Edible insects and food safety: allergy

• Published in: Journal of insects as food and feed Vol. 7; no. 5; pp. 833 - 848
• Main Authors: Ribeiro, J.C, Sousa-Pinto, B, Fonseca, J, Fonseca, S. Caldas, Cunha, L.M
• Format: Journal Article
• Language: English
• Published: The Netherlands Brill | Wageningen Academic 13.08.2021; Wageningen Academic Publishers
• Subjects: allergenicity; Allergens; Allergic diseases; Allergic reactions; Allergies; Arginine kinase; Case reports; cross reaction; Cross-reactivity; Crustacea; Crustaceans; dust; enzymatic hydrolysis; Food allergies; Food safety; Food sources; House dust; Immunoglobulin E; insect rearing; Insects; Kinases; markets; Molecular modelling; Novel foods; Reactivity; REVIEW ARTICLE; risk; Risk assessment; Risk groups; systematic review; Tenebrio molitor; Tropomyosin; tropomyosins; Workers (insect caste); cross-reactivity; case reports; tropomyosin; entomophagy; primary sensitisation
• ISSN: 2352-4588; 2352-4588
• DOI: 10.3920/JIFF2020.0065

Edible insects are a unique food source, requiring extensive allergenic risk assessment before its safe introduction in the food market. In a recent systematic review, crustacean allergic subjects were identified as a risk group due to cross-reactivity mainly mediated by tropomyosin and arginine kinase. Immunologic co-sensitisation to house dust mites (HDM) was also demonstrated, but its clinical significance and molecular mechanisms were unclear. Furthermore, case reports of food allergy to insects were also analysed but lack of contextual information hindered the analysis. The main goal of this review is to provide an update of new information regarding food allergy caused by insects, covering relevant topics considering the guidelines for allergic risk assessment in novel foods. Newly published studies have further confirmed the role of tropomyosin as a cross-reactive allergen between edible insects and crustaceans, although there are some questions regarding the immunoglobulin E (IgE)-reactivity of this allergen in mealworm species. Furthermore, only specific treatments (enzymatic hydrolysis combined with thermal treatments) were able to eliminate IgE-reactivity of edible insects. Primary sensitisation (e.g. toTenebrio molitor) has also been shown to be an important pathway for the development of food allergies, with responsible allergens being dependent on the route of sensitisation. However, more studies are necessary to better understand the potential of primary sensitisation causing cross-reactivity with other insect species, crustaceans or HDM. The clinical significance and molecular mechanisms involved in cross-reactivity between edible insects and HDM are still unclear, and a major focus should be given to better understand which allergens cause co-sensitisations between HDM and edible insects and what is the risk of HDM-only allergic subjects consuming edible insects. Contextual information about the reported cases of allergic reactions to insects have further demonstrated that insect-rearing workers and subjects with allergic diseases (in particular, food allergy to crustaceans) are the major risk groups.