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Yıl 2018, Cilt: 2 Sayı: 3, 114 - 118, 20.09.2018
https://doi.org/10.31015/jaefs.18019

Öz

Kaynakça

  • Alencar NMM, Steel CJ, Alvim ID, deMorais EC, Bolini HMA. (2015). Addition of quinoa and amaranth flour in gluten-free breads: Temporal profile and instrumental analysis. LWT- Food Science and Technology, 32, 1011-1018.
  • Alvarez-Jubete L, Arendt EK, Gallagher E. (2010). Nutiritive value of pseudocereals and their increasing use as functional gluten-free ingredients. Trends in Food Science and Technology, 21, 106-113.
  • Anton AA, Artfield SD. (2008). Hydrocolloids in gluten-free breads; A review. International Journal of Food Sciences and Nutrition, 59, 11-23.
  • Buresova I, Masarikova L, Hirivna L, Kulhonova S, Bures D. (2016). The comparison of the effect of sodium caseinate, calcium caseinate, carboxymethyl cellulose and xanthan gum on rice-buckwheat dough rheological characteristics and textural and sensory quality of bread. LWT, Food Science and Technology, 68, 659-666.
  • Bourekoua H, Rozylo R, Benatallah L, Wojtowicz A, Lysiak G, Zidoune MN, Sujak A. (2018). Characteristics of gluten-free bread: quality improvement by the addition of starches/hydrocolloids and their combinations using a definitive screening design. European Food Research andTechnology, 244, 345-354.
  • Capriles VD, Santos FG, Areas JFG. (2016). Gluten-free breadmaking: Improving nutritional and bioactive compounds. Journal of Cereal Science, 67, 83-91.
  • Demirkesen I, Mert B, Sumnu G, Sahin S. (2010). Rheological properties of gluten-free bread formulations. Journal of Food Engineering, 96, 295-303.
  • Demirkesen I, Sumnu G, Sahin S. (2013). Image Analysis of gluten-free breads prepared with chestnut and rice flour and baked in different ovens. Food and Bioprocess Technology, 6, 1749-1758.
  • Elgeti D, Nordlohne DS, Föste M, Besl M, Linden MH, Heinz V, Jekle M, Becker T. (2014). Volume and texture improvement of gluten-free bread using quinoa white flour. Journal of Cereal Science, 59, 41-47.
  • Ferrero C. (2017). Hydrocolloids in wheat breadmaking: A concise review. Food Hydrocolloids, 68, 15-22.
  • Foschia M, Horstmann S, Arendt EK, Zannini E. 2016. Nutritional therapy-facing the gap between coeliac disease and gluten-free food. International Journal of Food Microbiology, 239, 113-124.
  • Gallagher E, Gormley TR, Arendt EK. (2004). Recent advances in the formulation of gluten-free cereal-based products. Trends in Food Science and Technology, 15, 143-152.
  • Gao Y, Janes ME, Chaiya B, Brennan MA, Brennan CS. (2018). Gluten-free bakery and pasta products: prevalence and quality improvement. International Journal of Food Science and Technology, 53, 19-32.
  • Gomez M, Ronda F, Blanco CA, Caballero PA, Apestegula A. (2003). Effects of dietary fibre on dough rheology and bread quality. European Food Research Technology, 216, 51-56.
  • Gujral SH, Rosell MC. (2004a). Improvement of the baking quality of rice flour by glucose oxidase. Food Research International, 37 (1), 75–81.
  • Gujral SH, Rosell MC. (2004b). Functionality of rice flour modified with a microbial transglutaminase. Journal of Cereal Science, 39 (2), 225–230.
