نوع مقاله : کوتاه پژوهشی
نویسندگان
1 گروه علوم و صنایع غذایی، واحد اصفهان (خوراسگان)، دانشگاه آزاد اسلامی، اصفهان، ایران.
2 گروه علوم و صنایع غذایی و مرکز تحقیقات لیزر و بیوفوتونیک در فناوریهای زیستی، واحد اصفهان (خوراسگان)، دانشگاه آزاد اسلامی، اصفهان، ایران.
چکیده
مصرف زیاد سوهان بهدلیل کالری بالا منجر به بروز مشکلاتی نظیر چاقی و دیابت میشود. سلیاک یک اختلال خودایمنی بوده که بیمار در معرض عدم تحمل دائمی به گلوتن است و تنها درمان مؤثر، استفاده از رژیم غذایی بدون گلوتن است. هدف از انجام این تحقیق، تولید سوهان رژیمی کمکالری (جایگزینی شکر با استویا- ایزومالت) فاقد گلوتن (جایگزینی کامل آرد گندم با آرد برنج و ذرت) بود. تأثیر جایگزینی شکر با استویا-ایزومالت (صفر، 25، 50، 75، 100%)، نسبت آرد برنج به ذرت (صفر، 25/0، 50/0، 75/0، 1) و دمای پخت (160، 165، 170، 175، 180درجه سانتیگراد) بر دانسیته، سختی بافت و تغییرات رنگ نمونههای سوهان رژیمی مورد ارزیابی قرار گرفت. مدلسازی و بهینهسازی به روش آماری سطح پاسخ و طرح مرکب مرکزی و 6 نقطه مرکزی و دو تکرار در سایر نقاط با استفاده از نرمافزار دیزاین اکسپرت صورت گرفت. نتایج نشان داد افزایش درصد جایگزینی شکر با استویا- ایزومالت موجب کاهش دانسیته گردید. دانسیته تحت تاثیر فاکتور نسبت آرد برنج به آرد ذرت و دمای پخت قرار نگرفت. در نسبتهای پایین و بالای آرد برنج به ذرت فرمولاسیون، با افزایش جایگزینی شکر با استویا- ایزومالت و یا افزایش دمای پخت، سختی بهترتیب افزایش و کاهش یافت. درصد جایگزینی استویا با شکر و نسبت آرد برنج به ذرت اثر معنیداری بر تغییرات رنگ نداشت، و با افزایش دمای پخت تغییرات رنگ افزایش یافت. د در مجموع با توجه به نوع آرد مصرفی غالب در فرمولاسیون دو فرمول بهینه نهایی شامل سوهان کم کالری با فرمول شماره یک شامل: 24 درصد جایگزینی شکر با استویا-ایزومالت، 99/0 نسبت آرد برنج به ذرت و دمای 166 درجه سانتیگراد (با میزان دانسیته 37/1 گرم بر سانتیمتر مکعب، سختی 85/1 نیوتن و تغییرات رنگ نسبت به شاهد 66/3) و فرمول شماره دو شامل: 24 درصد جایگزینی شکر با استویا- ایزومالت، 02/0 نسبت آرد برنج به ذرت و دمای 180 درجه سانتیگراد (با میزان دانسیته 23/1 گرم بر سانتیمتر مکعب، سختی 07/2 نیوتن و تغییرات رنگ نسبت به شاهد 16/10) بهعنوان بهترین تیمارها معرفی گردید.
کلیدواژهها
موضوعات
عنوان مقاله [English]
Dietary Sohan-Polaki production for diabetic and celiac patients by replacing sucrose with Stevioside-Isomalt and complete replacement of wheat flour with rice-corn flour
نویسندگان [English]
- Narjes Babaei 1
- Mohammad Goli 2
1 Department of Food Science and Technology, Isfahan (Khorasgan) Branch, Islamic Azad University, Isfahan, Iran
2 Department of Food Science and Technology, and Laser and Biophotonics in Biotechnologies Research Center, Isfahan (Khorasgan) Branch, Islamic Azad University, Isfahan, Iran.
