Evaluation of the hypersensitivity potential of alternative butter flavorings

•The alternative butter flavorings were identified to be weak sensitizers in the LLNA.•The sensitization responses for the butter flavorings were similar to each other and to that of diacetyl.•The alternative flavorings may not be safe alternatives to diacetyl. Concern has been raised over the assoc...

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Veröffentlicht in:Food and chemical toxicology Jg. 62; S. 373 - 381
Hauptverfasser: Anderson, Stacey E., Franko, Jennifer, Wells, J.R., Lukomska, Ewa, Meade, B. Jean
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Oxford Elsevier Ltd 01.12.2013
Elsevier
Schlagworte:
animal models
Animals
Biological and medical sciences
blood serum
Butter
Butter flavorings
Dermatitis, Allergic Contact - etiology
Diacetyl
Diacetyl - immunology
Diacetyl - toxicity
Dose-Response Relationship, Immunologic
Female
Flavoring Agents - toxicity
flavorings
food processing
Hexanones - immunology
Hexanones - toxicity
Hypersensitivity
immunoglobulin E
Immunoglobulin E - blood
immunotoxicity
Irritants - immunology
Irritants - toxicity
LLNA
Lymph Nodes - pathology
lymphocyte proliferation
Lymphocytes - drug effects
manufacturing
Medical sciences
Mice, Inbred BALB C
Occupational Exposure
Pentanones - toxicity
skin irritation
Toxicology
LLNA
Butter flavorings
Hypersensitivity
Diacetyl
Evaluation
Butter
Biacetyl
ISSN:0278-6915, 1873-6351, 1873-6351
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Abstract •The alternative butter flavorings were identified to be weak sensitizers in the LLNA.•The sensitization responses for the butter flavorings were similar to each other and to that of diacetyl.•The alternative flavorings may not be safe alternatives to diacetyl. Concern has been raised over the association of diacetyl with lung disease clinically resembling bronchiolitis obliterans in food manufacturing workers. This has resulted in the need for identification of alternative chemicals to be used in the manufacturing process. Structurally similar chemicals, 2,3-pentanedione, 2,3-hexanedione, 3,4-hexanedione and 2,3-heptanedione, used as constituents of synthetic flavoring agents have been suggested as potential alternatives for diacetyl, however, immunotoxicity data on these chemicals are limited. The present study evaluated the dermal irritation and sensitization potential of diacetyl alternatives using a murine model. None of the chemicals were identified as dermal irritants when tested at concentrations up to 50%. Similar to diacetyl (EC3=17.9%), concentration-dependent increases in lymphocyte proliferation were observed following exposure to all four chemicals, with calculated EC3 values of 15.4% (2,3-pentanedione), 18.2% (2,3-hexanedione), 15.5% (3,4-hexanedione) and 14.1% (2,3-heptanedione). No biologically significant elevations in local or total serum IgE were identified after exposure to 25–50% concentrations of these chemicals. These results demonstrate the potential for development of hypersensitivity responses to these proposed alternative butter flavorings and raise concern about the use of structurally similar replacement chemicals. Additionally, a contaminant with strong sensitization potential was found in varying concentrations in diacetyl obtained from different producers.
AbstractList Concern has been raised over the association of diacetyl with lung disease clinically resembling bronchiolitis obliterans in food manufacturing workers. This has resulted in the need for identification of alternative chemicals to be used in the manufacturing process. Structurally similar chemicals, 2,3-pentanedione, 2,3-hexanedione, 3,4-hexanedione and 2,3-heptanedione, used as constituents of synthetic flavoring agents have been suggested as potential alternatives for diacetyl, however, immunotoxicity data on these chemicals are limited. The present study evaluated the dermal irritation and sensitization potential of diacetyl alternatives using a murine model. None of the chemicals were identified as dermal irritants when tested at concentrations up to 50%. Similar to diacetyl (EC3=17.9%), concentration-dependent increases in lymphocyte proliferation were observed following exposure to all four chemicals, with calculated EC3 values of 15.4% (2,3-pentanedione), 18.2% (2,3-hexanedione), 15.5% (3,4-hexanedione) and 14.1% (2,3-heptanedione). No biologically significant elevations in local or total serum IgE were identified after exposure to 25–50% concentrations of these chemicals. These results demonstrate the potential for development of hypersensitivity responses to these proposed alternative butter flavorings and raise concern about the use of structurally similar replacement chemicals. Additionally, a contaminant with strong sensitization potential was found in varying concentrations in diacetyl obtained from different producers.
