clear search
Search
Search Suggestions
Recent searches Clear History
Talk with Us
Allergen Encyclopedia
Table of Contents

Whole Allergen

f7 Oat

f7 Oat Scientific Information

Type:

Whole Allergen

Display Name:

Oat

Route of Exposure:

Ingestion

Family:

Poaceae

Species:

Avena sativa

Latin Name:

Avena sativa

Other Names:

Oatmeal, Oat groats

Summary

Oats are small cereal grains rich in fiber and antioxidants and possess various health benefits. It belongs to the genus Avena. Oats are used as cereal, fodder, hay, straw beds, grains, etc. They are more popularly consumed in Europe and are a source of food allergy. Ingestion of oat cereal or inhalation of oat flour has been reported to cause allergic reactions in sensitive individuals.

Clinically, oat allergies are reported to cause Oral Allergy Syndrome (OAS), anaphylaxis, gastro-intestinal symptoms, skin reactions, and respiratory symptoms such as rhinitis, rhino-conjunctivitis, and asthma in sensitized individuals. Children with atopic dermatitis constitute a risk group of developing epicutaneous sensitization to oats and subsequently acute allergies on using oat-containing cosmetics.

Allergens in oats haven’t yet been characterized but various studies have shown different IgE- binding proteins from oats. Cross-reactivity between gliadins from wheat and hordeins in barley, avenins from oats, coixins in Job’s tears, and secalins from rye has been observed. Additionally, cross-reactivity has been demonstrated between rice, millets, oats, and grass pollen.

Avoidance of oats is suggested as a preventative strategy against the allergic reaction caused by oat. 

Allergen

Nature

Oat (Avena sativa) is ranked sixth in the world in cereal production (1). It is a rich source of fiber and antioxidants and mainly used as breakfast cereal (2). Oats are also used in other ways, such as grains, fodder, hay, chaff, and straw beds (1). For human consumption, less than 30% produced oat is used and about 70% is used to feed the domesticated animals (3). Owing to high health benefits in oats (presence of dietary fibers and phytochemicals), and to bring variety in oat consumption, various oat-based beverages and oat milk have been attempted to develop. Oat milk is emerging as one of the plant-based or non-dairy milk alternatives (used in coffee/tea) in recent years for its prospective therapeutic value (4).

Oat is an annual crop planted either in autumn for harvesting in late summer or planted around spring and harvested in early autumn. However, the majority of the oat cultivation is done in spring. Autumn sowing is practiced in either higher altitudes or in regions, which are hot and dry (3).

The oat plant is usually erect, semi-erect or prostrate in the early stage of growth and forms a rosette. The shoot contains foliage leaves. The panicle contains a central stem and branches. Each central stem and lateral branches end in a spikelet or flower (2).

Habitat

Oats can grow on a variety of soils but are better suited to acidic soil than other small cereal grains (1).

Taxonomy

Taxonomic tree of Oat  (5)  
Domain Eukaryota
Kingdom Viridiplantae
Phylum Streptophyta  
Class Magnoliopsida 
Order Poales
Family Poaceae
Genus Avena
Species Avena sativa

Tissue

Each spikelet of oat plant produces two kernels or seeds; often one seed may also be produced. Oat kernel, also called groat, is spindle-shaped and covered with fine hairs. The groat contains seed coat layers, endosperm (rich in starch), and the embryo (2).

Oats are small cereal grains containing the highest grain protein and dietary fiber among all the cereals (1, 3). They are also rich in antioxidants, beta-glucans, unsaturated oils, iron, vitamins, and minerals (3).

Epidemiology

Worldwide distribution

Food allergies with oat are not commonly reported, especially in Asian countries where oats are not as popularly consumed as in European countries (6).

A cross-sectional study with 365 allergic Honduran children (age ranging from 1 to 18 years) showed positive skin prick test (SPT) for oats in 3% (11 out of 365) participants (7).

Worm et al. (2006) extracted a random sample of 13,300 Germans out of which 408 self-reported the prevalence of atopic dermatitis (AD). AD was confirmed in 146 individuals out of which 111 were clinically examined and 28 were diagnosed with active eczema lesions. Among them, 14.8%  had a positive skin prick test (SPT) to oatmeal and barley flour (8).

Boussault et al. (2007) conducted an extensive study on oat sensitization in children with AD in France. The study showed that out of 302 children, 98 (32.5%) were sensitized to oat and among them, 19.2% (58/302) were positive to oat in SPT and 14.6% (44/302) in Atopy patch test (APT) (9).

