QUALITY CHARACTERISTICS OF MODIFIED CASSAVA FLOUR (MOCAF) COOKIES INCORPORATED WITH CHICKEN MEAT AND CARROT PUREE AS NUTRITIOUS SNACK TOWARDS CHILDREN

نویسنده
NUR AINI MAHMUDAH
کالج دولتی پوترا سانگ فاجار بلیتار
10.22034/FSCT.21.150.64
چکیده
The trend of snacking is accelerating over time, along with the fact that cookies are the most common and most consumed snack in the world. Particularly in children, snacking remarkably accounts for the total daily calorie intake. Mocaf (modified cassava flour) cookies incorporated with chicken meat and carrot puree at various levels [F1 = 0:0 (control), F2 = 12.5%:37.5%, F3 = 25%:25%, F4 = 37.5%:12.5%] were scrutinized for their physical properties, chemical composition, and sensory characteristics. This research used a completely randomized experimental design. These incorporations resulted in a significant lowering value (P<0.05) of fat content, ash, and calorie, whereas the hardness properties and moisture content were recorded to have increasing trend. The protein content and total dietary fiber of cookies which are considered substantially beneficial for health, were increased on treated cookies. The combination of chicken meat and carrot puree was found not to reduce the physical lightness (L*) and children panelists’ preferences by color, aroma, and taste of treated cookies, compared to the control sample. All cookies formulations had good receptivity after sensory evaluation. It is important to maintain a palatable product for the development of nutritious cookies towards children.
کلیدواژه‌ها
Cookies
Mocaf flour
Quality
Chicken meat
Carrot
Children

موضوعات

عنوان مقاله English

QUALITY CHARACTERISTICS OF MODIFIED CASSAVA FLOUR (MOCAF) COOKIES INCORPORATED WITH CHICKEN MEAT AND CARROT PUREE AS NUTRITIOUS SNACK TOWARDS CHILDREN

نویسنده English

NUR AINI MAHMUDAH
State Community College of Putra Sang Fajar Blitar
چکیده English

The trend of snacking is accelerating over time, along with the fact that cookies are the most common and most consumed snack in the world. Particularly in children, snacking remarkably accounts for the total daily calorie intake. Mocaf (modified cassava flour) cookies incorporated with chicken meat and carrot puree at various levels [F1 = 0:0 (control), F2 = 12.5%:37.5%, F3 = 25%:25%, F4 = 37.5%:12.5%] were scrutinized for their physical properties, chemical composition, and sensory characteristics. This research used a completely randomized experimental design. These incorporations resulted in a significant lowering value (P<0.05) of fat content, ash, and calorie, whereas the hardness properties and moisture content were recorded to have increasing trend. The protein content and total dietary fiber of cookies which are considered substantially beneficial for health, were increased on treated cookies. The combination of chicken meat and carrot puree was found not to reduce the physical lightness (L*) and children panelists’ preferences by color, aroma, and taste of treated cookies, compared to the control sample. All cookies formulations had good receptivity after sensory evaluation. It is important to maintain a palatable product for the development of nutritious cookies towards children.

