Jump to content

Gluten

From Wikipedia, the free encyclopedia
(Redirected from Glutenous)
Examples of sources of gluten (clockwise from top): wheat as flour, spelt, barley, and rye as rolled flakes

Gluten is a structural protein naturally found in certain cereal grains.[1] The term gluten usually refers to the elastic network of a wheat grain's proteins, gliadin and glutenin primarily, that forms readily with the addition of water and often kneading in the case of bread dough.[2] The types of grains that contain gluten include all species of wheat (common wheat, durum, spelt, khorasan, emmer and einkorn), and barley, rye, and some cultivars of oat; moreover, cross hybrids of any of these cereal grains also contain gluten, e.g. triticale.[3][4] Gluten makes up 75–85% of the total protein in bread wheat.[5]

Glutens, especially Triticeae glutens, have unique viscoelastic and adhesive properties, which give dough its elasticity, helping it rise and keep its shape and often leaving the final product with a chewy texture.[5][6][7] These properties, and its relatively low cost, make gluten valuable to both food and non-food industries.[7]

Wheat gluten is composed of mainly two types of proteins: the glutenins[8] and the gliadins,[9] which in turn can be divided into high molecular and low molecular glutenins and α/β, γ and Ω gliadins. Its homologous seed storage proteins, in barley, are referred to as hordeins, in rye, secalins, and in oats, avenins.[10] These protein classes are collectively referred to as "gluten".[4] The storage proteins in other grains, such as maize (zeins) and rice (rice protein), are sometimes called gluten, but they do not cause harmful effects in people with celiac disease.[3]

Bread produced from wheat grains contains gluten.

Gluten can trigger adverse, inflammatory, immunological, and autoimmune reactions in some people. The spectrum of gluten related disorders includes celiac disease in 1–2% of the general population, non-celiac gluten sensitivity in 0.5–13% of the general population, as well as dermatitis herpetiformis, gluten ataxia and other neurological disorders.[11][12][13][14] These disorders are treated by a gluten-free diet.[14]

Uses

[edit]
Wheat, a prime source of gluten

Bread products

[edit]

Gluten forms when glutenin molecules cross-link via disulfide bonds to form a submicroscopic network attached to gliadin, which contributes viscosity (thickness) and extensibility to the mix.[5][15] If this dough is leavened with yeast, fermentation produces carbon dioxide bubbles, which, trapped by the gluten network, cause the dough to rise. Baking coagulates the gluten, which, along with starch, stabilizes the shape of the final product. Gluten content has been implicated as a factor in the staling of bread, possibly because it binds water through hydration.[16][17]

Cross-section of a baguette showing a strong gluten network

The formation of gluten affects the texture of the baked goods.[5] Gluten's attainable elasticity is proportional to its content of glutenins with low molecular weights, as this portion contains the preponderance of the sulfur atoms responsible for the cross-linking in the gluten network.[18][19] Using flour with higher gluten content leads to chewier doughs such as those found in pizza and bagels, while using flour with less gluten content yields tender baked goods such as pastry products.[20]

Generally, bread flours are high in gluten (hard wheat); pastry flours have a lower gluten content. Kneading promotes the formation of gluten strands and cross-links, creating baked products that are chewier (as opposed to more brittle or crumbly). The "chewiness" increases as the dough is kneaded for longer times. An increased moisture content in the dough enhances gluten development,[20] and very wet doughs left to rise for a long time require no kneading (see no-knead bread). Shortening inhibits formation of cross-links and is used, along with diminished water and less kneading, when a tender and flaky product, such as a pie crust, is desired.

The strength and elasticity of gluten in flour is measured in the baking industry using a farinograph. This gives the baker a measurement of quality for different varieties of flours when developing recipes for various baked goods.[5][21][22]

Added gluten

[edit]

In industrial production, a slurry of wheat flour is kneaded vigorously by machinery until the gluten agglomerates into a mass.[23][failed verification] This mass is collected by centrifugation, then transported through several stages integrated in a continuous process. About 65% of the water in the wet gluten is removed by means of a screw press; the remainder is sprayed through an atomizer nozzle into a drying chamber, where it remains at an elevated temperature for a short time to allow the water to evaporate without denaturing the gluten.[citation needed] The process yields a flour-like powder with a 7% moisture content, which is air cooled and pneumatically transported to a receiving vessel. In the final step, the processed gluten is sifted and milled to produce a uniform product.[23]

This flour-like powder, when added to ordinary flour dough, may help improve the dough's ability to increase in volume. The resulting mixture also increases the bread's structural stability and chewiness.[24] Gluten-added dough must be worked vigorously to induce it to rise to its full capacity; an automatic bread machine or food processor may be required for high-gluten kneading.[25] Generally, higher gluten levels are associated with higher overall protein content.[26]

Imitation meats

[edit]
Photo of vegetarian "mock duck" made of wheat gluten in a brine with seasonings.
Gluten is often used in imitation meats (such as this mock duck) to provide supplemental protein in vegetarian diets

Gluten, especially wheat gluten (seitan), is often the basis for imitation meats resembling beef, chicken, duck (see mock duck), fish and pork. When cooked in broth, gluten absorbs some of the surrounding liquid (including the flavor) and becomes firm to the bite.[27][28] This use of gluten is a popular means of adding supplemental protein to many vegetarian diets. In home or restaurant cooking, wheat gluten is prepared from flour by kneading the flour under water, agglomerating the gluten into an elastic network known as a dough, and then washing out the starch.[5]

Other consumer products

[edit]

Gluten is often present in beer and soy sauce, and can be used as a stabilizing agent in more unexpected food products, such as ice cream and ketchup. Foods of this kind may therefore present problems for a small number of consumers because the hidden gluten constitutes a hazard for people with celiac disease and gluten sensitivities. The protein content of some pet foods may also be enhanced by adding gluten.[29]

Gluten is also used in cosmetics, hair products and other dermatological preparations.[30]

Disorders

[edit]

"Gluten-related disorders" is the umbrella term for all diseases triggered by gluten, which include celiac disease (CD), non-celiac gluten sensitivity (NCGS), wheat allergy, [31] gluten ataxia and dermatitis herpetiformis (DH).[13]

