[1] Barretto, J.R, Gouveia, M.A.D.C., Alves, C. (2024). Use of dietary supplements by children and adolescents. Jornal de Pediatria, 100(suppl 1): S31-39.
[2] Dhandwal, A., Bashir, O., Malik, T., Salve, R. V., Dash, K. K., Amin, T., Shah, Y. A. (2024). Sustainable microalgal biomass as a potential functional food and its applications in food industry: a comprehensive review. Environmental Science and Pollution Research, 1-19.
[3] Yaqbani, M. (1401). Investigating the effect of replacing sugar with stevia sweetener on the properties of sugar bread. Iranian journal of food science and industry. 19 (131), 31-44. [In Persian].
[4] Kumar, S. Ramesh. "Stevia (Stevia rebaudiana Bertoni): Sweet medicine for a healthier world." Journal of Agriculture and Food Research (2025): 101980.
[5] Yousefi Asl, M., Goli, S., Kadivar, M. (1391). Optimizing the production of low-calorie jam using Stevia artificial sweetener. Food Industry Research (Agricultural Knowledge), 22(2), 155-164. [In Persian].
[6] Yarmohammadi, S., Hosseini-Ghatar, R., Foshati, S., Moradi, M., Hemati, N., Moradi, S., Kermani, M.A.H., Farzaei, M.H. Khan, H., (2021). Effect of Chlorella vulgaris on liver function biomarkers: a systematic review and meta-analysis. Clinical nutrition research, 10(1), p.83.
[7] Abdel-moatamed, B., Elfakhrany, A. E., Elneairy, N., Shaban, M., & Roby, M. H. (2025). The Effects of Adding Chlorella Vulgaris on Sponge Cake Quality and Nutritional Value. Labyrinth: Fayoum Journal of Science and Interdisciplinary Studies, 3(1), 21-27.
[8] Ali, A., Saha, K. K., Choudhury, S., Islam, N. (2022). Formulation, senso-chemical analysis and shelf-life study of biscuits using stevia leaf as the substitute for sugar. Asian Journal of Dairy and Food Research, 41(4), 424-430.
[9] Sulaiman, A. M., Hashem, H. A., Nassar, A. G. (2022). Utilization of Stevia leaves powder or Stevia leaves aqueous extract as a substitute for sugar to produce low calorie cake. Al-Azhar Journal of Agricultural Research, 47(1), 8-18.
[10] Yildiz, E., Gocmen, D. (2021). Use of almond flour and stevia in rice-based gluten-free cookie production. Journal of food science and technology 58:940-951.
[11] Sutwal, R., Dhankhar, J., Kindu, P., Mehla, R. (2019). Development of low calorie jam by replacement of sugar with natural sweetener stevia. Int J Cur Res Rev| Vol 11:10.
[12] Samakradhamrongthai, R.S., Jannu, T. (2021). Effect of stevia, xylitol, and corn syrup in the development of velvet tamarind (Dialium indum L.) chewy candy. Food Chemistry 352:129353.
[13] Sabbaghi, H. (2021). Production of sugar-free doughnut by replacing sugar with dietary sweeteners of stevia, erythritol and maltodextrin. Iranian Food Science & Technology Research Journal 17.
[14] Graça, C., Fradinho, P., Sousa, I., Raymundo, A. (2018). Impact of Chlorella vulgaris on the rheology of wheat flour dough and bread texture. 89:466-474.
[15] Moncada, J., Jaramillo, J.J., Higuita, J.C., Younes, C., Cardona, C.A. (2013). Production of bioethanol using Chlorella vulgaris cake: a technoeconomic and environmental assessment in the colombian context. Industrial & engineering chemistry research 52:16786-16794.
[16] Fradique, M, Batista, A.P., Nunes, M.C., Gouveia, L., Bandarra, N.M, Raymundo, A. (2010). Incorporation of Chlorella vulgaris and Spirulina maxima biomass in pasta products. Part 1: Preparation and evaluation. Journal of the Science of Food and Agriculture. 90:1656-1664.
[17] Oliveira, S., Sousa, I., Raymundo, A. (2022). Printability evaluation of Chlorella vulgaris snacks. Algal Research 68:102879.
[18] Mohammad Qasmi, H., Karamat, J., Hojat al-Islami, M. (1392). Investigating the possibility of replacing sucrose with sucralose and maltodextrin in the preparation of low-calorie sponge cake. 21st National Congress of Food Science and Industry, Shiraz. [In Persian].
[19] Iran Institute of Standards and Industrial Research, method of measuring the moisture content of cereals and its products, No. 2705, (1389). [In Persian].
[20] Iran Institute of Standard and Industrial Research, Biscuit Features, No. 37, (1397). [In Persian].
[21] AACC. (1999). Approved method of the American Association of Cereal Chemists. St. Paul: American Accosiation of Cereal Chemists.
