Methylisothiazolinone Explained

Methylisothiazolinone, MIT, or MI, is the organic compound with the formula S(CH)2C(O)NCH3. It is a white solid. Isothiazolinones, a class of heterocycles, are used as biocides in numerous personal care products and other industrial applications. MIT and related compounds have attracted much attention for their allergenic properties, e.g. contact dermatitis.[1]

Preparation

It is prepared by cyclization of cis-N-methyl-3-thiocyanoacrylamide:[2]

NCSCH=CHC(O)NHCH3 -> SCH=CHC(O)NCH3 + HCN

Applications

See main article: Isothiazolinone. Methylisothiazolinone is used for controlling microbial growth in water-containing solutions.[3] It is typically used in a formulation with 5-chloro-2-methyl-4-isothiazolin-3-one (CMIT), in a 3:1 mixture (CMIT:MIT) sold commercially as Kathon. Kathon is supplied to manufacturers as a concentrated stock solution containing from 1.5 to 15% of CMIT/MIT.Kathon also has been used to control slime in the manufacture of paper products that contact food. In addition, this product serves as an antimicrobial agent in latex adhesives and in paper coatings that also contact food.[4]

Hazards

MIT is allergenic and cytotoxic, and this has led to some concern over its use.[5] [6] A report released by the European Scientific Committee on Cosmetic Products and Non-food Products Intended for Consumers (SCCNFP) in 2003 also concluded that insufficient information was available to allow for an adequate risk assessment analysis of MIT.[7]

Rising reports of consumer impact led to new research, including a report released in 2014 by the European Commission Scientific Committee on Consumer Safety which reported:

The American Contact Dermatitis Society named methylisothiazolinone “contact allergen of the year” in 2013.[8] The North American Contact Dermatitis Group found that methylisothiazolinone caused 10.9% positive reactions, being the third most common contact allergen in patch test results which surveyed close to 5000 contact dermatitis patients.[9] Additionally, new research into cross reactivity of MIT-sensitized patients to variants benzisothiazolinone and octylisothiazolinone have found that reactions may occur if present in sufficient amounts.[10]

In the United States, the Environmental Protection Agency has a 1998 data sheet on methylisothiazolinone in their Pesticides section [11] which reads in part "Human Health Assessment: Toxicity: In studies using laboratory animals, methylisothiazolinone has been shown to be of moderate acute toxicity by the oral and inhalation routes. It is highly acutely toxic when applied dermally or to the eye and is considered to be corrosive."

Regulation

In 2014, the European Commission Scientific Committee on Consumer Safety further issued a voluntary ban on the MCI/MI mixture from leave-on products such as body creams. The measure applied for products placed on the market after 16 July 2015."[12] Shortly thereafter, Canada moved to adopt similar measures in its Cosmetic Ingredients Hotlist.[13]

Based on the opinion of the Scientific Committee on Consumer Safety (SCCS) of 2013, Commission Regulation (EU) 2016/1198 of 22 July 2016 amending Annex V to Regulation (EC) No 1223/2009 of the European Parliament and of the council on cosmetic products banned the use of methylisothiazolinone in leave-on products (skin creams and lotions) effective 12 February 2017 and limited it to 0.01% in rinse-off products (e.g. shampoo). Effective 27 January 2018 (placing on the market), the maximum concentration in rinse-off products was reduced to 0.0015%.

External links

Notes and References

  1. 10.3390/molecules25040991. Isothiazolinone Biocides: Chemistry, Biological, and Toxicity Profiles. 2020. Silva. Vânia. Silva. Cátia. Soares. Pedro. Garrido. E. Manuela. Borges. Fernanda. Garrido. Jorge. Molecules. 25. 4. 991. 32102175. 7070760. free.
  2. 10.1021/jo01019a037. 3-Isothiazolone-cis-3-Thiocyanoacrylamide Equilibria1,2. 1965. Crow. W. D.. Leonard. Nelson J.. The Journal of Organic Chemistry. 30. 8. 2660–2665.
  3. Collier PJ. Ramsey A. Waigh RD. Douglas KT. Austin P. Gilbert P. . Chemical reactivity of some isothiazolone biocides . Journal of Applied Bacteriology . 69 . 578–584 . 1990 . 2292521 . 4 . 10.1111/j.1365-2672.1990.tb01551.x. Ramsey . Waigh . Douglas . Austin . Gilbert .
  4. Cosmetic Ingredient Review. Final Report on the Safety Assessment of Methylisothiazolinone and Methylchloroisothiazolinone. Journal of the American College of Toxicology . 1992. 11. 1. 75–128. 10.3109/10915819209141993. 208506926. free.
  5. A. Schnuch, J. Geier, W. Utur, P. J. Frosch: "Patch testing with preservatives, antimicrobials and industrial biocides. Results from a multicentre study", British Journal of Dermatology, 137(3), 467–476 (1998).
  6. A. C. De Groot, A. Herxheimer: "Isothiazolinone Preservative: Cause Of A Continuing Epidemic Of Cosmetic Dermatitis", The Lancet, Volume 333, Issue 8633, 314–316 (1989).
  7. Web site: European Scientific Committee on Cosmetic Products and Non-food Products Intended for Consumers (SCCNFP), adopted 2004. 31 December 2023.
  8. Castanedo-Tardana . M. P. . Zug . K. A. . Methylisothiazolinone . Dermatitis: Contact, Atopic, Occupational, Drug. 24 . 1 . 2–6 . 2013 . 10.1097/DER.0b013e31827edc73. 23340392 . 220573338 .
  9. "Why Methylisothiazolinone-Free Cleaning Products Matter", AspenClean.com
  10. Schwensen. J. F.. Menné Bonefeld. C.. Zachariae. C.. Agerbeck. C.. H.Petersen. T. Geisler. C.. E.Bollmann. U. Bester. K.. D.Johansen. J. 2016-06-01. Cross-reactivity between methylisothiazolinone, octylisothiazolinone and benzisothiazolinone using a modified local lymph node assay. British Journal of Dermatology. 176. 1. en. 176–183. 10.1111/bjd.14825. 27343839. 207075221.
  11. https://www3.epa.gov/pesticides/chem_search/reg_actions/reregistration/fs_G-58_1-Oct-98.pdf Methylisothiazolinone
  12. Web site: European Commission - Press release - Consumers: Commission improves safety of cosmetics. europa.eu. 2016-08-10.
  13. Web site: Health Canada - "December 2015 Changes to the Cosmetic Ingredient Hotlist". 2005-09-13.