Pathophysiological research

[edit]

The gluten peptides are responsible for triggering gluten-related disorders.[32] In people who have celiac disease, the peptides trigger an immune response that causes injury of the intestines, ranging from inflammation to partial or total destruction of the intestinal villi.[33][34] To study mechanisms of this damage, laboratory experiments are done in vitro and in vivo.[35][34] Among the gluten peptides, gliadin has been studied extensively.[32]

In vitro and in vivo studies

[edit]

In the context of celiac disease, gliadin peptides are classified in basic and clinical research as immunogenic, depending on their mechanism of action:[32][36]

At least 50 epitopes of gluten may produce cytotoxic, immunomodulatory, and gut-permeating activities.[38]

The effect of oat peptides (avenins) in celiac people depends on the oat cultivar consumed because of prolamin genes, protein amino acid sequences, and the immunotoxicity of prolamins which vary among oat varieties.[40][41][42] In addition, oat products may be cross-contaminated with the other gluten-containing cereals.[41]

Incidence

[edit]

As of 2017, gluten-related disorders were increasing in frequency in different geographic areas.[39][43][44][45] Some suggested explanations for this increase include the following: the growing westernization of diets,[43] the increasing use of wheat-based foods included in the Mediterranean diet,[46][47] the progressive replacement of rice by wheat in many countries in Asia, the Middle East, and North Africa,[43] the higher content of gluten in bread and bakery products due to the reduction of dough fermentation time,[48][49] and the development in recent years of new types of wheat with a higher amount of cytotoxic gluten peptides,[48][50] However, a 2020 study that grew and analyzed 60 wheat cultivars from between 1891 and 2010 found no changes in albumin/globulin and gluten contents over time. "Overall, the harvest year had a more significant effect on protein composition than the cultivar. At the protein level, we found no evidence to support an increased immunostimulatory potential of modern winter wheat."[51]

Celiac disease

[edit]
Medical animation still showing flattened intestinal villi.

Celiac disease (CD) is a chronic, multiple-organ autoimmune disorder primarily affecting the small intestine caused by the ingestion of wheat, barley, rye, oats, and derivatives, that appears in genetically predisposed people of all ages.[52] CD is not only a gastrointestinal disease, because it may involve several organs and cause an extensive variety of non-gastrointestinal symptoms, and most importantly, it may be apparently asymptomatic.[4][53] Many asymptomatic people become accustomed to living with a chronic bad health status as if it were normal, but they are able to recognize that they actually had symptoms related to celiac disease after starting a gluten-free diet and improvement occurs.[53][54][44] Added difficulties for diagnosis are the fact that serological markers (anti-tissue transglutaminase [TG2]) are not always present[55] and many people may have minor mucosal lesions, without atrophy of the intestinal villi.[56]

CD affects approximately 1–2% of the general population,[11] but most cases remain unrecognized, undiagnosed and untreated, and at risk for serious long-term health complications.[11][44][57][58] People may suffer severe disease symptoms and be subjected to extensive investigations for many years, before a proper diagnosis is achieved.[54] Untreated CD may cause malabsorption, reduced quality of life, iron deficiency, osteoporosis, an increased risk of intestinal lymphomas, and greater mortality.[59] CD is associated with some other autoimmune diseases, such as diabetes mellitus type 1, thyroiditis,[60] gluten ataxia, psoriasis, vitiligo, autoimmune hepatitis, dermatitis herpetiformis, primary sclerosing cholangitis, and more.[52][60]

CD with "classic symptoms", which include gastrointestinal manifestations such as chronic diarrhea and abdominal distention, malabsorption, loss of appetite, and impaired growth, is currently the least common presentation form of the disease and affects predominantly small children generally younger than two years of age.[52][54][57]

CD with "non-classic symptoms" is the most common clinical type[54] and occurs in older children (over two years old),[54] adolescents, and adults.[54] It is characterized by milder or even absent gastrointestinal symptoms and a wide spectrum of non-intestinal manifestations that can involve any organ of the body, and very frequently may be completely asymptomatic[57] both in children (at least in 43% of the cases[61]) and adults.[57]

Asymptomatic CD (ACD) is present in the majority of affected patients and is characterized by the absence of classical gluten-intolerance signs, such as diarrhea, bloating, and abdominal pain. Nevertheless, these individuals very often develop diseases that can be related with gluten intake. Gluten can be degraded into several morphine-like substances, named gluten exorphins. These compounds have proven opioid effects and could mask the deleterious effects of gluten protein on gastrointestinal lining and function.[62]

Non-celiac gluten sensitivity

[edit]

Non-celiac gluten sensitivity (NCGS) is described as a condition of multiple symptoms that improves when switching to a gluten-free diet, after celiac disease and wheat allergy are excluded.[63][64] Recognized since 2010,[65][66] it is included among gluten-related disorders.[65] Its pathogenesis is not yet well understood, but the activation of the innate immune system, the direct negative effects of gluten and probably other wheat components, are implicated.[66][37]

NCGS is the most common syndrome of gluten intolerance,[65][67] with a prevalence estimated to be 6-10%.[12] NCGS is becoming a more common diagnosis, but its true prevalence is difficult to determine because many people self-diagnose and start a gluten-free diet, without having previously tested for celiac disease or having the dietary prescription from a physician.[68] People with NCGS and gastrointestinal symptoms remain habitually in a "no man's land", without being recognized by the specialists and lacking the adequate medical care and treatment.[69] Most of these people have a long history of health complaints and unsuccessful consultations with numerous physicians, trying to get a diagnosis of celiac disease, but they are only labeled as irritable bowel syndrome.[69][70] A consistent although undefined number of people eliminate gluten because they identify it as responsible for their symptoms and these improve with the gluten-free diet, so they self-diagnose as NCGS.[69][70]

People with NCGS may develop gastrointestinal symptoms, which resemble those of irritable bowel syndrome or wheat allergy,[65][37] or a wide variety of non-gastrointestinal symptoms, such as headache, chronic fatigue, fibromyalgia, atopic diseases, allergies, neurological diseases, or psychiatric disorders, among others.[59][66][71] The results of a 2017 study suggest that NCGS may be a chronic disorder, as is the case with celiac disease.[72]

