ARONYA TÜREVLERİ İLE ÜRETİLEN GLUTENSİZ PUDİNGLERİN FİZİKOKİMYASAL, DUYUSAL ve BİYOAKTİF ÖZELLİKLERİ

Year 2023, Volume: 48 Issue: 2, 243 - 255, 15.04.2023

Fundagül Erem

https://doi.org/10.15237/gida.GD22081

Abstract

Bu çalışma aronya tozu ve aronya lifi tozu ilave edilerek antioksidan aktivitesi artırılan glutensiz pudinglerin özelliklerini araştırmayı amaçlamıştır. Kontrol örneğindeki hindistan cevizi unu, aronya türevleri ile %0.25, %0.5 ve %1.0 konsantrasyonlarında kısmen ikame edilmiştir. İkame seviyesinin artırılması örneklerin Briks, L*, ve b* değerinde azalışa, a* ve ΔE* değeri, toplam fenolik madde içeriği ve antioksidan aktivitesinde artışa yol açmıştır (P <0.05). Elde edilen sonuçlar, aronya türevlerinin en yüksek konsantrasyonunun sinerez indeksini önemli ölçüde (P <0.05) artırdığını; ancak düşük ikame seviyelerinde önemli bir farklılık olmadığını göstermiştir. Ayrıca, aronya türevleri ağızdaki kıvam dışında, pudinglerin duyusal özelliklerinde önemli bir değişikliğe neden olmamıştır. Hindistan cevizi unu ve aronya türevlerinin birbirleriyle duyusal olarak uyumlu oldukları bulunduğundan, bunlar farklı gıda ürünlerinin geliştirilmesinde birlikte değerlendirilebilirler.

Keywords

aronya, hindistan cevizi unu, glutensiz, puding

PHYSICOCHEMICAL, SENSORY, AND BIOACTIVE PROPERTIES OF GLUTEN-FREE PUDDINGS PRODUCED WITH ARONIA DERIVATIVES

Abstract

This study aimed to investigate the properties of gluten-free puddings, in which antioxidant activity was enhanced by adding aronia powder and aronia fiber powder. The coconut flour in the control sample was partially substituted with aronia derivatives at 0.25%, 0.5%, and 1.0% concentrations. Increasing the substitution levels resulted in a decrease in Brix, L*, and b* values, and an increase in the a* and ΔE* values, total phenolic content and antioxidant activity of the puddings (P <0.05). The results obtained showed that the highest concentrations of aronia derivatives substantially (P <0.05) increased the syneresis index; however, there were no significant differences at low substitution levels. Besides, aronia derivatives did not cause a substantial change in the sensory properties of the puddings, except for the consistency in the mouth. Since coconut flour and aronia were found compatible with each other sensorily, they may be valorized together in the development of different food products.