A study evaluated the prevalence of oat allergy in children diagnosed to have wheat allergy in Maryland, USA. Out of 185 wheat allergic patients, 10% reacted to oat extracts (10).

Risk factors

In children with AD, the application of oat-containing emollients can put them at a high risk of developing epicutaneous sensitization which can further lead to acute food allergies (6).

Environmental Characteristics

Living environment

Oats are grown in cool and moist regions and also in marine climates (3).  They are sensitive to hot and dry temperature conditions (1). Most of the oat production is carried out at 35-65 ° N and 20-46 ° S. Large varieties of oats are available in India owing to its growing habitats, quick re-growth, and high nutritional value (1).

Worldwide distribution

Oats are believed to have originated in the Hindu Kush region, although it is believed that they originated in the western Mediterranean regions (2).
The main producers of oats include the European Union (EU) (particularly Sweden and Finland), Russia, Canada, the United States, and Australia. Together, they account for 77% of total oat production (3).

In regions with severe winters like Scandinavia, Canada, northern states of the US, and higher altitudes, short to midseason oat cultivars are produced (1).

Since the1960s, oat production saw an increase in Germany, while a decline was seen in the US and Canada (1). 

Naked oats originated in Northern China and Mongolia but are now popularly used in Europe (2).

Route of Exposure

Main

Ingestion/consumption of oat cereal can elicit an allergic response (11).

Secondary

Inhalation of oat flour or dust can cause allergic responses (12). 

Clinical Relevance

Oral allergy syndrome and Anaphylaxis

Oats have been found to be linked with the cases of oral allergy symptoms (13). Oat-related food allergies may be induced through the gastrointestinal (GI) tract and skin (6). Contact allergy to oat protein present in moisturizers has also been reported (9). Anaphylaxis associated with oat allergy has also been reported in a few studies (6, 11, 12). 

A 14-year old boy with a history of AD and recurrent croup was presented with pruritus on the pharynx, hands and feet, and facial erythema immediately after drinking oat milk. Previously he also developed oral pruritus upon consumption of oats; however, he was able to tolerate other cereals and even wheat (11).
Another patient, a 62- year old man with a history of ischemic heart disease developed anaphylaxis after ingestion of oat milk. He complained of oropharyngeal pruritus, dyspnea, dysphonia, followed by generalized acute urticaria within 5 minutes of consuming oat milk. He didn’t exercise before taking food and didn’t take any nonsteroidal inflammatory drug (NSAIDs) and no probable triggering cofactors for this severe reaction were identified. He couldn’t tolerate oats but can tolerate other types of cereals (11).

A 7 -year old boy presented with cough, wheezing, and pruritus within 30 minutes of ingesting wheat and oats cereal. He had no previous allergy records and consumed oats for the first time. His serum specific IgE (sIgE) test was higher for oats compared to wheat. These oat specific IgE levels, the reactivity of serum IgE to oat protein and no history of food allergy indicated that the patient may be allergic to oat (14).

A case reported anaphylaxis in an adult male on ingestion of oat milk. This 70-year old man with a past medical history of hypertension and rheumatoid arthritis was presented with an acute episode of palmoplantar pruritus, generalized exanthema, vomiting, nausea, dysphonia, laryngeal and thoracic oppression and hypotension within 10 minutes of ingesting oat milk. He didn’t have an allergy to any other cereal (cross-sensitization to other cereals was absent) and the sensitization was due to oat milk ingestion (12).

Mendonca et al. (2016) reported about a patient who developed angioedema minutes after consuming oatmeal cookies. On subsequent exposures to oat, the patient presented with rash, angioedema and dyspnea (15).

In another case, a 23- year old Japanese woman with a history of AD and bronchial asthma developed general urticaria and dyspnea within 30 minutes of consuming granola containing oats; her symptoms disappeared within several hours with an antihistamine (6).

Cereal- dependent exercise-induced anaphylactic response was observed in a 37-year old woman. On diagnosis, she showed positive SPT to wheat, barley and oats (16).         

Allergic rhinitis and rhino-conjunctivitis

Since a long time, the allergic response such as rhinitis and Baker’s asthma due to inhalation of proteins from oat and cereal flour and dust has been known (12). Pala et al. (2010) reported a case of a 30- year old atopic man complaining of seasonal rhino-conjunctivitis. Since the time he started working as a cereal stocker, he complained of sneezing, chest tightness, dry coughing and wheezing, especially on handling cereal seeds like oats, millets, and Phalaris canariensis (a seed used as bird feed). His symptoms were seen on immediate exposure to the allergen and disappear in the absence of exposure (17).

