-INS No. 101(i)
-CAS Number: 83-88-5
-Riboflavin 5’-phosphate ester monosodium salt
-Vitamin B2 phosphate ester monosodium salt
-INS No. 101 (ii)
-CAS Number: 130-40-5
-Sodium flavin mononucleotide (FMN)
Riboflavin is a orangish-yellow crystalline powder and is naturally occurring in milk, cheese, leafy green vegetables, liver, yeast, almonds and mature soya beans. Although minute amounts are present in all plant and animal cells, the richest natural source is found in yeast. Free forms of riboflavin occur in the retina of the eye, whey, and urine. Riboflavin melts around 280°C and its saturated solution is neutral to litmus. Dry riboflavin is not affected by diffused light but when in solution, light induces deterioration. It is slightly soluble in water, insoluble in ether, alcohol and, chloroform, and very soluble in dilute solutions of alkalies. As an alternative, Riboflavin-5’-Phosphate provides better solubility.Riboflavin is bright yellow in color and in addition to being used as food coloring, it is also known as Vitamin B2 and used to fortify some foods.
Riboflavin is used to color convenient foods, soft drinks, cheese and cheese products, dairy products, bakery goods, fish products, canned fruits and vegetables, confectionery, desert powder, sherbets, jams and jellies, soups, mayonnaise and salad dressing, fats and oils, mustard and flavorings.
Riboflavins are added to foods and beverages at concentrations up to a maximum permitted level (MPL) as established by the Codex Alimentarius Commission and published in the General Standard of Food Additives (GSFA) (CODEX STAN 192-1995, 2016). The provisions are defined at the additive group level, and thus apply to the total content of the additives participating in this group: Riboflavin, synthetic (101(i)); Riboflavin 5’-phosphate sodium (101(ii)); and Riboflavin from Bacillus subtilis (101(iii)).
Regulatory Approvals/Consumption Limits
USA: Riboflavin may be safely used for the coloring of foods generally, in amounts consistent with GMP (21 CFR 73.450).
EU: No ADI allocated (2013). Maximum permitted levels (MPLs) of riboflavins have been defined in Annex II to Regulation (EC) No 1333/2008. Currently, riboflavins are authorized food additives in the EU at quantum satis in all foodstuffs with the exception of concentrations up to 100 mg/L in aromatized wines and aromatized wine-based drinks (Americano, bitter soda).
JECFA: A group ADI of 0-0.5 mg/kg bw for riboflavin from Bacillus subtilis, synthetic riboflavin and riboflavin-5′-phosphate (1998).
In vivo test in mice revealed that riboflavin is not genotoxic. Ames assays using the bacterium Salmonella typhimurium revealed that riboflavin is not mutagenic. Riboflavin gave negative results in the yeast Saccharomyces cerevisiae, Escherichia coli bacteria and ‘rec’ assay using E. coli, the latter two were conducted with and without S9. No overt toxic effects were observed in humans who received repeated oral doses of about 0.15-200 mg riboflavin/kg bw/day for up to 8 months. The oral LD50 of riboflavin in rats is >10,000 mg/kg. No toxic symptoms occurred when dogs were fed a single 2000 mg/kg dose of riboflavin. Subcutaneous injections of riboflavin in doses of 5000 mg/kg produced no adverse effects in rats. No overt effects or gross changes in an unspecified range of organs were observed in four dogs ingesting 25 mg riboflavin/kg bw/day for 5 months. Although one study reported a reduction in the number of litters when female rats were fed 10 mg riboflavin/kg bw/day in the diet for 2 wk prior to mating and throughout pregnancy, the number of pups per litter, mean birth weight and weaning weight were unaffected by treatment. Riboflavin is readily absorbed from the lower part of the small intestine and excreted into the upper part. The limited amount of riboflavin absorbed in the large intestine is rapidly destroyed. Administration of riboflavin in rats and humans results in rapid excretion of the vitamin in the urine.
EFSA ANS Panel (EFSA Panel on Food Additives and Nutrient Sources Added to Food), 2013. Scientific opinion on the re-evaluation of riboflavin (E 101(i)) and riboflavin-5-phosphate sodium (E 101(ii)) as food additives. EFSA Journal 2013;11(10):3357, 49 pp. doi:10.2903/j.efsa.2013.3357. Available online.
JECFA (1981). Toxicological evaluation of certain food additives. 25th Report of JECFA on Food Additives. WHO Food Additive Series, No. 16. Available online.
JECFA (1998: Geneva, Switzerland). Evaluation of certain food additives: fifty-first report of the Joint FAO/WHO Expert Committee on Food Additives. (WHO technical report series; 891). Available online.
Full safety monograph, including references, available to IACM members or upon request.