Contact Dermatitis

Methylisothiazolinone and Isothiazolinone Allergy

Cutis. 2019 August;104(02):94-96

Methylisothiazolinone (MI) is a preservative commonly used in water-based personal care products. Increases in the allowable concentration of MI alone in these products has led to an epidemic of allergic contact dermatitis (ACD). Although personal care products are the most common source of MI contact allergy, other novel exposures include household products, industrial chemicals, paint, slime, and adhesive agents. Other isothiazolinones such as benzisothiazoline (BIT) and octylisothiazolinone (OIT) are uncommon in personal care products but have been found in leather products, glue, industrial chemicals, paints, and cleaning products. There may be cross-reactivity between OIT and MI, and a minority of patients who are allergic to MI are cosensitized to BIT. In this article, we review MI and related isothiazolinone chemicals.

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Practice Points

Methylisothiazolinone (MI) is a preservative found in water-based personal care products and is a common allergen in patch-tested populations.
Methylisothiazolinone also has been identified in household products, industrial chemicals, paint, adhesives, and other unique sources.
Benzisothiazolinone and octylisothiazolinone are structurally similar to MI, and a subset of MI-allergic patients may need to avoid them.

References

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DeKoven JG, Warshaw EM, Zug KA, et al. North American Contact Dermatitis Group patch test results: 2015-2016. Dermatitis. 2018;29:297-309.
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Isaksson M, Gruvberger B, Bruze M. Occupational contact allergy and dermatitis from methylisothiazolinone after contact with wallcovering glue and after a chemical burn from a biocide. Dermatitis. 2004;15:201-205.
Thyssen JP, Sederberg-Olsen N, Thomsen JF, et al. Contact dermatitis from methylisothiazolinone in a paint factory. Contact Dermatitis. 2006;54:322-324.
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Goodier MC, Siegel PD, Zang LY, et al. Isothiazolinone in residential interior wall paint: a high-performance liquid chromatographic-mass spectrometry analysis. Dermatitis. 2018;29:332-338.
Bohn S, Niederer M, Brehm K, et al. Airborne contact dermatitis from methylchloroisothiazolinone in wall paint. abolition of symptoms by chemical allergen inactivation. Contact Dermatitis. 2000;42:196-201.
Amsler E, Aerts O, Raison-Peyron N, et al; Dermatology Allergy Group (DAG) of the French Society of Dermatology. Airborne allergic contact dermatitis caused by isothiazolinones in water-based paints: a retrospective study of 44 cases. Contact Dermatitis. 2017;77:163-170.
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Goodier MC, Zang LY, Siegel PD, et al. Isothiazolinone content of US consumer adhesives: ultrahigh-performance liquid chromatographic mass spectrometry analysis. Dermatitis. 2019;30:129-134.
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Unless you have been living under a rock, you probably already know that the preservative methylisothiazolinone (MI) has caused an epidemic of allergic contact dermatitis (ACD) and was named the 2013 American Contact Dermatitis Society Allergen of the Year.¹ Methylisothiazolinone is not new on the market, but its solo use as a preservative is relatively new. In this article, we review the emergence of MI as a common allergen, discuss North American MI patch test results, and describe common and uncommon sources of MI exposure. We also explore the related isothiazolinones, benzisothiazolinone (BIT) and octylisothiazolinone (OIT).

Background

Methylchloroisothiazolinone (MCI) and MI have been utilized as a preservative in a 3:1 ratio since the 1980s. In 2005, MI was first used alone as a preservative in personal care products in concentrations of up to 100 ppm, which represented a 25-fold increase in exposure to MI in personal care products and thus unleashed an epidemic of ACD.¹ In the 2015 to 2016 cycle of the North American Contact Dermatitis Group (NACDG) patch testing results, MI was found to be positive in 13.4% of patch tested patients (N=5597) and also had the highest significance-prevalence index number, a calculation that represents the relevance of positive reactions in relationship to prevalence.² In Europe, MI is banned in leave-on products and is allowed in rinse-off products in concentrations of up to 15 ppm. In the United States, the Cosmetic Ingredient Review panel concluded that MI is safe at a maximum concentration up to 100 ppm in rinse-off products and safe in leave-on products when formulated to be nonsensitizing, which may be determined based on a quantitative risk assessment.³

It is recommended that MI be patch tested at a concentration of 2000 ppm (0.2% aqueous).⁴ Testing at lower concentrations may result in missed positives. In addition, it should be noted that MCI/MI is present in the T.R.U.E. Test (SmartPractice), but MI alone is not.

Sources of MI Exposure

The first few case reports of MI contact allergy were associated with occupational exposures. In 2004, Isaksson et al⁵ reported 2 cases of MI allergy following exposure to wallpaper glue and a chemical burn from a biocide, respectively. Soon after, Thyssen et al⁶ reported 4 occupational cases of MI allergy at a paint manufacturing plant.

An early case series of MI contact allergy associated with personal care products was published in 2010 in which the authors described adults with ACD from wet wipes and a makeup remover that contained MI.⁷ A more recent report indicated that MI is now an infrequent ingredient in wet wipes but is still found in a wide variety of household and personal care products.⁸ A 2017 query of the American Contact Dermatitis Society’s Contact Allergy Management Program (CAMP) database revealed that 12.9% of all products contained MI. Furthermore, CAMP data revealed that MI was the most commonly found preservative in both hair care and household products.⁹ An additional CAMP database study revealed that 53% of shampoos and 45% of conditioners contained MI, and it also was commonly found in hair dyes, soaps and cleansers, hand cleaners and sanitizers, vaginal hygiene products, sunscreens, and moisturizers.¹⁰

Methylisothiazolinone and Isothiazolinone Allergy

References

Background

Sources of MI Exposure

Pages

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