Besides gluten, additional components present in wheat, rye, barley, oats, and their derivatives, including other proteins called amylase-trypsin inhibitors (ATIs) and short-chain carbohydrates known as FODMAPs, may cause NCGS symptoms.[66] As of 2019, reviews conclude that although FODMAPs present in wheat and related grains may play a role in non-celiac gluten sensitivity, they only explain certain gastrointestinal symptoms, such as bloating, but not the extra-digestive symptoms that people with non-celiac gluten sensitivity may develop, such as neurological disorders, fibromyalgia, psychological disturbances, and dermatitis.[73][72][66] ATIs may cause toll-like receptor 4 (TLR4)-mediated intestinal inflammation in humans.[74][75]

Wheat allergy

[edit]

People can also experience adverse effects of wheat as result of a wheat allergy. [76] As with most allergies, a wheat allergy causes the immune system to respond abnormally to a component of wheat that it treats as a threatening foreign body. This immune response is often time-limited and does not cause lasting harm to body tissues.[77] Wheat allergy and celiac disease are different disorders. [78] [58][79] Gastrointestinal symptoms of wheat allergy are similar to those of celiac disease and non-celiac gluten sensitivity, but there is a different interval between exposure to wheat and onset of symptoms. An allergic reaction to wheat has a fast onset (from minutes to hours) after the consumption of food containing wheat and could include anaphylaxis.[55]

Gluten ataxia

[edit]
A male with gluten ataxia: previous situation and evolution after three months of gluten-free diet

Gluten ataxia is an autoimmune disease triggered by the ingestion of gluten.[80] With gluten ataxia, damage takes place in the cerebellum, the balance center of the brain that controls coordination and complex movements like walking, speaking and swallowing, with loss of Purkinje cells. People with gluten ataxia usually present gait abnormality or incoordination and tremor of the upper limbs. Gaze-evoked nystagmus and other ocular signs of cerebellar dysfunction are common. Myoclonus, palatal tremor, and opsoclonus-myoclonus may also appear.[81]

Early diagnosis and treatment with a gluten-free diet can improve ataxia and prevent its progression. The effectiveness of the treatment depends on the elapsed time from the onset of the ataxia until diagnosis, because the death of neurons in the cerebellum as a result of gluten exposure is irreversible.[81][82]

Gluten ataxia accounts for 40% of ataxias of unknown origin and 15% of all ataxias.[81][83] Less than 10% of people with gluten ataxia present any gastrointestinal symptom, yet about 40% have intestinal damage.[81]

Other neurological disorders

[edit]

In addition to gluten ataxia, gluten sensitivity can cause a wide spectrum of neurological disorders, which develop with or without the presence of digestive symptoms or intestinal damage.[14] These include peripheral neuropathy, epilepsy, headache, encephalopathy, vascular dementia, and various movement disorders (restless legs syndrome, chorea, parkinsonism, Tourette syndrome, palatal tremor, myoclonus, dystonia, opsoclonus myoclonus syndrome, paroxysms, dyskinesia, myorhythmia, myokymia).[14][84]

The diagnosis of underlying gluten sensitivity is complicated and delayed when there are no digestive symptoms. People who do experience gastrointestinal problems are more likely to receive a correct diagnosis and treatment. A strict gluten-free diet is the first-line treatment, which should be started as soon as possible. It is effective in most of these disorders. When dementia has progressed to an advanced degree, the diet has no beneficial effect. Cortical myoclonus appears to be treatment-resistant on both gluten-free diet and immunosuppression.[14]

Labeling

[edit]

People with gluten-related disorders have to remove gluten from their diet strictly, so they need clear labeling rules.[85] The term "gluten-free" is generally used to indicate a supposed harmless level of gluten rather than a complete absence.[86] The exact level at which gluten is harmless is uncertain and controversial. A 2008 systematic review tentatively concluded that consumption of less than 10 mg of gluten per day is unlikely to cause intestinal damage in people with celiac disease, although it noted that few reliable studies had been done.[86] Regulation of the label "gluten-free" varies.[85]

International standards

[edit]

The Codex Alimentarius international standards for food labeling has a standard relating to the labeling of products as "gluten-free". It only applies to foods that would normally contain gluten.[87]

Brazil

[edit]

By law in Brazil, all food products must display labels clearly indicating whether or not they contain gluten.[88]

Canada

[edit]

Labels for all food products sold in Canada must clearly identify the presence of gluten if it is present at a level greater than 20 parts per million.[89]

European Union and United Kingdom

[edit]

In the European Union, all prepackaged foods and non-prepacked foods from a restaurant, take-out food wrapped just before sale, or unpackaged food served in institutions must be identified if gluten-free.[90] "Gluten-free" is defined as 20 parts per million of gluten or less and "very low gluten" is 100 parts per million of gluten or less; only foods with cereal ingredients processed to remove gluten can claim "very low gluten" on labels.[90] It is not allowed to label food as "gluten-free" when all similar food is naturally gluten-free, such as in the case of milk.[91]

All foods containing gluten as an ingredient must be labelled accordingly as gluten is defined as one of the 14 recognised EU allergens.[92]

United States

[edit]

In the United States, gluten is not listed on labels unless added as a standalone ingredient. Wheat or other allergens are listed after the ingredient line. The US Food and Drug Administration (FDA) has historically classified gluten as "generally recognized as safe" (GRAS). In August 2013, the FDA issued a final ruling, effective August 2014, that defined the term "gluten-free" for voluntary use in the labeling of foods as meaning that the amount of gluten contained in the food is below 20 parts per million.[93]

See also

[edit]

