Interlaboratory evaluation of methods to quantify skin‐sensitizing hydroperoxides of limonene and linalool (<scp>II</scp>): Analysis in cosmetic bases

Natsch, Andreas; Kern, Susanne; Corbi, Elise; Pérès, Christophe; Nägelin, Marco; Leijs, Hans; Strien, Michel van; Calandra, Michael J.; Wang, Ying

doi:10.1002/ffj.3451

Cited by 4 publications

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“…Besides, the exposure to terpenes from household products and cosmetics is very common, which enormously increases the possible exposure to ox. terpenes 7,11‐15 . Therefore, the associations regarding concentrations of the ox.…”

Section: Introductionmentioning

confidence: 99%

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Contact allergy to oxidized linalool and oxidized limonene: Patch testing in consecutive patients with dermatitis

et al. 2021

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Background: Contact allergy to oxidized (ox.) linalool and ox. limonene has been reported to have a high prevalence, raising the question of inclusion into the baseline series. However, several important issues should be clarified and further investigated before inclusion can be warranted.Objectives: To report the trends of ox. terpenes allergy in patients with dermatitis, features of the patch test reactions, and clinical characteristics of the patients.Methods: A retrospective analysis of 5773 patients was performed. All patients were patch tested with baseline series, individual ingredients of fragrance mix I and II, ox. linalool, and ox. limonene from 2013 to 2020. Results:The prevalence rates of contact allergy to ox. linalool and ox. limonene were 7.0% and 5.1%, respectively. Significantly increasing trends of contact allergy were observed. More than 95% of contact allergy cases were identified on Day 3/4.Patients with contact allergy to ox. linalool and ox. limonene were significantly younger than those with contact allergy to other fragrances and were predominantly female. Strong reactions were associated with older age and multiple fragrance allergies.Conclusions: Contact allergy to ox. linalool and ox. limonene is becoming increasingly important, and findings show intriguing features. More studies concerning the clinical relevance before recommending these substances for screening are required.

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Section: Introductionmentioning

confidence: 99%

“…terpenes. 7,[11][12][13][14][15] Therefore, the associations regarding concentrations of the ox. terpenes in products, patch test preparations and test reactions, and clinical relevance for the ox.…”

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confidence: 99%

Contact allergy to oxidized linalool and oxidized limonene: Patch testing in consecutive patients with dermatitis

et al. 2021

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Exposure source for skin sensitizing hydroperoxides of limonene and linalool remains elusive: An analytical market surveillance

Natsch

Nägelin²,

Leijs³

et al. 2019

Food and Chemical Toxicology

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et al.. Exposure source for skin sensitizing hydroperoxides of limonene and linalool remains elusive: an analytical market surveillance. Food and Chemical Toxicology, Elsevier, 2019, 127, pp. AbstractReports about positive patch test reactions to oxidized linalool and limonene remain frequent. These terpenes are fragrance ingredients widely present in consumer products. The main sensitizing ingredients in the oxidation mixtures of these terpenes are hydroperoxides (HP). Currently, it is not clear whether fragranced consumer products are a relevant exposure source for HP. Analytical methodologies had been developed and validated in blind-coded ring-trials in multiple laboratories allowing quantification of the HP in different consumer products. The analytical approach had been successfully transferred to an independent third party laboratory and was now used in the analytical investigation of consumer products. In total, 104 products were analysed with a method based on hydroperoxide reduction followed by GC-MS. Samples included aged and new samples from the same brand, products which were suspected by patch test positive patients to elicit their symptoms and some products containing high levels of essential oils. Only four samples contained > 50 µg/g of at least one of four analysed HP by the reduction method. Confirmatory analysis by LC-MS methods directly testing for presence of the hydroperoxide indicated that levels are even below those observed by the conservative reduction method. The samples retrieved from patch-test positive samples were below detection limit for all four target analytes by GC-MS, and LC analysis with three methods confirmed this negative result. This independent market surveillance indicates that concentrations of HP in investigated consumer products and patient products are orders of magnitude below reported sensitizing or elicitating doses. No evidence for hydroperoxide accumulation in aged products or products used by patients could be found. The nature and source of the inducing agent responsible for the frequent positive patch test reactions to oxidized terpenes remains elusive. The analytical work with GC-MS at SOLVIAS was funded by IDEA. The analysis by LC-MS was funded by the three participating laboratories (Firmenich, IFF and Givaudan). The study management was funded by IDEA. Manuscript writing was funded by Givaudan Schweiz AG. The synthesis of reference standards and sample collection was funded by the IDEA project. We thankfully acknowledge all donors of samples, in particular the Spanish dermatological network collecting samples from patients (GEIDAC, Grupo Español de Investigación en Dermatitis Alérgica de Contacto). Other members of the IDEA HP taskforce are gratefully acknowledged for fruitful discussions during various workshops. IDEA management team: Hans J. Bender; Industry scientists: Alain Chaintreau, Hugues Brévard and Neil Owen; Scientists from Academia:

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Recent updates on bioactive properties of linalool

Ren

et al. 2021

Food Funct.

117

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Interlaboratory evaluation of methods to quantify skin‐sensitizing hydroperoxides of limonene and linalool (II): Analysis in cosmetic bases

Cited by 4 publications

References 28 publications

Contact allergy to oxidized linalool and oxidized limonene: Patch testing in consecutive patients with dermatitis

Contact allergy to oxidized linalool and oxidized limonene: Patch testing in consecutive patients with dermatitis

Exposure source for skin sensitizing hydroperoxides of limonene and linalool remains elusive: An analytical market surveillance

Recent updates on bioactive properties of linalool

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