
Snack dips 0.2% Cereal-based snacks 2 g/kg Cereal- and potato-based snacks 5 g/kg
Sauces and gravies 0.25% Minced and diced canned meats 4 g/kg Mostarda di frutta 2 g/kg
Prepared mixes of above As indicated above Chewing gum 2 g/kg Sugar confectionery 5 g/kg
Cream liqueurs 0.5% Emulsified Liqueur 8 g/L Spirits <15% alcohol 8 g/L
Cellophane 0.5% weight of cellophane Dietetic foods 2 g/L

The largest marketed use of SSL is in yeast-raised bakery products. SSL is used in the majority of manufactured breads, buns, wraps, tortillas, and similar bread-based products to ensure consistent product quality. Use levels for baked goods will vary between 0.25 - 0.5% based on flour. The typical application level is 0.375% and will be adjusted depending on the type and quality of flour used.[16]

The effect of SSL on bread volume[17]

Compared to calcium stearoyl-2-lactylate (CSL), SSL offers some advantages. First, SSL disperses and hydrates more readily in water than CSL. Therefore, SSL does not require pre-hydration. Second, SSL provides better crumb softening than CSL. SSL's crumb softening effect is noticeable up to 5–7 days after baking. Third, in rich bread formulations (e.g. pan bread and hamburger buns), SSL provides better dough strengthening than CSL. Use of SSL in these formulations will yield (nearly) perfect symmetry in the finished baked good. Because of these characteristics, SSL is currently used in more baking applications than CSL.[16]

Research has explored the possibility of replacing SSL with the use of enzymes. Enzyme technologies, by themselves, have not been able to completely replace SSL. A major limitation of enzymes is the production of gummy bread of unpredictable quality. Also, enzymes often do not augment dough strength, which is necessary to prevent loaf collapse during baking. Currently, enzymes are being used in conjunction with SSL to maximize the shelf life of bread. SSL is very good at increasing softness of bread during the first week after baking. Enzyme technology works best after the first 5 days of shelf life. Therefore, bread with optimal softness throughout the desired shelf life is obtained by using a combination of these technologies.[16]

Health and safety

Lactylates, including SSL, have been subjected to extensive safety evaluations prior to being FDA approved for use as a food additive.[5] The oral LD50 of SSL for rats was established by Schuler and Thornton in 1952 as being over 25 g/kg body weight.[4] In 2010, Lamb established the no-observed-adverse-effect level of SSL at 5% of the total diet and recommended an acceptable daily intake of 22.1 mg/kg bw/day for human consumption.[5]

References

  1. 1 2 3 "Sodium Stearoyl Lactylate". Food Chemical Codex (7 ed.). pp. 964–965.
  2. 1 2 3 4 Ash, M.; Ash, I. (2004). Handbook of Green Chemicals (2 ed.). Endicott, NY: Synapse Information Resources. pp. 400, 654, 868, 875–876, 882.
  3. 1 2 MSDS at sciencelab.com
  4. 1 2 JECFA, ed. (1974). "Toxicological Evaluation of Some Food Additives Including Anticaking Agents, Antimicrobials, Antioxidants, Emulsifiers and Thickening Agents 539. Stearoyl Lactic Acid, Calcium and Sodium Salts". Seventeenth Report of the Joint FAO/WHO Expert Committee on Food Additives, Who Food Additive Series 5.
  5. 1 2 3 Lamb, J.; Hentz, K.; Schmitt, D.; Tran, N.; Jonker, D.; Junker,, K. (2010). "A one-year oral toxicity study of sodium stearoyl lactylate (SSL) in rats". Food and Chemical Toxicology. 48 (10): 2663–2669. doi:10.1016/j.fct.2010.06.037. PMID 20600527.
  6. Schaefer, E.C; Matthews, M.E (2007), Fatty Acids, C16-18 and C18-Unsaturated, Reaction Products with Lactic Acid and Monosodium Lactate (CAS# 847904-46-5): Ready Biodegradability by the Carbon Dioxide Evolution Test Method, Project No. 645E-101 for Caravan Ingredients, Easton, Maryland: Wildlife International, Ltd.
  7. Markley, K.S. (1960). "Historical and General". In Markley, K.S. Fatty Acids Their Chemistry, Properties, Production, and Uses Part 1. New York: Interscience Publishers, Inc. pp. 16–21.
  8. US 5892109, Baniel, A.M.; A.M. Eval & J. Mizrahi et al., "Lactic Acid Production, Separation, and/or Recovery Process", issued Apr. 6, 1999
  9. 1 2 3 4 "Sodium stearoyl lactylate", Title 21 Code of Federal Regulations, part 172, January 1, 2010
  10. 1 2 3 "Regulation (EC) No 95/2 of the European Parliament and of the Council of 20 February 1995 on Food Additives Other Than Colours and Sweeteners". Official Journal of the European Union: L61/1–63. 1995-03-18.
  11. 1 2 AAFCO (2000). "Feed Ingredients". Feed Inspector's Manual (2nd ed.). Oxford, IN: Association of American Feed Control Officials Inspection and Sampling Committee. pp. 13–14.
  12. 1 2 "Cellophane", Title 21 Code of Federal Regulations, part 172, January 1, 2010
  13. Nylander, G.; Wang, Z. (2010). "Guidelines for Processing Emulsion-Based Foods". In Hasenhettl, G.L.; Hartel, R.W. Food Emulsifiers and Their Applications (2 ed.). New York: Springer. pp. 349–394.
  14. Orthoefer, F. (2010). "Applications of Emulsifiers in Baked Foods". In Hasenhettl, G.L.; Hartel, R.W. Food Emulsifiers and Their Applications (2 ed.). New York: Springer. pp. 263–284.
  15. "Regulation (EC) No 96/77 of the European Parliament and of the Council of 2 December 1996 on Laying Down Specific Purity Criteria on Food Additives Other Than Colours and Sweeteners". Official Journal of the European Union: L339/1–171. 1996-12-30.
  16. 1 2 3 Boutte, T.; Skogerson, L. (2004). "Stearoyl-2-lactylates and oleoyl lactylates". In Whitehurst, R.J. Emulsifiers in Food Technology. Oxford: Blackwell Publishing. pp. 207–225.
  17. Tsen, C.C.; Hoover, W.J. (1973). "High-Protein Bread from Wheat Flour Fortified with Full-Fat Soy Flour". Cereal Chemistry. 50 (1): 7–16.
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