  • Hager AS, Arendt EK.( 2013). Influence of hydroxypropylmethylcellulose (HPMC), xanthan gum and their combination on loaf specific volume, crumb hardness and crumb grain characteristics of gluten-free breads based on rice, maize, teff and buckwheat. Food Hydrocolloids, 32, 195-203.
  • Houben A, Hochstotter A, Becker T. (2012). Possibilities to increase the quality in gluten-free bread production: an overview. European Food Research andTechnology, 235, 195-208.
  • Jnawali P, Kumar V, Tanwar B. (2016). Celiac disease: Overview and considerations for development of gluten-free foods. Food Science and Human Wellness, 5, 169-176.
  • Korus J, Witczak M, Rafal Z, Juszczak L. (2009). The impact of resistant starch on characteristics of gluten-free dough. Food Hydrocolloids, 23, 988-995.
  • Lamacchia C, Camarca A, Picassia S, Di Luccia A, Gianfrani C. (2014). Cereal-based gluten-free food: How to reconcile nutritional and technological properties of wheat proteins with safety for celiac disease patients. Nutrients, 6, 575-590.
  • Lazaridou A, Duta D, Pappageorgiou M, Belc N, Biliaderes C: (2007). Effects of hydrocolloids on dough rheology and bread quality parameters in gluten-free formulations. Journal in Food Engineering, 79 , 1033-1047.
  • Liu X, Mua T, Sun H, Zhang M, Chen J, Fauconnier ML.(2018). Influence of different hydrocolloids on dough thermo-mechanical properties and in vitro starch digestibility of gluten-free steamed bread based on potato flour. Food Chemistry, 239, 1064-1074.
  • Lopez ACB, Pereiira AJG, Junguire RG. (2004). Flour mixture of rice flour, corn and cassava starch in the production of gluten-free white bread. Brezillian Archives of Biology and Technology, 47, 63-70.
  • Mariotti M, Pagani AM, Lucisano M. (2013). The role of buckwheat and HPMCon the breadmaking properties of some commercial gluten-free bread mixtures. Food Hydrocolloids, 30, 393-400.
  • Matos ME, Rosell CM. (2014). Understanding gluten-free dough for reachingbreads with physical quality and nutritional balance. Journal of the Science of Food and Agriculture, 95, 653-661.
  • McCharty DF, Gallagher E, Gormley TR, Schober TJ, Arendt EK. (2005). Application of response surface methodology in the development of gluten-free bread. Cereal Chemistry, 82, 609-615.
  • Mohammadi M, Sadeghnia N, Azizi MA, Neyestani TR, Mortazavian AM. (2014). Development of gluten-free flat bread using hydrocolloids: xanthan andCMC. Journal of Industrial and Engineering Chemistry, 1528, 1-7.
  • Moore MM, Heinbockel M, Dockery P, Ulmer M, Arendt EK. (2006). Network formation in gluten-free bread with application of transglutaminase. CerealChemistry, 83 (1), 28–36.
  • Moreira R, Chenlo F, Torres MD. (2013a). Effect of chia (Sativa hispanica L.) and hydrocolloids on the rheology of gluten-free doughs based on chestnut flour. LWT Food Science and Technology, 50, 160-166.
  • Moreira R, Chenlo F, Torres MD. 2013b. Rheology of gluten-free doughs from blends of chestnut and rice flours. Food and Bioprocess Technology, 6,1476-1485.
  • Morreale F, Garzon R, Rosell CM. 2018. Understanding the role of hydrocolloids viscosity and hydration in developing gluten-free bread. A study with hydroxypropylmethylcellulose. Food Hydrocolloids, 77, 629-635.
  • Naqash F, Gani A, Gani A, Masoodi FA. (2017). Gluten-free baking: Combating the challenges-A review. Trends in Food Science and Technology, 66, 98-107.