Concern has been raised over the association of diacetyl with lung disease clinically resembling bronchiolitis obliterans in food manufacturing workers. This has resulted in the need for identification of alternative chemicals to be used in the manufacturing process. Structurally similar chemicals, 2,3-pentanedione, 2,3-hexanedione, 3,4-hexanedione and 2,3-heptanedione, used as constituents of synthetic flavoring agents have been suggested as potential alternatives for diacetyl, however, immunotoxicity data on these chemicals are limited. The present study evaluated the dermal irritation and sensitization potential of diacetyl alternatives using a murine model. None of the chemicals were identified as dermal irritants when tested at concentrations up to 50%. Similar to diacetyl (EC3=17.9%), concentration-dependent increases in lymphocyte proliferation were observed following exposure to all four chemicals, with calculated EC3 values of 15.4% (2,3-pentanedione), 18.2% (2,3-hexanedione), 15.5% (3,4-hexanedione) and 14.1% (2,3-heptanedione). No biologically significant elevations in local or total serum IgE were identified after exposure to 25-50% concentrations of these chemicals. These results demonstrate the potential for development of hypersensitivity responses to these proposed alternative butter flavorings and raise concern about the use of structurally similar replacement chemicals. Additionally, a contaminant with strong sensitization potential was found in varying concentrations in diacetyl obtained from different producers.Concern has been raised over the association of diacetyl with lung disease clinically resembling bronchiolitis obliterans in food manufacturing workers. This has resulted in the need for identification of alternative chemicals to be used in the manufacturing process. Structurally similar chemicals, 2,3-pentanedione, 2,3-hexanedione, 3,4-hexanedione and 2,3-heptanedione, used as constituents of synthetic flavoring agents have been suggested as potential alternatives for diacetyl, however, immunotoxicity data on these chemicals are limited. The present study evaluated the dermal irritation and sensitization potential of diacetyl alternatives using a murine model. None of the chemicals were identified as dermal irritants when tested at concentrations up to 50%. Similar to diacetyl (EC3=17.9%), concentration-dependent increases in lymphocyte proliferation were observed following exposure to all four chemicals, with calculated EC3 values of 15.4% (2,3-pentanedione), 18.2% (2,3-hexanedione), 15.5% (3,4-hexanedione) and 14.1% (2,3-heptanedione). No biologically significant elevations in local or total serum IgE were identified after exposure to 25-50% concentrations of these chemicals. These results demonstrate the potential for development of hypersensitivity responses to these proposed alternative butter flavorings and raise concern about the use of structurally similar replacement chemicals. Additionally, a contaminant with strong sensitization potential was found in varying concentrations in diacetyl obtained from different producers.
•The alternative butter flavorings were identified to be weak sensitizers in the LLNA.•The sensitization responses for the butter flavorings were similar to each other and to that of diacetyl.•The alternative flavorings may not be safe alternatives to diacetyl. Concern has been raised over the association of diacetyl with lung disease clinically resembling bronchiolitis obliterans in food manufacturing workers. This has resulted in the need for identification of alternative chemicals to be used in the manufacturing process. Structurally similar chemicals, 2,3-pentanedione, 2,3-hexanedione, 3,4-hexanedione and 2,3-heptanedione, used as constituents of synthetic flavoring agents have been suggested as potential alternatives for diacetyl, however, immunotoxicity data on these chemicals are limited. The present study evaluated the dermal irritation and sensitization potential of diacetyl alternatives using a murine model. None of the chemicals were identified as dermal irritants when tested at concentrations up to 50%. Similar to diacetyl (EC3=17.9%), concentration-dependent increases in lymphocyte proliferation were observed following exposure to all four chemicals, with calculated EC3 values of 15.4% (2,3-pentanedione), 18.2% (2,3-hexanedione), 15.5% (3,4-hexanedione) and 14.1% (2,3-heptanedione). No biologically significant elevations in local or total serum IgE were identified after exposure to 25–50% concentrations of these chemicals. These results demonstrate the potential for development of hypersensitivity responses to these proposed alternative butter flavorings and raise concern about the use of structurally similar replacement chemicals. Additionally, a contaminant with strong sensitization potential was found in varying concentrations in diacetyl obtained from different producers.
Author Meade, B. Jean
Franko, Jennifer
Anderson, Stacey E.
Wells, J.R.
Lukomska, Ewa
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Keywords LLNA
Butter flavorings
Hypersensitivity
Diacetyl
Evaluation
Butter
Biacetyl
Language English
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Address: National Institute for Occupational Safety and Health (NIOSH), 1095 Willowdale Drive, Morgantown, WV 26505, United States.
Address: Bethany College, 1095 Willowdale Drive, Bethany, WV 26032, United States.
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Snippet •The alternative butter flavorings were identified to be weak sensitizers in the LLNA.•The sensitization responses for the butter flavorings were similar to...
Concern has been raised over the association of diacetyl with lung disease clinically resembling bronchiolitis obliterans in food manufacturing workers. This...
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StartPage 373
SubjectTerms animal models
Animals
Biological and medical sciences
blood serum
Butter
Butter flavorings
Dermatitis, Allergic Contact - etiology
Diacetyl
Diacetyl - immunology
Diacetyl - toxicity
Dose-Response Relationship, Immunologic
Female
Flavoring Agents - toxicity
flavorings
food processing
Hexanones - immunology
Hexanones - toxicity
Hypersensitivity
immunoglobulin E
Immunoglobulin E - blood
immunotoxicity
Irritants - immunology
Irritants - toxicity
LLNA
Lymph Nodes - pathology
lymphocyte proliferation
Lymphocytes - drug effects
manufacturing
Medical sciences
Mice, Inbred BALB C
Occupational Exposure
Pentanones - toxicity
skin irritation
Toxicology
Title Evaluation of the hypersensitivity potential of alternative butter flavorings
URI https://dx.doi.org/10.1016/j.fct.2013.08.053
https://www.ncbi.nlm.nih.gov/pubmed/24007741
https://www.proquest.com/docview/1462187110
https://www.proquest.com/docview/1635022866
https://www.proquest.com/docview/1694494342
https://pubmed.ncbi.nlm.nih.gov/PMC4683597
Volume 62
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