[22] Iran Institute of Standard and Industrial Research, Fat measurement of cereals and its products, No. 11691, (1396). [In Persian].
[23] Maleki Eski, K., Mirzaei, H., Fadavi, A. (1395). Using pumpkin powder in cake production and investigating some physicochemical and microbial properties of the cake containing the powder. Iran Food Science and Industry, 13(61), 195-205. [In Persian].
[24] Iran Standard and Industrial Research Institute. Cake, characteristics and methods, No. 2553. [In Persian].
[25] Sun, D. (2008). Computer vision technology for food quality evaluation. Academic Press, New York.
[26] Alami, M., Fathi, B. (1398). Checking the quality of gluten-free cake prepared from millet grain treated by heat-moisture method. Iran Food Science and Industry Research, 16(5), 607-619. [In Persian].
[27] Shahraki, H., Hosseini Qaboos, S. (1398). Improving the rheological, physicochemical, textural and sensory properties of apple sponge cake using guar gum. Iranian Journal of Food Sciences and Industries, 16 (89), 23-34. [In Persian].
[28] Iran Standard and Industrial Research Institute, Microbiology of Food and Animal Feed - Comprehensive method for counting molds and yeasts - Part II, No. 2-10899, (1387). [In Persian].
[29] Mahdizadeh, N., Rufe Gerinejad, L. (1398). The effect of replacing wheat flour with carrot powder on the quality characteristics of oil cake. Food Industry Research (Agricultural Knowledge), 29(3), 157-169. [In Persian].
[30] Ronda, F., Gomez, M., Blanco, C.A. and Caballero, P.A., (2005). Effects of polyols and nondigestible oligosaccharides on the quality of sugar-free sponge cakes. Food chemistry, 90(4), 549-555
[31] Hadithi, F., Atzadeh, R. (1397). Production of enriched low-fat cream using Chlorella vulgaris microalgae and evaluation of its physicochemical and sensory properties. Second National Conference on Agricultural Development, Zemin Salem, Karaj. [In Persian].
[32] Elsebaie, E., Mostafa, S. (2018). Utilization of Stevia Leaves Powder in Reduced Calorie Cake. Journal of Food and Dairy Sciences 9:83-86.
[33] Alaei, M., Mohd, S., Ahmadi Chenarban, H. (1396). Evaluation of the addition of chickpea flour on the qualitative characteristics of oily and sponge cakes. Iranian Journal of Food Sciences and Industries, 14 (73), 287-279. [In Persian].
[34] Arab, E.A., Helmy, I.M.F. and Bareh, G.F., (2010). Nutritional evaluation and functional properties of chickpea (Cicer arietinum L.) flour and the improvement of spaghetti produced. Journal of American Science, 6(10), 1055-1072.
[35] Arab Sorkhi, F., Safaiyan, Sh., Salimi, L. (1396). Comparing the antioxidant property of pastille enriched with Chlorella vulgaris algae with normal pastille. Marine Science and Technology Research, 12(1), 64-71. [In Persian].
[36] Khormaipour, M., Vazirizadeh, A., Mohebi, G. (1398). Enriching sponge cake with lemon peel powder and using stevia as a sugar substitute. Iran Food Science and Industry, 16(88), 135-145. [In Persian].
[37] Galla, N.R., Pamidighantam, P.R., Karakala, B., Gurusiddaiah, M.R. and Akula, S., (2017). Nutritional, textural and sensory quality of biscuits supplemented with spinach (Spinacia oleracea L.). International Journal of Gastronomy and Food Science, 7, 20-26.
[38] SY, B. (2014). Effect of incorporation of carrot pomace powder and germinated chickpea flour on the quality characteristics of biscuits. International Food Research Journal, 21(1).
[39] Shao, Y.Y., Lin, K.H. Chen, Y.H., (2015). Batter and product quality of eggless cakes made of different types of flours and gums. Journal of Food Processing and Preservation, 39(6), 2959-2968.
[40] Cho, H.S. and Kim, K.H., (2016). Effects of Chlorella powder on quality characteristics of Yukwa. Journal of the Korean Society of Food Culture, 31(2), 178-187.
[41] Vatankhah, M., Elhami-Rad, A., Yaqbani, M., Nadian, N., Akbarian Maimand, M. (1393). Investigating the possibility of producing dietary biscuits using sweeteners. Journal of innovation research in food science and industry, 2(3), 157-170. [In Persian].
[42] Sedaghat, F., Mowahed, S., Tashmim, T. (1393). The possibility of producing dietary cake using stevia and sucralose. Master's thesis of Islamic Azad University, Quds branch. 104 pages. [In Persian].
[43] Jeon, J.K., (2006). Effect of Chlorella addition on the quality of processed cheese. Journal of the Korean Society of Food Science and Nutrition, 35(3), 373-377.