  • NicolaeA, Radu GL,Belc N. (2016). Effect of sodium carboxymethyl cellulose on gluten-free dough rheology. Journal of Food Engineering, 168, 16-19.
  • Nunes MHB, Moore MM, Ryan LAM, Arendt EK: (2009). Impact of emulsifiers on the qulity and rheological properties of gluten-free breads and batters. European Food Research and Technology, 228, 633-642.
  • Onyango C, Unbehend G, Lindhauer M.G. (2009). Effect of cellulose-derivatives and emulsifiers on creep-recovery and crumb properties of gluten-free bread prepared from sorghum and gelatinized cassava starch. Food Research International, 42, 949-955.
  • Padalino L, Conte A, Del Nobile MA. (2016). Overwiew on the general approaches to improve gluten-free pasta and bread. Foods, 5, 87, 1-18.
  • Peressini D, Pin M, Sensidoni A. (2011). Rheology and breadmaking performance of rice-buckwheat batters supplemented with hydrocolloids. Food Hydrocolloids, 25 , 340–349.
  • Renzetti S, Dal Bello F, Arendt E.K. (2008). Microstructure, fundamental rheology and baking characteristics of batters and breads from different gluten-freeflours treated with a microbial transglutaminase. Journal of Cereal Science, 48, 33–45.
  • SA Mir, Shah MA, Naik HR. (2016). Influence of hydrocolloids on dough handling and technological properties of gluten-free breads. Trends in Food Science and Technology, 51, 49-57.
  • Sabanis D, Lebesi D, Tzia C. (2009). Effect of dietary fibre enrichment on selected properties of gluten-free bread. LWT- Food Science and Technology, 42, 1380-1389.
  • Sabanis D, Tzia C. (2011). Effect of hydrocolloids on selected properties of gluten-free dough and bread. Food Science and Technology International, 17, 279-291.
  • Sanchez HD, Osella CA, de la Torre MA. (2002). Optimization of gluten-free bread prepared from corn starch, rice flour, and cassava starch. Journal of Food Science, 67 , 416–419.
  • Saturni L, Ferretti G, Bacchetti T. (2010). The Gluten-Free Diet: Safety and Nutritional quality. Nutrients, 2, 16–34.
  • Sciarini LS, Ribotta PD, Alberto EL, Perez GT. (2010). Effect of hydrocolloids on gluten-free batter properties and bread quality. International Journal of Food Science and Technology, 45, 2306-2312.
  • Sciarini LS, RibottaPD, Leon, AE, Perez GT. (2012). Incorporation of several additives into gluten free breads: effect on dough properties and bread quality. Journal of Food Engineering, 111, 590-597.
  • Selomulyo VC, Zhou W.( 2007). Frozen bread dough: Effects of freezing storage and dough improvers. Journal of Cereal Science, 45, 1-17.
  • Talens C, Alvares-Sabtel S, Rios Y, Rodrigue, R.(2017). Effect of new microwave-dried orange fibre ingredient vs. A commercial citrus fibre on texture and sensory properties of gluten-free muffins. Innovative Food Science and Emerging Technologies (article in Press).
  • Tsatsaragkou Κ, Protonotariou S, Mandala I. (2016). Structural role of fibre addition to increase knowledge of non-glutenBread. Journal of Cereal Science, 67, 58-67.
  • Torbica A, Hadnadev M, Dapcˇevic´ T. (2010). Rheological, textural and sensory properties of gluten-free bread formulations based on rice and buckwheat flour. Food Hydrocolloids, 24 (6–7), 626–632.
  • Wang K, Lu F, Li Z, Zhao L, Han C. (2017). Recent developments in gluten-free bread baking approaches: a review. Food Science and Technology, 37, 1-9.