References

[edit]
  1. ^ Hervé This, « Who discovered the gluten and who discovered its production by lixiviation? », Notes Académiques de l'Académie d'Agriculture de France/Academic Notes from the French Academy of Agriculture, vol. 3, no 3, 2002, p. 1–11
    Shewry PR, Halford NG, Belton PS, Tatham AS (February 2002). "The structure and properties of gluten: an elastic protein from wheat grain". Philos Trans R Soc Lond B Biol Sci. 357 (1418): 133–42. doi:10.1098/rstb.2001.1024. PMC 1692935. PMID 11911770.
  2. ^ McGee, Harold (2007-03-20). On Food and Cooking. Simon and Schuster. p. 521. ISBN 978-1-4165-5637-4.
  3. ^ a b Food and Drug Administration (January 2007). "Food Labeling; Gluten-Free Labeling of Foods" (PDF). Food and Drug Administration. Archived from the original (PDF) on 2007-01-26.
  4. ^ a b c Biesiekierski JR (2017). "What is gluten?". J Gastroenterol Hepatol (Review). 32 (Suppl 1): 78–81. doi:10.1111/jgh.13703. PMID 28244676. Similar proteins to the gliadin found in wheat exist as secalin in rye, hordein in barley, and avenins in oats, and are collectively referred to as 'gluten'. The gluten found in all of these grains has been identified as the component capable of triggering the immune-mediated disorder, celiac disease.
  5. ^ a b c d e f Shewry, P. R.; Halford, N. G.; Belton, P. S.; Tatham, A. S. (2002). "The structure and properties of gluten: An elastic protein from wheat grain". Philosophical Transactions of the Royal Society B: Biological Sciences. 357 (1418): 133–142. doi:10.1098/rstb.2001.1024. PMC 1692935. PMID 11911770.
  6. ^ Lamacchia C, Camarca A, Picascia S, Di Luccia A, Gianfrani C (Jan 29, 2014). "Cereal-based gluten-free food: how to reconcile nutritional and technological properties of wheat proteins with safety for celiac disease patients". Nutrients (Review). 6 (2): 575–90. doi:10.3390/nu6020575. PMC 3942718. PMID 24481131. the distinctive feature that makes wheat unique is, precisely, the visco-elasticity of gluten. When the grain is milled and mixed with water, storage proteins form a dough, capable of retaining gas bubbles. These properties make wheat suitable for the preparation of a great diversity of food products
  7. ^ a b Day L, Augustin MA, Batey IL, Wrigley, CW (February 2006). "Wheat-gluten uses and industry needs". Trends in Food Science & Technology (Review). 17 (2): 82–90. doi:10.1016/j.tifs.2005.10.003. Given the unique properties of wheat gluten, it is not surprising that it has been the subject of intense attention by the food industry. (...) Gluten does have economic benefits over and above the more expensive milk- or soy-protein products (Table 1), and its functional properties, which other products cannot duplicate, give it a unique place among the various protein products. (...) Unlike whey and soy proteins, gluten or wheat proteins are not high in biological value and have not been widely researched for nutritional advantages.
  8. ^ Payne, P. I. (2012-12-06). "Endosperm Proteins". In Blonstein, A. D.; King, P. J. (eds.). A Genetic Approach to Plant Biochemistry. Springer. p. 210. ISBN 978-3-7091-6989-6.
  9. ^ Zhao, Hefei (February 2020). "Comparison of wheat, soybean, rice, and pea protein properties for effective applications in food products". Journal of Food Biochemistry. (44)4 (4): e13157. doi:10.1111/jfbc.13157. PMID 32020651. S2CID 211034183.
  10. ^ Rosentrater, Kurt A.; Evers, A.D. (2018). "Chemical components and nutrition". Kent's Technology of Cereals. pp. 267–368. doi:10.1016/B978-0-08-100529-3.00004-9. ISBN 978-0-08-100529-3.
  11. ^ a b c Lundin KE, Wijmenga C (Sep 2015). "Coeliac disease and autoimmune disease-genetic overlap and screening". Nat Rev Gastroenterol Hepatol. 12 (9): 507–15. doi:10.1038/nrgastro.2015.136. PMID 26303674. S2CID 24533103.
  12. ^ a b Molina-Infante J, Santolaria S, Montoro M, Esteve M, Fernández-Bañares F (2014). "[Non-celiac gluten sensitivity: a critical review of current evidence] [Article in Spanish]". Gastroenterol Hepatol. 37 (6): 362–71. doi:10.1016/j.gastrohep.2014.01.005. PMID 24667093.
  13. ^ a b Ludvigsson JF, Leffler DA, Bai JC, Biagi F, Fasano A, Green PH, Hadjivassiliou M, Kaukinen K, Kelly CP, Leonard JN, Lundin KE, Murray JA, Sanders DS, Walker MM, Zingone F, Ciacci C (January 2013). "The Oslo definitions for coeliac disease and related terms". Gut (Review). 62 (1): 43–52. doi:10.1136/gutjnl-2011-301346. PMC 3440559. PMID 22345659.
  14. ^ a b c d e Zis P, Hadjivassiliou M (26 February 2019). "Treatment of Neurological Manifestations of Gluten Sensitivity and Coeliac Disease". Curr Treat Options Neurol (Review). 21 (3): 10. doi:10.1007/s11940-019-0552-7. PMID 30806821.
  15. ^ Woychick, JH; et al. "The Gluten Proteins and Deamidated Soluble Wheat Protein". Archived from the original on 12 August 2009. Retrieved 8 September 2009.
  16. ^ Sahlström, S.; Bråthen, E. (January 1997). "Effects of enzyme preparations for baking, mixing time and resting time on bread quality and bread staling". Food Chemistry. 58 (1–2): 75–80. doi:10.1016/S0308-8146(96)00216-6.
