Investigating the possibility of producing celiac bread using Lactic Acid Corn sourdough using Lactobacillus plantarum At two levels of 5 and 10 %

Authors
Mozhdeh Fazel Tehrani Moghadam 1
Hossein Jalali 2
Abdorreza Mohammadi Nafchi 3
Leila Nouri 2
1 PhD student in Food Science and Technology, food microbiology, Islamic Azad University, Damghan, Iran
2 Assistant professor, Department of Food Science and Technology, Islamic Azad University, Damghan, Iran
3 Associate Professor, Food Technology Division, School of Industrial Technology, Universiti Sains Malaysia, 11800, Penang, Malaysia
10.52547/fsct.18.118.213
Abstract
Celiac disease is a long-term autoimmune disorder that primarily affects the small intestine and occurs in susceptible individuals by gluten intake. The basis of treatment for celiac disease is a gluten-free diet. The production of gluten-free breads, as a constant part of the diet of patients with celiac disease, can have a significant impact on the prevention of complications from the disease for patients with it. In this study, the possibility of producing gluten-free bread with the desired quality and high nutritional value was investigated using lactic sourdough. In order to make lactic acid paste, Lactobacillus plantarum DSM20179 microorganism was used as a starter strain and its use in the production of gluten-free bread with corn and rice flour was investigated at two levels of 5 and 10%. Physicochemical experiments performed on bread. These included pH measurement, total acidity (TTA), humidity, tissue measurement, ash content, color changes and general counting of mold and yeast in bread samples. Each treatment was performed in three replications and the results were statistically analyzed. The overall result of this study confirmed the importance of producing rich bread prepared with 5 and 10% lactic yeast with a favorable effect on the sensory and rheological characteristics of bread. in general the results showed that increasing the percentage of dough makes the samples more acceptable.

Keywords: Corn sourdough lactic acid, Lactobacillus Plantarum, Celiac Bread
Keywords
Corn sourdough lactic acid
Lactobacillus plantarum
Celiac bread

Subjects

[1] Saturni, L., G. Ferretti, and T. Bacchetti, The gluten-free diet: safety and nutritional quality. Nutrients, 2010. 2(1): p. 16-34.
[2] Mustalahti, K., et al., The prevalence of celiac disease in Europe: results of a centralized, international mass screening project. Annals of medicine, 2010. 42(8): p. 587-595.
[3] Parzanese, I., et al., Celiac disease: From pathophysiology to treatment. World journal of gastrointestinal pathophysiology, 2017. 8(2): p. 27.
[4] Lazaridou, A., et al., Effects of hydrocolloids on dough rheology and bread quality parameters in gluten-free formulations. Journal of food engineering, 2007. 79(3): p. 1033-1047.
[5] Clarke, C.I., et al., Wheat sourdough fermentation: effects of time and acidification on fundamental rheological properties. Cereal Chemistry, 2004. 81(3): p. 409-417.
[6] Robert, H., et al., Study of the behaviour of Lactobacillus plantarum and Leuconostoc starters during a complete wheat sourdough breadmaking process. LWT-Food Science and Technology, 2006. 39(3): p. 256-265.
[7] Kim, J.H., T. Maeda, and N. Morita, Application of polished‐graded wheat grains for sourdough bread. Cereal chemistry, 2005. 82(2): p. 144-151.
[8] ESTEVE, C.C., C.B. DE BARBER, and M.A. MARTÍNEZ‐ANAYA, Microbial sour doughs influence acidification properties and breadmaking potential of wheat dough. Journal of Food Science, 1994. 59(3): p. 629-633.
[9] Lacaze, G., M. Wick, and S. Cappelle, Emerging fermentation technologies: development of novel sourdoughs. Food Microbiology, 2007. 24(2): p. 155-160.
[10] Katina, K., et al., Optimization of sourdough process for improved sensory profile and texture of wheat bread. LWT-Food Science and Technology, 2006. 39(10): p. 1189-1202.
[11] Prasad, R.S., K.R.H. Rao, and R. Kantha, Software reliability measuring using modified maximum likelihood estimation and SPC. International Journal of Computer Applications, 2011. 21(7): p. 1-5.
[12] Coda, R., et al., Antifungal activity of Wickerhamomyces anomalus and Lactobacillus plantarum during sourdough fermentation: identification of novel compounds and long-term effect during storage of wheat bread. Appl. Environ. Microbiol., 2011. 77(10): p. 3484-3492.
[13] Lioger, D., et al., Sourdough fermentation of wheat fractions rich in fibres before their use in processed food. Journal of the Science of Food and Agriculture, 2007. 87(7): p. 1368-1373.
[14] Gobbetti, M., et al., Biochemistry and physiology of sourdough lactic acid bacteria. Trends in Food Science & Technology, 2005. 16(1-3): p. 57-69.
[15] Crowley, P., et al., The effect of storage time on textural and crumb grain characteristics of sourdough wheat bread. European Food Research and Technology, 2002. 214(6): p. 489-496.
[16] Moroni, A.V., F. Dal Bello, and E.K. Arendt, Sourdough in gluten-free bread-making: an ancient technology to solve a novel issue? Food microbiology, 2009. 26(7): p. 676-684.
[17] Ryan, L., F. Dal Bello, and E. Arendt, The use of sourdough fermented by antifungal LAB to reduce the amount of calcium propionate in bread. International Journal of Food Microbiology, 2008. 125(3): p. 274-278.
[18] Arendt, E.K., L.A. Ryan, and F. Dal Bello, Impact of sourdough on the texture of bread. Food microbiology, 2007. 24(2): p. 165-174.
[19] Moore, M.M., F. Dal Bello, and E.K. Arendt, Sourdough fermented by Lactobacillus plantarum FSTá1. 7 improves the quality and shelf life of gluten-free bread. European Food Research and Technology, 2008. 226(6): p. 1309-1316.