Asthma

Boussault et al. (2007) studied the prevalence and risk factors associated with oat sensitization in children with a history of AD and found that two out of five patients with positive challenge tests to oats showed symptoms like repeated coughing fits in one and mild asthma attack in other, one developed facial erythema and pruritus and one case showed aggravation of atopic dermatitis lesions. Two patients complained of vomiting, diarrhea and pain in the abdomen. One of the patients presented with both respiratory and cutaneous symptoms (9).

In one case report, a patient was presented with itching upon using a moisturizer containing oatmeal and years later he reported developing urticaria, vomiting and angioedema upon ingestion of milk, mixed cereals and fruits (15).

Prevention and Therapy

Prevention strategies

Avoidance

Avoidance of the particular causative allergen in food allergies is currently the only treatment and avoidance of oats is recommended as a part of multiple-food exclusion (Grimshaw 2006).
In an extensive study of the prevalence of oat allergy in children with AD, a correlation was found between repeated use of cosmetics with oat extracts and food allergy to oats and was suggested to avoid using oat extract containing skincare products (emollients) in children with AD (9).
EU labeling law states the mandatory declaration of oats and other cereals containing gluten (wheat, rye and barley) on the labels of the food items (18).

Molecular Aspects

Allergen Information

Allergens from oats haven’t been characterized by the World Health Organization/ International Union of Immunological Societies (WHO/IUIS) Allergen Nomenclature sub-committee.

A recent case study of two patients presenting with anaphylaxis upon ingestion of oat analyzed the identity of IgE binding proteins and found:

  • 34-35 kDa band in oat protein homologous to wheat allergen Tri a 20.
  • A 22.5 kDa band which was thought to be a 12 S oat seed globulin
  • A 50 kDa band could correspond to 48kDa oat serpin (11).

A study by Varjonen et al. (1995) on children with AD suspected of a food allergy, showed that two protein bands from oats of 46 kDa and 66 kDa were stained by >50% of all sera samples. They concluded that these two proteins could be the major IgE binding proteins in oats (19). Another study also showed a similar prevalence of 66 kDa protein in 84% of 33 patients with anti-IgE stained sera with extracts. They also identified two proteins, at 23 kDa and 42 kDa, as intermediate allergens (20).

In a study with a case of a 23- year old Japanese woman presenting with anaphylaxis upon ingestion of granola containing oats, the main IgE bands in immunoblots were stained at 25 kDa, 30 kDa, 33 kDa and 45 kDa (6).

Cross-reactivity

Cross-reactivity between gliadins from wheat, hordeins from barley, avenins from oats, coixins in Job’s tears, secalins from rye has been observed. A study involving 10 patients (6 girls, 4 boys) aged between 5-15 years with a history of hypersensitivity after wheat consumption was evaluated to see cross-reactivity with other cereals including barley and oats. The cross-reactivity rate to oats was found to be 33.3% (3/9). The study also concluded that IgE mediated reaction to oat may be due to allergens different from wheat gliadin and glutenin extracts (21).

Another research demonstrated the cross-reactivity between millets, rice, corn, and other cereals. Out of 5 patients with positive SPT to millets, 3 patients showed positive SPT to oats, corn, rice, wheat, rye and barley (22).

Sensitization to oats was observed in flood-tolerant, grass pollen allergic patients. Out of 65 subjects, 11 showed sensitization to one or more cereals from oats, maize or rice (Group II) (23).

Compiled By

Author: Turacoz Healthcare Solutions

Reviewer: Dr. Magnus Borres

 