Different formulations in gluten-free bread production: A review

Yıl 2018, Cilt: 2 Sayı: 3, 114 - 118, 20.09.2018
https://doi.org/10.31015/jaefs.18019

Öz

Studies in recent years have shown that the market demand for gluten-free
products is considerably increasing to fulfill celiac patients’ needs. Celiac
disease is a food allergenic disease in humans induced by gluten in wheat,
barley, rye, kamut, spelt and hybrids like triticale. For individuals with this
disease, the one and only cure is to keep away from gluten-containing foods for
perpetuity. Because of this reason, production and development of gluten-free
bakery products, particularly bread because it is a basic food consumed daily
in the world, have become popular and have been improved by the addition of
different cereals, flours and starches, dough treatment or changing processing
conditions and the method of baking. It needs to improve gluten-free bakery
products’ quality because the absence of gluten is a big problem for the
quality of dough and bread. For example, a bread made from gluten free flour
has lower volume, weaker texture and aroma than the traditionally ones . However
the increase of gluten-free market, there are still some problems such as their
high prices, limited variety, and availability and low nutritional quality. This
review focuses on the finding suitable alternatives for gluten free bread to
improve their baking and sensory quality and nutritional properties.









Kaynakça

  • Alencar NMM, Steel CJ, Alvim ID, deMorais EC, Bolini HMA. (2015). Addition of quinoa and amaranth flour in gluten-free breads: Temporal profile and instrumental analysis. LWT- Food Science and Technology, 32, 1011-1018.
  • Alvarez-Jubete L, Arendt EK, Gallagher E. (2010). Nutiritive value of pseudocereals and their increasing use as functional gluten-free ingredients. Trends in Food Science and Technology, 21, 106-113.
  • Anton AA, Artfield SD. (2008). Hydrocolloids in gluten-free breads; A review. International Journal of Food Sciences and Nutrition, 59, 11-23.
  • Buresova I, Masarikova L, Hirivna L, Kulhonova S, Bures D. (2016). The comparison of the effect of sodium caseinate, calcium caseinate, carboxymethyl cellulose and xanthan gum on rice-buckwheat dough rheological characteristics and textural and sensory quality of bread. LWT, Food Science and Technology, 68, 659-666.
  • Bourekoua H, Rozylo R, Benatallah L, Wojtowicz A, Lysiak G, Zidoune MN, Sujak A. (2018). Characteristics of gluten-free bread: quality improvement by the addition of starches/hydrocolloids and their combinations using a definitive screening design. European Food Research andTechnology, 244, 345-354.
  • Capriles VD, Santos FG, Areas JFG. (2016). Gluten-free breadmaking: Improving nutritional and bioactive compounds. Journal of Cereal Science, 67, 83-91.
  • Demirkesen I, Mert B, Sumnu G, Sahin S. (2010). Rheological properties of gluten-free bread formulations. Journal of Food Engineering, 96, 295-303.
  • Demirkesen I, Sumnu G, Sahin S. (2013). Image Analysis of gluten-free breads prepared with chestnut and rice flour and baked in different ovens. Food and Bioprocess Technology, 6, 1749-1758.
  • Elgeti D, Nordlohne DS, Föste M, Besl M, Linden MH, Heinz V, Jekle M, Becker T. (2014). Volume and texture improvement of gluten-free bread using quinoa white flour. Journal of Cereal Science, 59, 41-47.
  • Ferrero C. (2017). Hydrocolloids in wheat breadmaking: A concise review. Food Hydrocolloids, 68, 15-22.
  • Foschia M, Horstmann S, Arendt EK, Zannini E. 2016. Nutritional therapy-facing the gap between coeliac disease and gluten-free food. International Journal of Food Microbiology, 239, 113-124.
  • Gallagher E, Gormley TR, Arendt EK. (2004). Recent advances in the formulation of gluten-free cereal-based products. Trends in Food Science and Technology, 15, 143-152.