  17. ^ Magnus, E.M.; Bråthen, E.; Sahlström, S.; Færgestad, E.Mosleth; Ellekjær, M.R. (May 1997). "Effects of Wheat Variety and Processing Conditions in Experimental Bread Baking Studied by Univariate and Multivariate Analyses". Journal of Cereal Science. 25 (3): 289–301. doi:10.1006/jcrs.1996.0094.
  18. ^ Edwards, N. M.; Mulvaney, S. J.; Scanlon, M. G.; Dexter, J. E. (November 2003). "Role of Gluten and Its Components in Determining Durum Semolina Dough Viscoelastic Properties". Cereal Chemistry. 80 (6): 755–763. doi:10.1094/CCHEM.2003.80.6.755.
  19. ^ Tosi, Paola; Masci, Stefania; Giovangrossi, Angela; D’Ovidio, Renato; Bekes, Frank; Larroque, Oscar; Napier, Johnathan; Shewry, Peter (September 2005). "Modification of the Low Molecular Weight (LMW) Glutenin Composition of Transgenic Durum Wheat: Effects on Glutenin Polymer Size and Gluten Functionality". Molecular Breeding. 16 (2): 113–126. doi:10.1007/s11032-005-5912-1. S2CID 24914227.
  20. ^ a b "Baking Technology, Bread". Bakersassist. Archived from the original on 2007-08-23. Retrieved 2007-08-14.
  21. ^ "Farinograph". Wheat Quality and Carbohydrate Research. North Dakota State University. 22 September 2014. Archived from the original on 23 December 2014. Retrieved 8 December 2014.
  22. ^ Oliver, JR; Allen, HM (January 1992). "The prediction of bread baking performance using the farinograph and extensograph". Journal of Cereal Science. 15 (1): 79–89. doi:10.1016/S0733-5210(09)80058-1.
  23. ^ a b Sakhare, S. D.; Inamdar, A. A.; Soumya, C; Indrani, D; Rao, G. V. (2013). "Effect of flour particle size on microstructural, rheological and physico-sensory characteristics of bread and south Indian parotta". Journal of Food Science and Technology. 51 (12): 4108–13. doi:10.1007/s13197-013-0939-5. PMC 4252461. PMID 25477689.
  24. ^ Amendola, J.; Rees, N.; Lundberg, D. E. (2002). Understanding Baking.
  25. ^ Eckhardt, L.W.; Butts, D.C. (1997). Rustic European Breads from your Bread Machine.
  26. ^ "Against the Grain". The New Yorker. 3 November 2014. Retrieved 8 December 2014.
  27. ^ Bates, Dorothy R.; Wingate, Colby (1993). Cooking with Gluten and Seitan. Book Publishing Company. p. 128. ISBN 978-0-913990-95-7.
  28. ^ Abramowski, Nicole (11 March 2011). "How to Make Seitan: An Illustrated Guide". Vegan Nom Noms. Retrieved 8 December 2014.
  29. ^ "Pet Foods". International Wheat Gluten Association. Archived from the original on 2007-10-07. Retrieved 14 August 2007.
  30. ^ Humbert, Philippe; Pelletier, Fabien; Dreno, Brigitte; Puzenat, Eve; Aubin, François (1 January 2006). "Gluten intolerance and skin diseases". European Journal of Dermatology. 16 (1): 4–11. PMID 16436335.
  31. ^ Costantino A, Aversano GM, Lasagni G, Smania V, Doneda L, Vecchi M, Roncoroni L, Pastorello EA, Elli L. Diagnostic management of patients reporting symptoms after wheat ingestion. Front Nutr. 2022 Oct 6;9:1007007. doi: 10.3389/fnut.2022.1007007. PMID: 36276818; PMCID: PMC9582535.
  32. ^ a b c d e f Lammers KM, Herrera MG, Dodero VI (2018). "Translational Chemistry Meets Gluten-Related Disorders". ChemistryOpen (Review). 7 (3): 217–232. doi:10.1002/open.201700197. PMC 5838388. PMID 29531885.
  33. ^ Dickson BC, Streutker CJ, Chetty R (2006). "Coeliac disease: an update for pathologists". J Clin Pathol (Review). 59 (10): 1008–16. doi:10.1136/jcp.2005.035345. PMC 1861744. PMID 17021129.
  34. ^ a b Stoven S, Murray JA, Marietta EV (2013). "Latest in vitro and in vivo models of celiac disease". Expert Opin Drug Discov (Review). 8 (4): 445–57. doi:10.1517/17460441.2013.761203. PMC 3605231. PMID 23293929.
  35. ^ Kupfer SS, Jabri B (2012). "Pathophysiology of celiac disease". Gastrointest Endosc Clin N Am (Review). 22 (4): 639–60. doi:10.1016/j.giec.2012.07.003. PMC 3872820. PMID 23083984.
  36. ^ a b Silano M, Vincentini O, De Vincenzi M (2009). "Toxic, immunostimulatory and antagonist gluten peptides in celiac disease". Curr Med Chem (Review). 16 (12): 1489–98. doi:10.2174/092986709787909613. PMID 19355902.
  37. ^ a b c d Elli L, Roncoroni L, Bardella MT (2015). "Non-celiac gluten sensitivity: Time for sifting the grain". World J Gastroenterol (Review). 21 (27): 8221–6. doi:10.3748/wjg.v21.i27.8221. PMC 4507091. PMID 26217073.
  38. ^ a b Fasano A (Jan 2011). "Zonulin and its regulation of intestinal barrier function: the biological door to inflammation, autoimmunity, and cancer". Physiol. Rev. (Review). 91 (1): 151–75. CiteSeerX 10.1.1.653.3967. doi:10.1152/physrev.00003.2008. PMID 21248165. There are at least 50 toxic epitopes in gluten peptides exerting cytotoxic, immunomodulatory, and gut-permeating activities.