[44] Zoulias, E.I., Piknis, S. and Oreopoulou, V., (2000). Effect of sugar replacement by polyols and acesulfame‐K on properties of low‐fat cookies. Journal of the Science of Food and Agriculture, 80(14), 2049-2056.
[45] Akesowan, A., (2009). Quality of reduced-fat chiffon cakes prepared with erythritol-sucralose as replacement for sugar. Pakistan journal of nutrition, 8(9), 1383-1386.
[46] Ratnayake, W.S., Geera, B. Rybak, D.A., (2012). Effects of egg and egg replacers on yellow cake product quality. Journal of Food Processing and Preservation, 36(1), 21-29.
[47] Majzoobi, M., Darabzadeh, N. Farahnaky, A., (2012). Effects of percentage and particle size of wheat germ on some properties of batter and cake.
[48] Hisarinejad, M., Rezaian Attar, F., Musfa, A., Shokralehi Yanchasmeh, B. (1396). Investigating the effect of different levels of Chlorella vulgaris algae powder as an egg white substitute on the physical and sensory characteristics of sponge cake. Iranian Journal of Food Sciences and Industries, 14(68), 61-72.
[49] Chung, N.Y. and Choi, S.N., (2005). Quality characteristics of pound cake with chlorella powder. Korean journal of food and cookery science, 21(5), 669-676.
[50] Kim, K.J. and Chung, H.C. (2010). Quality characteristics of yellow layer cake containing different amounts of chlorella powder. Korean journal of food and cookery science, 26(6), 860-865.
[51] Abd El-Razik, M.M. Mohamed, A.G. (2013). Utilization of acid casein curd enriched with Chlorella vulgaris biomass as substitute of egg in mayonnaise production. World Appl Sci J, 26,917-925.
[52] Hesarinajad, M. A., Rezaiyan Attar, F., Mosaffa, O., Shokorallahi Yancheshmeh, B. (2017). The effect of incorporation of Chlorella Vulgaris into cake as an egg white substitute on physical and sensory properties. Journal of Food science and industry. 61-72.
[53] Chu, W.L., (2012). Biotechnological applications of microalgae. IeJSME, 6(1), 24-37.
[54] Preethi, D. Sridhar, T.M. (2011). Studies on antibacterial activity, phytochemical analysis of Stevia rebaudiana (Bert.)-An important calorie free biosweetner. Journal of Ecobiotechnology.
[55] Priya, S. (2012). Analysis of value–added biochemical compounds and antimicrobial activity of green algae Chlorella vulgaris. J Chem Pharm Res, 4, 2577-9.
[56] Greengard, H., Grossman, M.I., Woolley, J.R. Ivy, A.C., (1994). A confirmation of the presence of pancreozymin in the duodenal mucosa. Science, 99(2574), 350-351.
[57] Hashemi, N., Rabiei, H., Tokalipour, H., Gazrani, S. (1393). Investigating the effect of replacing stevia rebaudiana sugar with sucrose on the physicochemical, rheological and sensory properties of saffron diet syrup. Saffron Agriculture and Technology, 2(4), 303-310. [In Persian].
[58] Ivani, F., Nashi, B., Naushad, M., Barzegar, H. (1399). Investigating the effect of replacing wheat flour with pomegranate seed powder on the quality characteristics of sponge cake. Iran Food Science and Industry Research, 16(4), 437-452. [In Persian].
[59] Jali, A., Karamat, J., Hojat al-Islami, M., Jihadi, M. (1392). Investigating the effect of replacing sucrose by a mixture of sucralose and isomalt on the physicochemical characteristics of roller mold biscuits. New Technologies in the Food Industry, 1(1), 64-49.
[60] Pareyt, B., Talhaoui, F., Kerckhofs, G., Brijs, K., Goesaert, H., Wevers, M. Delcour, J.A., (2009). The role of sugar and fat in sugar-snap cookies: Structural and textural properties. Journal of Food Engineering, 90(3), 400-408.
[61] Mushtaq, Z., Zahoor, T. and Jamil, A. (2010). Impact of xylitol replacement on physicochemical, sensory and microbial quality of cookies. Pakistan Journal of Nutrition.
[62] Walter, J.M., Soliah, L. (2010). Objective measures of baked products made with Stevia. Journal of the American Dietetic Association, 110 (9): 54-57.
[63] Taghdiri, S., Emtyazjoo, M., Azizi, M. H., Ariaii, P., Sedaghati, M. (2024). The effect of hydrolyzed protein obtained from Chlorella vulgaris on the shelf life and quality of oil cake during the storage period. Journal of Food Measurement and Characterization, 18(1), 582-592
[64] Park, S.I. (2003). Effect of chlorella growth factor on quality of bread. Journal of the Korean Society of Food Culture, 18(4), 356-364.