Last reviewed: November 2020

References
  1. Ahmad M, Dar Z, Habib M. A review on oat (Avena sativa L.) as a dual-purpose crop. Scientific research and essays. 2014;9(4):52-9.
  2. Tiwari V. Growth and production of oat and rye. Soils, plant growth and crop production, II Paris, France: Aufl Eolss Publishers Company Limited, Encyclopedia of Life Support Systems (EOLSS), Developed Under the Auspices of the UNESCO Retrieved from http://www eolss net/sample-chapters/c10/E1-05A-18-00 pdf. 2010.
  3. Londoño DM. Laying the foundations for dough-based oat bread. Aula: Wageningen University University; 2014.
  4. Sethi S, Tyagi SK, Anurag RK. Plant-based milk alternatives an emerging segment of functional beverages: a review. J Food Sci Technol. 2016;53(9):3408-23.
  5. NCBI. "National Centre for Biotechnology Information (NCBI), NCBI: txid 4498". Accessed on November 4, 2020.
  6. Ototake Y, Inomata N, Sano S, Takahashi S, Aihara M. A case of an anaphylactic reaction due to oats in granola. Allergol Int. 2015;64(4):386-7.
  7. Gonzales-Gonzalez VA, Diaz AM, Fernandez K, Rivera MF. Prevalence of food allergens sensitization and food allergies in a group of allergic Honduran children. Allergy Asthma Clin Immunol. 2018;14:23.
  8. Worm M, Forschner K, Lee HH, Roehr CC, Edenharter G, Niggemann B, et al. Frequency of atopic dermatitis and relevance of food allergy in adults in Germany. Acta Derm Venereol. 2006;86(2):119-22.
  9. Boussault P, Leaute-Labreze C, Saubusse E, Maurice-Tison S, Perromat M, Roul S, et al. Oat sensitization in children with atopic dermatitis: prevalence, risks and associated factors. Allergy. 2007;62(11):1251-6.
  10. Keet C, Matsui E, Dhillon G, Lenehan P, Wood R. Barley and oat allergy in children with wheat allergy. Journal of Allergy and Clinical Immunology. 2009;123(2):S110.
  11. Tomas-Perez M, Iglesias-Souto FJ, Bartolome B. Oat Allergy: Report on 2 Cases. J Investig Allergol Clin Immunol. 2020;30(3):199-201.
  12. Prados-Castaño M, Piñero-Saavedra M, Leguisamo-Milla S, Pastor C, Cuesta P, Bartolomé B. Anaphylaxis Due to Oat Ingestion. Journal of investigational allergology & clinical immunology. 2016;26(1):68.
  13. Skypala IJ. Food-Induced Anaphylaxis: Role of Hidden Allergens and Cofactors. Front Immunol. 2019;10:673.
  14. Inuo C, Kondo Y, Itagaki Y, Kurihara K, Tsuge I, Yoshikawa T, et al. Anaphylactic reaction to dietary oats. Ann Allergy Asthma Immunol. 2013;110(4):305-6.
  15. Mendonco JG, Castro RA, Cordova PT, Meireles PR, al. e. Cross-Reactivity Among Cereal Grains. J ALLERGY CLIN IMMUNOL. 2016;137.
  16. Varjonen E, Vainio E, Kalimo K. Life-threatening, recurrent anaphylaxis caused by allergy to gliadin and exercise. Clin Exp Allergy. 1997;27(2):162-6.
  17. Pala G, Pignatti P, Perfetti L, Moscato G. An Uncommon case of occupational rhinitis and asthma. EACCI. 2010.
  18. Grimshaw KE. Dietary management of food allergy in children. Proc Nutr Soc. 2006;65(4):412-7.
  19. Varjonen E, Vainio E, Kalimo K, Juntunen-Backman K, Savolainen J. Skin-prick test and RAST responses to cereals in children with atopic dermatitis. Characterization of IgE-binding components in wheat and oats by an immunoblotting method. Clin Exp Allergy. 1995;25(11):1100-7.
  20. Varjonen E, Savolainen J, Mattila L, Kalimo K. IgE-binding components of wheat, rye, barley and oats recognized by immunoblotting analysis with sera from adult atopic dermatitis patients. Clin Exp Allergy. 1994;24(5):481-9.
  21. Srisuwatchari W, Piboonpocanun S, Wangthan U, Jirapongsananuruk O, Visitsunthorn N, Pacharn P. Clinical and in vitro cross-reactivity of cereal grains in children with IgE-mediated wheat allergy. Allergol Immunopathol (Madr). 2020.
  22. Hemmer W, Sesztak-Greinecker G, Wohrl S, Wantke F. Food allergy to millet and cross-reactivity with rice, corn and other cereals. Allergol Int. 2017;66(3):490-2.
  23. Martens M, Schnoor HJ, Malling HJ, Poulsen LK. Sensitization to cereals and peanut evidenced by skin prick test and specific IgE in food-tolerant, grass pollen allergic patients. Clin Transl Allergy. 2011;1(1):15.