  39. ^ a b Leonard MM, Sapone A, Catassi C, Fasano A (2017). "Celiac Disease and Nonceliac Gluten Sensitivity: A Review". JAMA (Review). 318 (7): 647–656. doi:10.1001/jama.2017.9730. PMID 28810029. S2CID 205094729. Previous studies have shown that gliadin can cause an immediate and transient increase in gut permeability. This permeating effect is secondary to the binding of specific undigestible gliadin fragments to the CXCR3 chemokine receptor with subsequent release of zonulin, a modulator of intercellular tight junctions. This process takes place in all individuals who ingest gluten. For the majority, these events do not lead to abnormal consequences. However, these same events can lead to an inflammatory process in genetically predisposed individuals when the immunologic surveillance system mistakenly recognizes gluten as a pathogen.
  40. ^ Penagini F, Dilillo D, Meneghin F, Mameli C, Fabiano V, Zuccotti GV (Nov 18, 2013). "Gluten-free diet in children: an approach to a nutritionally adequate and balanced diet". Nutrients (Review). 5 (11): 4553–65. doi:10.3390/nu5114553. PMC 3847748. PMID 24253052.
  41. ^ a b de Souza MC, Deschênes ME, Laurencelle S, Godet P, Roy CC, Djilali-Saiah I (2016). "Pure Oats as Part of the Canadian Gluten-Free Diet in Celiac Disease: The Need to Revisit the Issue". Can J Gastroenterol Hepatol (Review). 2016: 1–8. doi:10.1155/2016/1576360. PMC 4904650. PMID 27446824.
  42. ^ Comino I, Moreno Mde L, Sousa C (Nov 7, 2015). "Role of oats in celiac disease". World J Gastroenterol. 21 (41): 11825–31. doi:10.3748/wjg.v21.i41.11825. PMC 4631980. PMID 26557006. It is necessary to consider that oats include many varieties, containing various amino acid sequences and showing different immunoreactivities associated with toxic prolamins. As a result, several studies have shown that the immunogenicity of oats varies depending on the cultivar consumed. Thus, it is essential to thoroughly study the variety of oats used in a food ingredient before including it in a gluten-free diet.
  43. ^ a b c Tovoli F, Masi C, Guidetti E, Negrini G, Paterini P, Bolondi L (Mar 16, 2015). "Clinical and diagnostic aspects of gluten related disorders". World J Clin Cases (Review). 3 (3): 275–84. doi:10.12998/wjcc.v3.i3.275. PMC 4360499. PMID 25789300.
  44. ^ a b c Lionetti E, Gatti S, Pulvirenti A, Catassi C (Jun 2015). "Celiac disease from a global perspective". Best Pract Res Clin Gastroenterol (Review). 29 (3): 365–79. doi:10.1016/j.bpg.2015.05.004. PMID 26060103.
  45. ^ Sapone A, Bai JC, Ciacci C, Dolinsek J, Green PH, Hadjivassiliou M, Kaukinen K, Rostami K, Sanders DS, Schumann M, Ullrich R, Villalta D, Volta U, Catassi C, Fasano A (2012). "Spectrum of gluten-related disorders: consensus on new nomenclature and classification". BMC Medicine (Review). 10: 13. doi:10.1186/1741-7015-10-13. PMC 3292448. PMID 22313950. Open access icon
  46. ^ Volta U, Caio G, Tovoli F, De Giorgio R (2013). "Non-celiac gluten sensitivity: questions still to be answered despite increasing awareness". Cellular and Molecular Immunology (Review). 10 (5): 383–392. doi:10.1038/cmi.2013.28. PMC 4003198. PMID 23934026.
  47. ^ Guandalini S, Polanco I (Apr 2015). "Nonceliac gluten sensitivity or wheat intolerance syndrome?". J Pediatr (Review). 166 (4): 805–11. doi:10.1016/j.jpeds.2014.12.039. PMID 25662287. The increase in world-wide consumption of a Mediterranean diet, which includes a wide range of wheat-based foods, has possibly contributed to an alarming rise in the incidence of wheat (gluten?)-related disorders.1, 2
  48. ^ a b Volta U, Caio G, Tovoli F, De Giorgio R (September 2013). "Non-celiac gluten sensitivity: questions still to be answered despite increasing awareness". Cellular & Molecular Immunology (Review). 10 (5): 383–92. doi:10.1038/cmi.2013.28. PMC 4003198. PMID 23934026. mechanization of farming and the growing industrial use of pesticides have favored the development of new types of wheat with a higher amount of toxic gluten peptides that cause the development of gluten-related disorders
  49. ^ Gobbetti M, Giuseppe Rizzello C, Di Cagno R, De Angelis M (Apr 2007). "Sourdough lactobacilli and celiac disease". Food Microbiol (Review). 24 (2): 187–96. doi:10.1016/j.fm.2006.07.014. PMID 17008163.
  50. ^ Belderok B (2000). "Developments in bread-making processes". Plant Foods Hum Nutr (Review). 55 (1): 1–86. doi:10.1023/A:1008199314267. PMID 10823487. S2CID 46259398.
  51. ^ Pronin, Darina; Borner, Andreas; Weber, Hans; Scherf, Ann (10 July 2020). "Wheat (Triticum aestivum L.) Breeding from 1891 to 2010 Contributed to Increasing Yield and Glutenin Contents but Decreasing Protein and Gliadin Contents". Journal of Agricultural and Food Chemistry. 68 (46): 13247–13256. doi:10.1021/acs.jafc.0c02815. PMID 32648759. S2CID 220469138.
  52. ^ a b c Caio, Giacomo; Volta, Umberto; Sapone, Anna; Leffler, Daniel A.; De Giorgio, Roberto; Catassi, Carlo; Fasano, Alessio (2019-07-23). "Celiac disease: a comprehensive current review". BMC Medicine. 17 (1): 142. doi:10.1186/s12916-019-1380-z. PMC 6647104. PMID 31331324.
  53. ^ a b "Celiac disease". World Gastroenterology Organisation Global Guidelines. July 2016. Retrieved 23 April 2017.
  54. ^ a b c d e f Ludvigsson JF, Card T, Ciclitira PJ, Swift GL, Nasr I, Sanders DS, Ciacci C (Apr 2015). "Support for patients with celiac disease: A literature review". United European Gastroenterol J. 3 (2): 146–59. doi:10.1177/2050640614562599. PMC 4406900. PMID 25922674.