چکیده [English]
Introduction: Diabetes recognized as one of the most important health problems and the most common metabolic disease in the world. The prevalence of diabetes is increasing worldwide, including in Iran (Forouhi & Wareham, 2010). Celiac is a disease in which the mucous membrane of the small intestine of a person with wheat gluten intolerance damaged by gluten and causes intestinal inflammation (Hopper et al., 2007). Stevia rebaudiana bertoni belongs to the Astrasse family, a perennial natural, calorie-free sweetener that has a sweetening power of 100 to 400 times greater than sucrose (Agarwal et al., 2009). Isomalt, a polyol, used as sugars substitute (sucrose, high fructose corn syrup, glucose syrup, etc.) (Schiweck and Munir, 1992). This study aimed at producing dietary Sohan-Pilaki for diabetic and celiac patients using replacement of sucrose with Stevia-Isomalt and the complete replacement of wheat flour with rice-corn flour. Rice and corn flour used to improve the textural and nutritional properties.
Material and Methods: For production of dietary Sohan-Polaki, the raw materials (white sugar 40.03%, sorbitol liquid 16.01%, vegetable oil 32.03%) transferred to the kettle for melting over a gentle flame followed by adding the rest materials such as rice and corn flour (8.1%), egg yolk (3.2%) and cardamom (0.72%). The final dough then poured into the tray container after splicing and finishing the production operation and after being chilled and formed to the required dimensions by the forming machine. For the preparation of dietary Sohan-Polaki, independent variables were included, replacement of Stevia-Isomalt with surface (0 to 100%), rice to corn flour ratio (0 to 100%) and cooking temperature (160 to 180°C). All other compounds considered constant. Isomalt is a substitute for sugar as a filler. To obtain optimal points, 34 experiments proposed by Design Expert software, central composite design response surface methodology, double in the other points, six central points with alpha 2. Test responses included density (replacement of rapeseed, Naghipour et al., 2013), textural properties, i.e., hardness (TPA, Khazaiy Pool et al., 2015), color changes assessment (Lab, Image J, Aslanzadeh et al., 2014).
Results and Discussion: Isomalt causes increasing the rigidity and led to a decrease in porosity and ultimately a decrease in density (Bagherpoor and Khosroshahi Asl, 2016). The quality of the sweets eaten directly related to their texture characteristics. Among the various textural parameters, hardness considered to be an important characteristic, which refers to the maximum force curve height at the first pressure and represents the maximum force applied during the biting operation (Cheng and Bhat, 2016). The amount of moisture, dry matter, amount and type of protein and fat also have some effect on hardness. In addition, at high levels of replacement wheat with corn flour, hardness increased with increasing Stevia-Isomalt content. Increasing the sucrose concentration due to its effect on the corn starch chains of the amorphous region, causes granulation of the starch and stabilization of the gel, leading to harder gel formation (Sun et al., 2014).
Discoloration caused by caramelization and non-enzymatic browning reactions due to rising temperatures. As the temperature increases, the oxidation of the fats becomes more intense, which in turn has a significant effect on the color of the dyes studied (Ghandehari Yazdi et al., 2018). Since non-sucrose sweeteners play an important role in lightness changes, they are also associated with caramelization and the Millard reaction (non-enzymatic browning) between reducing sugars and amino acids. Sucrose (non-reducing sugar) at high temperatures converted to glucose and fructose (reducing sugars). Thus, if the amount of sucrose reduced, the color intensification is weaker due to the lower formation of the products from the reaction of Millard (Gonzalez-Mateo et al., 2009).