Keywords

aronia, coconut flour, gluten-free, pudding

References

• Adeloye, J.B., Osho, H., Idris, L.O. (2020). Defatted coconut flour improved the bioactive components, dietary fibre, antioxidant and sensory properties of nixtamalized maize flour. Journal of Agriculture and Food Research, 2:100042.
• Albuquerque, B.R., Heleno, S.A., Oliveira, M.B.P.P., Barros, L., Ferreira, C.F.R. (2021). Phenolic compounds: current industrial applications, limitations and future challenges. Food and Function, 12: 14-29.
• Baixauli, R., Salvador, A., Fiszman, S.M. (2008). Textural and colour changes during storage and sensory shelf life of muffins containing resistant starch. European Food Research and Technology, 226: 523-530.
• Banach, M., Wiloch, M., Zawada, K., Cyplik, W., Kujawski, W. (2020). Evaluation of antioxidant and anti-inflammatory activity of anthocyanin-rich water-soluble aronia dry extracts. Molecules, 25:4055.
• Bawalan, D.D. (2000). The economics of production, utilization and marketing of coconut flour from coconut milk residue. Coconut Research and Development Journal, 16 (1): 1-13.
• Catana, M., Catana, L., Iorga, E., Asanica, A.C., Belc, N. (2018). Bakery products fortified with dried fruits of Aronia melanocarpa. Scientific Papers-Series B-Horticulture, 62: 693-701.
• Conner, P.J., MacLean, D. (2013). Fruit anthocyanin profile and berry color of Muscadine grape cultivars and Muscadinia germplasm. Hortscience, 48 (10): 1235-1240.
• Cömert, E.D., Ataç Mogol, B., Gökmen, V. (2020). Relationship between color and antioxidant capacity of fruits and vegetables. Current Research in Food Science, 2: 1-10.
• da Silva Costa, R.A., Bonomo, R.C.F., Rodrigues, L.B., Santos, L.S., Veloso, C.M. (2020). Improvement of texture properties and syneresis of arrowroot (Maranta arundinacea) starch gels by using hydrocolloids (guar gum and xanthan gum). Journal of the Science of Food and Agriculture, 100: 3204-3211.
• De Lorgeril, M., Salen, P. (2014). Gluten and wheat intolerance today: are modern wheat strains involved? International Journal of Food Sciences and Nutrition, 65 (5): 577-581.
• Dello Staffolo, M., Sato, A.C.K., Cunha, R.L. (2017). Utilization of plant dietary fibers to reinforce low-calorie dairy dessert structure. Food and Bioprocess Technology, 10: 914-925.
• Du, X., Myracle, A.D. (2018). Development and evaluation of kefir products made with aronia or elderberry juice: sensory and phytochemical characteristics. International Food Research Journal, 25 (4): 1373-1383.
• Durmus, D. (2020). CIELAB color space boundaries under theoretical spectra and 99 test color samples. Color Research & Application, 45: 796-802.
• Gajic, D., Saksida, T., Koprivica, I., Vujicic, M., Despotovic, S., Savikin, K., Jankovic, T., Stojanovic, I. (2020). Chokeberry (Aronia melanocarpa) fruit extract modulates immune response in vivo and in vitro. Journal of Functional Foods, 66:103836.
• Gatti, S., Lionetti, E., Balanzoni, L., Verma, A.K., Galeazzi, T., Gesuita, R., Scattolo, N., Cinquetti, M., Fasano, A., Catassi, C. (2020). Increased prevalence of celiac disease in school-age children in Italy. Clinical Gastroenterology and Hepatology, 18 (3): 596-603.
• Gralec, M., Wawer, I., Zawada, K. (2019). Aronia melanocarpa berries: phenolics composition and antioxidant properties changes during fruit development and ripening. Emirates Journal of Food and Agriculture, 31 (3): 214-221.
• Gunathilake, K.D.P.P., Abeyrathne, Y.M.R.K. (2008). Incorporation of coconut flour into wheat flour noodles and evaluation of its rheological, nutritional and sensory characteristics. Journal of Food Processing and Preservation, 32: 133-142.
• Gunathilake, K.D.P.P., Yalegama, C., Kumara, A.A.N. (2009). Use of coconut flour as a source of protein and dietary fibre in wheat bread. Asian Journal of Food and Agro-Industry, 2 (3): 382-391.
• Gurmeric, V.E., Doga, M., Toker, O.S., Senyigit, E., Ersoz, N.B. (2013). Application of different multi-criteria decision techniques to determine optimum flavour of prebiotic pudding based on sensory analyses. Food and Bioprocess Technology, 6: 2844–2859.
• Hopkin, L., Broadbent, H., Ahlborn, G.J. (2022). Influence of almond and coconut flours on Ketogenic, Gluten-Free cupcakes. Food Chemistry: X, 13: 100182.
• Jakubczyk, E., Kamińska-Dwórznicka, A. (2021). Effect of addition of chokeberry juice concentrate and foaming agent on the physical properties of agar gel. Gels, 7:137-151.
• Jiamjariyatam, R., Roskhrua, P., Attiwittayaporn, S. (2021). Effect of coconut flour on biscuit quality. Journal of Culinary Science and Technology, 20 (3): 278-292.
• Khoury, D.E., Balfour-Ducharme, S., Joye, I.J. (2018). A review on the gluten-free diet: Technological and nutritional challenges. Nutrients, 10:1410.
• Kulling, S.E., Rawel, H.M. (2008). Chokeberry (Aronia melanocarpa) – A review on the characteristic components and potential health effects. Planta Medica, 74: 1625-1634.
• Lee, J.A., Yoon, J.Y. (2016). The quality and antioxidant properties of cookies containing aronia powder. Culinary Science & Hospitality Research, 22 (5): 179-189 [in Korean].
• Lee J.H., Choi, J.E. (2016). Quality characteristics and antioxidant activities of cookies supplemented with aronia powder. Journal of the Korean Society of Food Science and Nutrition, 45 (7): 1071-1076 [in Korean].