  55. ^ a b Fasano, A; Catassi, C (December 2012). "Clinical practice. Celiac disease". The New England Journal of Medicine. 367 (25): 2419–26. doi:10.1056/NEJMcp1113994. PMID 23252527.
  56. ^ Bold J, Rostami K (2011). "Gluten tolerance; potential challenges in treatment strategies". Gastroenterol Hepatol Bed Bench. 4 (2): 53–7. PMC 4017406. PMID 24834157.
  57. ^ a b c d Fasano A (Apr 2005). "Clinical presentation of celiac disease in the pediatric population". Gastroenterology. 128 (4 Suppl 1): S68–73. doi:10.1053/j.gastro.2005.02.015. PMID 15825129.
  58. ^ a b Elli L, Branchi F, Tomba C, Villalta D, Norsa L, Ferretti F, Roncoroni L, Bardella MT (Jun 2015). "Diagnosis of gluten related disorders: Celiac disease, wheat allergy and non-celiac gluten sensitivity". World J Gastroenterol. 21 (23): 7110–9. doi:10.3748/wjg.v21.i23.7110. PMC 4476872. PMID 26109797.
  59. ^ a b Lebwohl B, Ludvigsson JF, Green PH (Oct 2015). "Celiac disease and non-celiac gluten sensitivity". BMJ (Review). 351: h4347. doi:10.1136/bmj.h4347. PMC 4596973. PMID 26438584.
  60. ^ a b Lundin KE, Wijmenga C (Sep 2015). "Coeliac disease and autoimmune disease-genetic overlap and screening". Nat Rev Gastroenterol Hepatol. 12 (9): 507–15. doi:10.1038/nrgastro.2015.136. PMID 26303674. S2CID 24533103.
  61. ^ Vriezinga SL, Schweizer JJ, Koning F, Mearin ML (Sep 2015). "Coeliac disease and gluten-related disorders in childhood". Nature Reviews. Gastroenterology & Hepatology (Review). 12 (9): 527–36. doi:10.1038/nrgastro.2015.98. PMID 26100369. S2CID 2023530.
  62. ^ Pruimboom, Leo; de Punder, Karin (24 November 2015). "The opioid effects of gluten exorphins: asymptomatic celiac disease". Journal of Health, Population, and Nutrition (Review). 33: 24. doi:10.1186/s41043-015-0032-y. PMC 5025969. PMID 26825414.
  63. ^ Mooney, P; Aziz, I; Sanders, D (2013). "Non-celiac gluten sensitivity: clinical relevance and recommendations for future research". Neurogastroenterology & Motility. 25 (11): 864–871. doi:10.1111/nmo.12216. PMID 23937528. S2CID 9277897.
  64. ^ Nijeboer, P; Bontkes, H; Mulder, C; Bouma, G (2013). "Non-celiac gluten sensitivity. Is it in the gluten or the grain?". Journal of Gastrointestinal and Liver Disorders. 22 (4): 435–40. PMID 24369326.
  65. ^ a b c d Catassi C, Bai JC, Bonaz B, Bouma G, Calabrò A, Carroccio A, Castillejo G, Ciacci C, Cristofori F, Dolinsek J, Francavilla R, Elli L, Green P, Holtmeier W, Koehler P, Koletzko S, Meinhold C, Sanders D, Schumann M, Schuppan D, Ullrich R, Vécsei A, Volta U, Zevallos V, Sapone A, Fasano A (Sep 2013). "Non-Celiac Gluten sensitivity: the new frontier of gluten related disorders". Nutrients. 5 (10): 3839–53. doi:10.3390/nu5103839. PMC 3820047. PMID 24077239.
  66. ^ a b c d e Fasano, Alessio; Sapone, Anna; Zevallos, Victor; Schuppan, Detlef (May 2015). "Nonceliac Gluten Sensitivity". Gastroenterology. 148 (6): 1195–1204. doi:10.1053/j.gastro.2014.12.049. PMID 25583468.
  67. ^ Czaja-Bulsa G (Apr 2015). "Non coeliac gluten sensitivity - A new disease with gluten intolerance". Clin Nutr. 34 (2): 189–94. doi:10.1016/j.clnu.2014.08.012. PMID 25245857.
  68. ^ Igbinedion SO, Ansari J, Vasikaran A, Gavins FN, Jordan P, Boktor M, Alexander JS (Oct 2017). "Non-celiac gluten sensitivity: All wheat attack is not celiac". World Journal of Gastroenterology (Review). 23 (20): 7201–10. doi:10.3748/wjg.v23.i40.7201. PMC 5677194. PMID 29142467.
  69. ^ a b c Verdu EF, Armstrong D, Murray JA (2009). "Between celiac disease and irritable bowel syndrome: the "no man's land" of gluten sensitivity". Am J Gastroenterol (Review). 104 (6): 1587–94. doi:10.1038/ajg.2009.188. PMC 3480312. PMID 19455131.
  70. ^ a b Mansueto, Pasquale; Seidita, Aurelio; D'Alcamo, Alberto; Carroccio, Antonio (2014). "Non-Celiac Gluten Sensitivity: Literature Review". Journal of the American College of Nutrition (Review). 33 (1): 39–54. doi:10.1080/07315724.2014.869996. hdl:10447/90208. PMID 24533607. S2CID 22521576.
  71. ^ Volta U, Caio G, De Giorgio R, Henriksen C, Skodje G, Lundin KE (Jun 2015). "Non-celiac gluten sensitivity: a work-in-progress entity in the spectrum of wheat-related disorders". Best Pract Res Clin Gastroenterol. 29 (3): 477–91. doi:10.1016/j.bpg.2015.04.006. PMID 26060112.
  72. ^ a b Volta U, De Giorgio R, Caio G, Uhde M, Manfredini R, Alaedini A (March 2019). "Nonceliac Wheat Sensitivity: An Immune-Mediated Condition with Systemic Manifestations". Gastroenterol Clin North Am (Review). 48 (1): 165–182. doi:10.1016/j.gtc.2018.09.012. PMC 6364564. PMID 30711208. Furthermore, a role for the FODMAP (eg, fructans) component of wheat as the sole trigger for symptoms is somewhat doubtful, because many patients with NCWS report resolution of symptoms after the withdrawal of wheat and related cereals, while continuing to ingest vegetables and fruits with high FODMAP content in their diets.59 On the whole, it is conceivable that more than one culprit may be involved in symptoms of NCWS (as they are currently defined), including gluten, other wheat proteins, and FODMAPs.60–62