  • Gao Y, Janes ME, Chaiya B, Brennan MA, Brennan CS. (2018). Gluten-free bakery and pasta products: prevalence and quality improvement. International Journal of Food Science and Technology, 53, 19-32.
  • Gomez M, Ronda F, Blanco CA, Caballero PA, Apestegula A. (2003). Effects of dietary fibre on dough rheology and bread quality. European Food Research Technology, 216, 51-56.
  • Gujral SH, Rosell MC. (2004a). Improvement of the baking quality of rice flour by glucose oxidase. Food Research International, 37 (1), 75–81.
  • Gujral SH, Rosell MC. (2004b). Functionality of rice flour modified with a microbial transglutaminase. Journal of Cereal Science, 39 (2), 225–230.
  • Hager AS, Arendt EK.( 2013). Influence of hydroxypropylmethylcellulose (HPMC), xanthan gum and their combination on loaf specific volume, crumb hardness and crumb grain characteristics of gluten-free breads based on rice, maize, teff and buckwheat. Food Hydrocolloids, 32, 195-203.
  • Houben A, Hochstotter A, Becker T. (2012). Possibilities to increase the quality in gluten-free bread production: an overview. European Food Research andTechnology, 235, 195-208.
  • Jnawali P, Kumar V, Tanwar B. (2016). Celiac disease: Overview and considerations for development of gluten-free foods. Food Science and Human Wellness, 5, 169-176.
  • Korus J, Witczak M, Rafal Z, Juszczak L. (2009). The impact of resistant starch on characteristics of gluten-free dough. Food Hydrocolloids, 23, 988-995.
  • Lamacchia C, Camarca A, Picassia S, Di Luccia A, Gianfrani C. (2014). Cereal-based gluten-free food: How to reconcile nutritional and technological properties of wheat proteins with safety for celiac disease patients. Nutrients, 6, 575-590.
  • Lazaridou A, Duta D, Pappageorgiou M, Belc N, Biliaderes C: (2007). Effects of hydrocolloids on dough rheology and bread quality parameters in gluten-free formulations. Journal in Food Engineering, 79 , 1033-1047.
  • Liu X, Mua T, Sun H, Zhang M, Chen J, Fauconnier ML.(2018). Influence of different hydrocolloids on dough thermo-mechanical properties and in vitro starch digestibility of gluten-free steamed bread based on potato flour. Food Chemistry, 239, 1064-1074.
  • Lopez ACB, Pereiira AJG, Junguire RG. (2004). Flour mixture of rice flour, corn and cassava starch in the production of gluten-free white bread. Brezillian Archives of Biology and Technology, 47, 63-70.
  • Mariotti M, Pagani AM, Lucisano M. (2013). The role of buckwheat and HPMCon the breadmaking properties of some commercial gluten-free bread mixtures. Food Hydrocolloids, 30, 393-400.
  • Matos ME, Rosell CM. (2014). Understanding gluten-free dough for reachingbreads with physical quality and nutritional balance. Journal of the Science of Food and Agriculture, 95, 653-661.
  • McCharty DF, Gallagher E, Gormley TR, Schober TJ, Arendt EK. (2005). Application of response surface methodology in the development of gluten-free bread. Cereal Chemistry, 82, 609-615.
  • Mohammadi M, Sadeghnia N, Azizi MA, Neyestani TR, Mortazavian AM. (2014). Development of gluten-free flat bread using hydrocolloids: xanthan andCMC. Journal of Industrial and Engineering Chemistry, 1528, 1-7.
  • Moore MM, Heinbockel M, Dockery P, Ulmer M, Arendt EK. (2006). Network formation in gluten-free bread with application of transglutaminase. CerealChemistry, 83 (1), 28–36.
  • Moreira R, Chenlo F, Torres MD. (2013a). Effect of chia (Sativa hispanica L.) and hydrocolloids on the rheology of gluten-free doughs based on chestnut flour. LWT Food Science and Technology, 50, 160-166.
  • Moreira R, Chenlo F, Torres MD. 2013b. Rheology of gluten-free doughs from blends of chestnut and rice flours. Food and Bioprocess Technology, 6,1476-1485.
  • Morreale F, Garzon R, Rosell CM. 2018. Understanding the role of hydrocolloids viscosity and hydration in developing gluten-free bread. A study with hydroxypropylmethylcellulose. Food Hydrocolloids, 77, 629-635.
  • Naqash F, Gani A, Gani A, Masoodi FA. (2017). Gluten-free baking: Combating the challenges-A review. Trends in Food Science and Technology, 66, 98-107.