• Lee J.H., Choi, I.S. (2020). Physicochemical characteristics and consumer acceptance of puddings fortified with Cudrania tricuspidata and Aronia melanocarpa extracts. Food Science and Nutrition, 8: 4936–4943.
• Lim, H.S., Narsimhan, G. (2006). Pasting and rheological behavior of soy protein-based pudding. LWT, 39: 343-349.
• Mansueto, P., Seidita, A., Dalcamo, A., Carroccio, A. (2014). Non-celiac gluten sensitivity: literature review. Journal of the American College of Nutrition, 33 (1): 39-54.
• Marikkar, J.M.N., Nagaraja, R., Somawathie, K.M.S., Hewapathirana, H.P.T.D., Yalegama, C., Littardi, P., Chiavaro, E. (2020). Effect of coconut testa flour on cookie characteristics. Italian Journal of Food Science, 32 (1): 209-221.
• McLellan, M.R., Lind, L.R., Kime, R.W. (1995). Hue angle determinations and statistical analysis for multiquadrant Hunter L, a, b data. Journal of Food Quality, 18: 235-240.
• Meng, L., Zhu, J., Ma, Y., Sun, X., Li, D., Li, L., Bai, H., Xin, G., Meng, X. (2019). Composition and antioxidant activity of anthocyanins from Aronia melanocarpa cultivated in Haicheng, Liaoning, China. Food Bioscience, 30: 100413.
• Mihiranie, S., Jayasundera, M., Perera, N. (2017). Development of snack crackers incorporated with defatted coconut flour. Journal of Microbiology, Biotechnology and Food Sciences, 7 (2): 153-159.
• Moin, A., Ali, T.M., Hasnain, A. (2017). Characterization and utilization of hydroxypropylated rice starches for improving textural and storage properties of rice puddings. International Journal of Biological Macromolecules, 105: 843-851.
• Okafor, G.I., Usman, G.O. (2014). Production and evaluation of breakfast cereals from blends of African yam bean (Sphenostylis stenocarpa), maize (Zea mays) and defatted coconut (Cocus nucifera). Journal of Food Processing and Preservation, 38: 1037-1043.
• Oszmiański, J., Wojdylo, A. (2005). Aronia melanocarpa phenolics and their antioxidant activity. European Food Research and Technology, 221: 809-813.
• Paucean, A., Man, S., Muste, S., Pop, A. (2017). Development of gluten free cookies from rice and coconut flour blends. Bulletin of University of Agricultural Sciences and Veterinary Medicine Cluj-Napoca-Food Science and Technology, 73 (2): 163-164.
• Ramaswamy, L. (2014). Coconut flour - a low carbohydrate, gluten free flour a review article. International Journal of Ayurvedic and Herbal Medicine, 4 (1): 1426-1436.
• Ramírez-Maganda, J., Blancas-Benítez, F.J., Zamora-Gasga, V.M., García-Magaña, M.L., Bello-Pérez, L.A., Tovar, J., Sáyago-Ayerdi, S.G. (2015). Nutritional properties and phenolic content of a bakery product substituted with a mango (Mangifera indica) ‘Ataulfo’ processing by-product. Food Research International, 73: 117-123.
• Ribotta, P.D., Colombo, A., Rosell, C.M. (2012). Enzymatic modifications of pea protein and its application in protein–cassava and corn starch gels. Food Hydrocolloids, 27 (1): 185-190.
• Rodríguez-Werner, M., Winterhalter, P., Esatbeyoglu, T. (2019). Phenolic composition, radical scavenging activity and an approach for authentication of Aronia melanocarpa berries, juice, and pomace. Journal of Food Science, 84 (7): 1791-1798.
• Sabença, C., Ribeiro, M., de Sousa, T., Poeta, P., Bagulho, A.S., Igrejas, G. (2021). Wheat/gluten-related disorders and gluten-free diet misconceptions: A review. Foods, 10: 1765-1789.
• Sapone, A., Bai, J.C., Ciacci, C., Dolinsek, J., Green, P.H.R., Hadjivassiliou, M., Kaukinen, K., Rostami, K., Sanders, D.S., 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, 10:13.
• Shi, J., Moy, J.H. (2005). Functional foods from fruit and fruit products. Asian Functional Foods, John, S., Fereidoon, S., Chi-Tang, H. (eds.), CRC Press, Boca Raton, USA, p. 303-340.
• Šmídová, Z., Rysová, J. (2022). Gluten-free bread and bakery products technology. Foods, 11: 480.
• Sun, Y., Hayakawa, S., Ogawa, M., Izumori, K. (2007). Antioxidant properties of custard pudding dessert containing rare hexose, D-psicose. Food Control, 18: 220-227.
• Szajnar, K., Pawlos, M., Znamirowska, A. (2021). The effect of the addition of chokeberry fiber on the quality of sheep’s milk fermented by Lactobacillus rhamnosus and Lactobacillus acidophilus. International Journal of Food Science, 2021: 7928745.
• Tovoli, F., Masi, C., Guidetti, E., Negrini, G., Paterini, P., Bolondi, L. (2015). Clinical and diagnostic aspects of gluten related disorders. World Journal of Clinical Cases, 3 (3): 275-284.
• Trinidad, T.P., Mallillin, A.C., Valdez, D.H., Loyola, A.S., Askali-Mercado, F.C., Castillo, J.C., Encabo, R.R., Masa, D.B., Maglaya, A.S., Chua, M.T. (2006). Dietary fiber from coconut flour: A functional food. Innovative Food Science and Emerging Technologies, 7: 309-317.
• Usman, G.O., Okafor, G.I. (2016). Organoleptic properties and perception of maize, African yam bean, and defatted coconut flour-based breakfast cereals served in conventional forms. Food Science and Nutrition, 4 (5): 716-722.
• Valencia, M.S., Salgado, S.M., Andrade, S.A.C., Padilha, V.M., Livera, A.V.S., Stamford, T.L.M. (2016). Development of creamy milk chocolate dessert added with fructooligosaccharide and Lactobacillus paracasei subsp. paracasei LBC 81. LWT-Food Science and Technology, 69: 104-109.
• Vidović, S., Ramić, M., Ambrus, R., Vladić, J., Szabó-Révész, P., Gavarić, A. (2019). Aronia berry processing by spray drying: from by product to high quality functional powder. Food Technology and Biotechnology, 57 (4): 513-524.