Overall, according to the type of flour consumed in the Sohan-Polaki formulation, the two final optimal formulas, i.e., optimal formula 1, including sucrose replacement with Stevia-Isomalt 24%, the ratio of rice to corn flour 0.99 and cooking temperature of 166°C ( With a density of 1.37 g/cm3, the hardness of 1.85 N and color changes compared to the control 3.66) and optimal formula 2, including sucrose replacement with Stevia-Isomalt 24%, the ratio of rice to corn flour 0.02, and cooking temperature of 180°C (with a density of 1.23 g / cm3, the hardness of 2.07 N and color changes compared to the control of 10.16) were introduced as the best treatments.
- V, Kochhar. A, Sachdeva. R., (2009). Sensory and nutritional evaluation of sweet cereal products prepared using stevia powder for diabetics. Studies on Ethno-Medicine, 3: 8-93.https://doi.org/10.1080/09735070.2009.11886344
- A., Goli. M., (2020). Study on the effect of replacing Cardamom with Cinnamon and plant butter with animal butter and cooking temperature on physicochemical properties of Sohan-Polaki. Journal of Food Science and Technology, 17(102): 127-142. (In Persian)
- A. A, Luciano. F. B., (2007). Instrumental textural evaluation of extruded snack foods: A review. Ciencia e Tecnologia de Alimentos, 54: 245-251. https://doi.org/10.1080/11358120709487697
- M., Mizani. M., Gerami. A., Alimi. M., (2014). Evaluation of dietary fiber performance of wheat bran as a fat substitute in mayonnaise. Food Technology and Nutrition, 11(1): 21-31. (In Persian)
- V., Khosroshahi Asl. A., (2016). Investigation of the possibility of substituting sugar with Stevia in the production of fruite cake containing banana puree and evaluation of sensory and visual properties of the final product. Second Iranian Scientific Conference on Food Science and Technology, Tehran. (In Persian)
- M., Rutkowska. J., Adamska. A., Bajdalow. E., (2015). Partial replacement of wheat flour with pumpkin seed flour in muffins offered to children. Journal of Food, 391-398. https://doi.org/10.1080/19476337.2015.1114529
- I., (1996). Complex Carbohydrates and Resistant Starch. Nutrition Reviews, 54:115-119.
- YF., Bhat. R., (2016). Functional, physicochemical and sensory properties of novel cookies produced by utilizing underutilized jering (Pithecellobium jiringa Jack.) legume flour. Food Bioscience, 14: 54-61.https://doi.org/10.1016/j.fbio.2016.03.002
- Z., Ghaheri. R., Asadi. GH., (2010). The effect of replacement of sucrose and glucose with two types of dietary sweeteners on the texture and microstructure properties of Gaz. Iranian Food Science and Technology Research Journal, 6(2): 130-135. (In Persian)
- L. R., Tasman-Jones. C., Englyst. H., Harris. PJ., (2000). Comparative Effects of Three Resistant Starch Preparations on Transit time and short-Chain Fatty Acid Production in Rate. Nutrition and Cancer, 36(2): 230-237.https://doi.org/10.1207/S15327914NC3602_13
- N. G., Wareham. N. J., (2010). Epidemiology of diabetes. Medicine, 38:602-6. https://doi.org/10.1016/j.mpmed.2010.08.007
- Ghandehari A. P., Hojjatoleslamy. M., Keramat. J., Jahadi. M., (2018). Investigation on the effect of sucrose replacement with sucralosemaltodextrin on physicochemical characteristics of traditional Nanberenji pastry. Journal of Food Science and Technology, 15(82): 189-200. (In Persian)
- Gonzalez-Mateo. , Gonzalez-SanJose. M. L., Muniz. P., (2009). Presence of Maillard products in Spanish muffins and evaluation of colour and antioxidant potential. Food Chemical Toxicology, 47: 2798-2805. https://doi.org/10.1016/j.fct.2009.08.015
- A. D., Cross. S. S., Hurlstone. D. P., McAlindon. M. E., Lobo. A. J., Hadjivassiliou. M., (2007). Pre-endoscopy serological testing for coeliac disease: evaluation of a clinical decision tool. British Medical Journal, 334:729-732. https://doi.org/10.1136/bmj.39133.668681.BE
- Khazaiy E., Shahidi. F., Mortazavi. S. A., Mohebbi. M., (2015). The effect of different levels of Spirulina Platensis microalgae and agar and guar hydrocolloids on water activity, texture, color parameters and Overall acceptability of kiwi puree-based fruit pastille. Journal of Food Science and Technology, 12(48): 47-59. (In Persian)
- A., Krokida. M., (2010). Structural and textural characterization of corn–lentil extruded snacks. Journal of Food Engineering, 100(3):392-408. https://doi.org/10.1016/j.jfoodeng.2010.04.024
- S., Zhang. Y., Wei. Y., Zhang. W., Zhang. B., (2014). Thermal, pasting and gel textural properties of commercial starches from different botanical sources. Journal of Bioprocessing & Biotechniques, 4:161.
