Kati Palosuo1. 1. Department of Dermatology, University of Helsinki and Hospital for Skin and Allergic Diseases, Helsinki, Finland. kati.palosuo@hus.fi
Abstract
PURPOSE OF REVIEW: Wheat is among the six foods responsible for approximately 90% of food allergies in children, and in recent years wheat has been increasingly recognized as a cause of food-dependent, exercise-induced anaphylaxis. Wheat flour is an important cause of baker's asthma, a well-known occupational respiratory allergy to inhaled flour. This review outlines the diverse clinical manifestations of IgE-mediated wheat hypersensitivity and summarizes recent advances in characterization of clinically significant allergens. RECENT FINDINGS: Only a few of the numerous wheat proteins recognized by IgE of sensitized individuals have been characterized at the molecular level. Characterized allergens causing baker's asthma include several water/salt-soluble wheat proteins, however sensitization patterns show a great degree of individual variation. The insoluble gliadins have been implicated in IgE-mediated allergy to ingested wheat, and omega-5 gliadin has been identified as a major allergen in wheat-dependent, exercise-induced anaphylaxis. The presence of IgE to purified omega-5 gliadin in children was highly predictive of immediate clinical symptoms on oral wheat challenge. SUMMARY: Diagnostic skin prick and in-vitro tests measuring sensitization against water/salt-soluble wheat proteins have poor predictive values. Quantification of gliadin-specific IgE in serum or skin prick testing with gliadin could serve as an additional tool in the diagnostic work-up of allergy to ingested wheat.
PURPOSE OF REVIEW: Wheat is among the six foods responsible for approximately 90% of food allergies in children, and in recent years wheat has been increasingly recognized as a cause of food-dependent, exercise-induced anaphylaxis. Wheat flour is an important cause of baker's asthma, a well-known occupational respiratory allergy to inhaled flour. This review outlines the diverse clinical manifestations of IgE-mediated wheathypersensitivity and summarizes recent advances in characterization of clinically significant allergens. RECENT FINDINGS: Only a few of the numerous wheat proteins recognized by IgE of sensitized individuals have been characterized at the molecular level. Characterized allergens causing baker's asthma include several water/salt-soluble wheat proteins, however sensitization patterns show a great degree of individual variation. The insoluble gliadins have been implicated in IgE-mediated allergy to ingested wheat, and omega-5 gliadin has been identified as a major allergen in wheat-dependent, exercise-induced anaphylaxis. The presence of IgE to purified omega-5 gliadin in children was highly predictive of immediate clinical symptoms on oral wheat challenge. SUMMARY: Diagnostic skin prick and in-vitro tests measuring sensitization against water/salt-soluble wheat proteins have poor predictive values. Quantification of gliadin-specific IgE in serum or skin prick testing with gliadin could serve as an additional tool in the diagnostic work-up of allergy to ingested wheat.
Authors: Ignacio J Ansotegui; Giovanni Melioli; Giorgio Walter Canonica; Luis Caraballo; Elisa Villa; Motohiro Ebisawa; Giovanni Passalacqua; Eleonora Savi; Didier Ebo; R Maximiliano Gómez; Olga Luengo Sánchez; John J Oppenheimer; Erika Jensen-Jarolim; David A Fischer; Tari Haahtela; Martti Antila; Jean J Bousquet; Victoria Cardona; Wen Chin Chiang; Pascal M Demoly; Lawrence M DuBuske; Marta Ferrer Puga; Roy Gerth van Wijk; Sandra Nora González Díaz; Alexei Gonzalez-Estrada; Edgardo Jares; Ayse Füsun Kalpaklioğlu; Luciana Kase Tanno; Marek L Kowalski; Dennis K Ledford; Olga Patricia Monge Ortega; Mário Morais Almeida; Oliver Pfaar; Lars K Poulsen; Ruby Pawankar; Harald E Renz; Antonino G Romano; Nelson A Rosário Filho; Lanny Rosenwasser; Mario A Sánchez Borges; Enrico Scala; Gian-Enrico Senna; Juan Carlos Sisul; Mimi L K Tang; Bernard Yu-Hor Thong; Rudolf Valenta; Robert A Wood; Torsten Zuberbier Journal: World Allergy Organ J Date: 2020-02-25 Impact factor: 4.084
Authors: Stine Kroghsbo; Nanna B Andersen; Tina F Rasmussen; Susanne Jacobsen; Charlotte B Madsen Journal: PLoS One Date: 2014-09-10 Impact factor: 3.240