  73. ^ Verbeke, K (February 2018). "Nonceliac Gluten Sensitivity: What Is the Culprit?". Gastroenterology. 154 (3): 471–473. doi:10.1053/j.gastro.2018.01.013. PMID 29337156. Although intolerance to fructans and other FODMAPs may contribute to NCGS, they may only explain gastrointestinal symptoms and not the extraintestinal symptoms observed in NCGS patients, such as neurologic dysfunction, psychological disturbances, fibromyalgia, and skin rash.15 Therefore, it is unlikely that they are the sole cause of NCGS.
  74. ^ Barone, Maria; Troncone, Riccardo; Auricchio, Salvatore (2014). "Gliadin Peptides as Triggers of the Proliferative and Stress/Innate Immune Response of the Celiac Small Intestinal Mucosa". International Journal of Molecular Sciences (Review). 15 (11): 20518–20537. doi:10.3390/ijms151120518. PMC 4264181. PMID 25387079.
  75. ^ Junker, Y.; Zeissig, S.; Kim, S.-J.; Barisani, D.; Wieser, H.; Leffler, D. A.; Zevallos, V.; Libermann, T. A.; Dillon, S.; Freitag, T. L.; Kelly, C. P.; Schuppan, D. (2012). "Wheat amylase trypsin inhibitors drive intestinal inflammation via activation of toll-like receptor 4". Journal of Experimental Medicine. 209 (13): 2395–2408. doi:10.1084/jem.20102660. PMC 3526354. PMID 23209313.
  76. ^ Costantino A, Aversano GM, Lasagni G, Smania V, Doneda L, Vecchi M, Roncoroni L, Pastorello EA, Elli L. Diagnostic management of patients reporting symptoms after wheat ingestion. Front Nutr. 2022 Oct 6;9:1007007. doi: 10.3389/fnut.2022.1007007. PMID: 36276818; PMCID: PMC9582535.
  77. ^ "What's the difference between celiac disease, gluten intolerance, non-celiac gluten sensitivity and wheat allergy?". The University of Chicago Celiac Disease Center. 2015. Retrieved 4 January 2015.
  78. ^ Costantino A, Aversano GM, Lasagni G, Smania V, Doneda L, Vecchi M, Roncoroni L, Pastorello EA, Elli L. Diagnostic management of patients reporting symptoms after wheat ingestion. Front Nutr. 2022 Oct 6;9:1007007. doi: 10.3389/fnut.2022.1007007. PMID: 36276818; PMCID: PMC9582535.
  79. ^ "Food intolerance and coeliac disease" (PDF). Food Standards Agency. September 2006. Archived from the original (PDF) on 15 October 2012. Retrieved 8 September 2009.
  80. ^ Sapone A, Bai JC, Ciacci C, Dolinsek J, Green PH, Hadjivassiliou M, Kaukinen K, Rostami K, Sanders DS, Schumann M, Ullrich R, Villalta D, Volta U, Catassi C, Fasano A (2012). "Spectrum of gluten-related disorders: consensus on new nomenclature and classification". BMC Medicine (Review). 10: 13. doi:10.1186/1741-7015-10-13. PMC 3292448. PMID 22313950.
  81. ^ a b c d Hadjivassiliou M, Sanders DD, Aeschlimann DP (2015). "Gluten-related disorders: gluten ataxia". Dig Dis (Review). 33 (2): 264–8. doi:10.1159/000369509. PMID 25925933. S2CID 207673823.
  82. ^ Mitoma H, Adhikari K, Aeschlimann D, Chattopadhyay P, Hadjivassiliou M, Hampe CS, et al. (2016). "Consensus Paper: Neuroimmune Mechanisms of Cerebellar Ataxias". Cerebellum (Review). 15 (2): 213–32. doi:10.1007/s12311-015-0664-x. PMC 4591117. PMID 25823827.
  83. ^ Hadjivassiliou M, Grünewald R, Sharrack B, Sanders D, Lobo A, Williamson C, Woodroofe N, Wood N, Davies-Jones A (March 2003). "Gluten ataxia in perspective: epidemiology, genetic susceptibility and clinical characteristics". Brain. 126 (Pt 3): 685–91. doi:10.1093/brain/awg050. PMID 12566288.
  84. ^ Vinagre-Aragón A, Zis P, Grunewald RA, Hadjivassiliou M (2018). "Movement Disorders Related to Gluten Sensitivity: A Systematic Review". Nutrients (Review). 10 (8): 1034. doi:10.3390/nu10081034. PMC 6115931. PMID 30096784.
  85. ^ a b Diaz-Amigo C, Popping B (2012). "Gluten and gluten-free: issues and considerations of labeling regulations, detection methods, and assay validation". J AOAC Int (Review). 95 (2): 337–48. doi:10.5740/jaoacint.SGE_Diaz-Amigo. PMID 22649917.
  86. ^ a b Akobeng AK, Thomas AG (June 2008). "Systematic review: tolerable amount of gluten for people with coeliac disease". Aliment. Pharmacol. Ther. 27 (11): 1044–52. doi:10.1111/j.1365-2036.2008.03669.x. PMID 18315587. S2CID 20539463.
  87. ^ "Codex Standard For "Gluten-Free Foods" CODEX STAN 118-1981" (PDF). Codex Alimentarius. February 22, 2006.
  88. ^ "General labeling for Packaged Foods (free translation)". Anvisa. July 2014. Archived from the original on 2007-12-06. Retrieved 2014-07-22.
  89. ^ "Health Canada's Position on Gluten-Free Claims". Health Canada. 29 June 2012. Retrieved 28 January 2015.
  90. ^ a b "Labelling of 'gluten free' foods" (PDF). Food Standards Agency. 31 October 2016.
  91. ^ 'Gluten-free' and 'Very Low Gluten' Declarations (Guidance Note 24). Food Safety Authority of Ireland. 2017. ISBN 978-1-904465-71-3. Archived from the original on 16 July 2020. Retrieved 20 February 2023.
  92. ^ "EU Food Information for Consumers Regulation (EU FIC)" (link). Food Standards Agency. March 2016.
  93. ^ "Questions and Answers: Gluten-Free Food Labeling Final Rule". US Food and Drug Administration. 5 August 2014. Retrieved 4 January 2015.

Further reading

[edit]