- H. W., Levrat-Verny. M. A., Coudray. C., Besson. C., Krespine. V., Messager. A., Demigne. C., Remesy. C., (2001). Class 2 Resistant Starches Lower Plasma and Liver Lipids and Improve Mineral Retention in Rats. Journal of Nutrition, 131:1283-1289.https://doi.org/10.1093/jn/131.4.1283
- Z., Sodagari. H., Moradi. B., (2014). Microbiological and chemical quality of sohan: An iraniantraditional confectionary product. Journal of Food Quality and Hazards Control, 1(2), 56-60.
- Naghipour F, Karimi M, Habibi Najafi MB, Hadad Khodaparast MH, Sheikholeslami Z, Ghiafeh Davoodi M, Sahraiyan B. 2013. Investigation on production of gluten free cake utilizing sorghum flour, guar and xanthan gums. Investigation on production of gluten free cake utilizing sorghum flour, guar and xanthan gums. Journal of Food Science and Technology, 10(41): 127-139. (In Persian)
- C. I, Smith. P. W, Konstance. R. P., Holsinger, V. H., (2001). Incorporation of whey products in extruded corn, potato or rice snacks. Food Research International, 34(8):679-687. https://doi.org/10.1016/S0963-9969(01)00088-6
- M, Khorshidpour. B, Hashemiravan. M., (2017). Investigation of Sucrose Substitution Effect with Stevie and Isomalt in Order to produce fruit candy. Journal of Food Science and Technology, 14(65): 209-225. (In Persian)
- H., Munir. M., (1992). Isomalt, a versatile alternative sweetener-production, properties and uses. Carbohydrates in Industrial Synthesis, Berlin, 5-55.
- Shamsaei. P., Nouri. L., (2017). Investigation of the effect of replacing high fructose corn syrup with sucrose on the properties of Sohan. Journal of Innovation in Food Science and Technology, 10(3): 109-118. (In Persian)
- F., Gulati. P., Weier. S. A., Clarke. J., Rose. D. J., (2016). Effects of processing moisture on the physical properties and in vitrodigestibility of starch and protein in extruded brown rice and pinto bean composite flours. Food Chemistry, 211:726-733. https://doi.org/10.1016/j.foodchem.2016.05.097
- Q., Xing. Y., Qiu. C., Xiong. L., (2014). The pasting and gel textural properties of cornstarch in glucose, fructose and maltose syrup. PLOS ONE, 9(4): 95862. https://doi.org/10.1371/journal.pone.0095862
- L., Xu. J., Fan. X., Wang. Q., Wang. P., Zhang. Y., Cui. L., Yuan. J, Yu. Y., (2016). Effect of disaccharides of different composition and linkage on corn and waxy cornstarch retrogradation. Food Hydrocolloids, 61:531-536. https://doi.org/10.1016/j.foodhyd.2016.06.010
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