  • NicolaeA, Radu GL,Belc N. (2016). Effect of sodium carboxymethyl cellulose on gluten-free dough rheology. Journal of Food Engineering, 168, 16-19.
  • Nunes MHB, Moore MM, Ryan LAM, Arendt EK: (2009). Impact of emulsifiers on the qulity and rheological properties of gluten-free breads and batters. European Food Research and Technology, 228, 633-642.
  • Onyango C, Unbehend G, Lindhauer M.G. (2009). Effect of cellulose-derivatives and emulsifiers on creep-recovery and crumb properties of gluten-free bread prepared from sorghum and gelatinized cassava starch. Food Research International, 42, 949-955.
  • Padalino L, Conte A, Del Nobile MA. (2016). Overwiew on the general approaches to improve gluten-free pasta and bread. Foods, 5, 87, 1-18.
  • Peressini D, Pin M, Sensidoni A. (2011). Rheology and breadmaking performance of rice-buckwheat batters supplemented with hydrocolloids. Food Hydrocolloids, 25 , 340–349.
  • Renzetti S, Dal Bello F, Arendt E.K. (2008). Microstructure, fundamental rheology and baking characteristics of batters and breads from different gluten-freeflours treated with a microbial transglutaminase. Journal of Cereal Science, 48, 33–45.
  • SA Mir, Shah MA, Naik HR. (2016). Influence of hydrocolloids on dough handling and technological properties of gluten-free breads. Trends in Food Science and Technology, 51, 49-57.
  • Sabanis D, Lebesi D, Tzia C. (2009). Effect of dietary fibre enrichment on selected properties of gluten-free bread. LWT- Food Science and Technology, 42, 1380-1389.
  • Sabanis D, Tzia C. (2011). Effect of hydrocolloids on selected properties of gluten-free dough and bread. Food Science and Technology International, 17, 279-291.
  • Sanchez HD, Osella CA, de la Torre MA. (2002). Optimization of gluten-free bread prepared from corn starch, rice flour, and cassava starch. Journal of Food Science, 67 , 416–419.
  • Saturni L, Ferretti G, Bacchetti T. (2010). The Gluten-Free Diet: Safety and Nutritional quality. Nutrients, 2, 16–34.
  • Sciarini LS, Ribotta PD, Alberto EL, Perez GT. (2010). Effect of hydrocolloids on gluten-free batter properties and bread quality. International Journal of Food Science and Technology, 45, 2306-2312.
  • Sciarini LS, RibottaPD, Leon, AE, Perez GT. (2012). Incorporation of several additives into gluten free breads: effect on dough properties and bread quality. Journal of Food Engineering, 111, 590-597.
  • Selomulyo VC, Zhou W.( 2007). Frozen bread dough: Effects of freezing storage and dough improvers. Journal of Cereal Science, 45, 1-17.
  • Talens C, Alvares-Sabtel S, Rios Y, Rodrigue, R.(2017). Effect of new microwave-dried orange fibre ingredient vs. A commercial citrus fibre on texture and sensory properties of gluten-free muffins. Innovative Food Science and Emerging Technologies (article in Press).
  • Tsatsaragkou Κ, Protonotariou S, Mandala I. (2016). Structural role of fibre addition to increase knowledge of non-glutenBread. Journal of Cereal Science, 67, 58-67.
  • Torbica A, Hadnadev M, Dapcˇevic´ T. (2010). Rheological, textural and sensory properties of gluten-free bread formulations based on rice and buckwheat flour. Food Hydrocolloids, 24 (6–7), 626–632.
  • Wang K, Lu F, Li Z, Zhao L, Han C. (2017). Recent developments in gluten-free bread baking approaches: a review. Food Science and Technology, 37, 1-9.
Toplam 51 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Gıda Mühendisliği
Bölüm Review
Yazarlar

Basak Sungur 0000-0002-9677-4435

Yayımlanma Tarihi 20 Eylül 2018
Gönderilme Tarihi 8 Haziran 2018
Kabul Tarihi 2 Ağustos 2018
Yayımlandığı Sayı Yıl 2018 Cilt: 2 Sayı: 3

Kaynak Göster

APA Sungur, B. (2018). Different formulations in gluten-free bread production: A review. International Journal of Agriculture Environment and Food Sciences, 2(3), 114-118. https://doi.org/10.31015/jaefs.18019

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