کلیدواژه‌ها English

Cookies
Mocaf flour
Quality
Chicken meat
Carrot
Children
1. Ministry of Health Republic of Indonesia. 2023. Prevalensi stunting di Indonesia 2022 [Online]. Accessed on 10 January 2023. Available at: https://www.kemkes.go.id/article/view/23012500002/prevalensi-stunting-di-indonesia-turun-ke-21-6-dari-24-4-.html
2. Syahrul, R., Kimura, R., Tsuda, A., Susanto, T., Saito, R., Ahmad, F. 2016. Prevalence of underweight and overweight among school-aged children and its association with children’s sociodemographic and lifestyle in Indonesia. International Journal of Nursing Sciences, 3(2), 169-177. https://doi.org/10.1016/j.ijnss.2016.04.004
3. Rehm C.D., Drewnowski A. 2017. Replacing American snacks with tree nuts increases consumption of key nutrients among US children and adults: results of an NHANES modeling study. Nutrition Journal, 7(16), 1-17. https://doi.org/10.1186/s12937-017-0238-5
4. Consumer Markets Insights: Snack Food – Worldwide 2022 [Online]. Available from: https://www.statista.com/outlook/cmo/food/confectionery-snacks/snack-food/worldwide#revenue [Internet].
5. US Department of Agriculture. Foreign Agricultural Service – US Department of Agriculture: Indonesia: Grain and Feed Update 2022 [Online]. Available from: https://www.fas.usda.gov/data/indonesia-grain-and-feed-update-15. 2022. Grain and Feed Update 2022.
6. Kristanti, D., Setiaboma, W., Herminiati, A. 2020. Physicochemical and organoleptic characteristics of mocaf cookies with tempeh flour additions. Jurnal Biopropal Industri, 11(1), 1-8. https://doi.org/10.36974/jbi.v11i1.5354
7. Raharja, K.T. 2018. Receptivity of butter cookies using mocaf (Modified Cassava Flour) substitution. Journal of Applied Hospitality Tourism Science, 1(1), 14-18.
8. Berrazaga, I., Micard, V., Gueugneau, M., Walrand, S. 2019. The role of the anabolic properties of plant- versus animal-based protein sources in supporting muscle mass maintenance: A critical review. Nutrients, 11(8), 1-21. https://doi.org/10.3390/nu11081825
9. Kralik, G., Kralik, Z., Grcevic, M., Hanžek, D. 2018. Quality of chicken meat. In: animal husbandry and nutrition chapter 4 [Online]. Accessed on 10 January, 2023. Available at: Intech Open. https://dx.doi.org/10.5772/intechopen.72865
10. Berwal, R., Khanna, N., Berwal, R. 2013. Storage quality of chicken meat mince incorporated cookies under aerobic packaging at ambient temperature. Journal Of Meat Science And Technology, 1(1): 28–34.
11. Sharma, S., Sharma, K.D. 2020. Development of carrot juice concentrate enriched functional cookies. International Journal of Current Microbiology and Applied Sciences, 9(12), 3129-3135. https://doi.org/10.20546/ijcmas.2020.912.372
12. Kaur, P., Ghoshal, G., Jain, A. 2018. Bio-utilization of fruits and vegetables waste to produce β-carotene in solid-state fermentation; characterization and antioxidant activity. Process Biochemistry, 76, 155-164. https://doi.org/10.1016/j.procbio. 2018.10.007
13. Sharma, K.D., Karki, S., Thakur, N.S., Attri, S. 2012. Chemical composition, functional properties and processing of carrot—A review. J Food Sci Technol, 49(1): 22–32.
14. Fatimah, N.S.H., Wirjatmadi, B. Tingkat kecukupan vitamin A, seng dan zat besi serta frekuensi infeksi pada balita stunting dan non stunting. Media Gizi Indonesia, 13(2): 168.
15. Chiu, H.F., Shen, Y.C., Venkatakrishnan, K., Wang, C.K. 2019. Food for eye health: carotenoids and omega-3 fatty acids. In: Melton L, Shahidi F, Varelis P. (Eds.) Encyclopedia of food chemistry, 3: 313–322. https://doi.org/10.1016/B978-0-08-100596-5.21740-X
16. Granato, D., Masson, M. L. 2010. Instrumental color and sensory acceptance of soy-based emulsions: a response surface approach. Ciência e Tecnologia de Alimentos, 30(4):1090–1096. https://doi.org/10.1590/S0101-20612010000400039
17. Pathare, P.B., Opara, U.L., Al-Said, F.A. 2013. Colour measurement and analysis in fresh and processed foods: A review. Food and Bioprocess Technology, 6(1): 36–60. https://doi.org/10.1007/s11947-012-0867-9
18. Mudgil, D., Barak, S., Khatkar, B. 2017. Texture profile analysis of yogurt as influenced by partially hydrolyzed guar gum and process variables. Journal of Food Science and Technology, 54: 1-8. https://doi.org/10.1007/s13197-017-2779-1
19. Association of Official Analytical Chemists (AOAC). 2005. Official Methods of Analysis of the Association of Official Analytical Chemists 20th ed.
20. Ratnawati, L., Desnilasari, D., Kumalasari, R., Surahman, D. 2020. Characterization of modified cassava flour (mocaf)-based biscuits substituted with soybean flour at varying concentrations and particle sizes. Food Research, 4(3): 645-651. https://doi.org/10.26656/fr.2017.4(3).282
21. Lyu, C., Hou, H. 2020. Color, carotenoids, and peroxidase degradation of seed-used pumpkin byproducts as affected by heat and oxygen content during drying process. Food and Bioprocess Technology 13: 1929 - 1939. https://doi.org/10.1007/s11947-020-02532-8
22. Saric, B., Milicevic, N., Simurina, O., Pestoric, M., Kos,J., Mandic, A.,Sakac, M., Saric, L., Psodorov, D.B., Misan, A.C. 2014. The influence of baking time and temperature on characteristics of gluten free cookies enriched with blueberry pomace. Food and Feed Research 41: 39-46. https://doi.org/10.5937/FFR1401039S
23. Szczesniak, A. 2007. Consumer awareness of and attitudes to food texture II: Children and teenagers. Journal of Texture Studies 3: 206 - 217. https://doi.org/10.1111/j.1745-4603.1972.tb00624.x
24. Cheng, Y.F., Bhat, R. 2016. Functional, physicochemical and sensory properties of novel cookies produced by utilizing underutilized jering (Pithecellobium jiringa Jack.) legume flour. Food Biosci 14: 54–61. https://doi.org/10.1016/j.fbio.2016.03.002
25. Wenzhao, L., Guangpeng, L., Baoling, S., Xianglei, T., Shan, X. 2013. Effect of sodium stearoyl lactylate on refinement of crisp bread and the microstructure of dough. Advance Journal of Food Science and Technology 5: 682-687. https://doi.org/10.19026/ajfst.5.3149
26. Aljobair, M.O. 2022. Physicochemical, nutritional, and sensory quality and storage stability of cookies: effect of clove powder. International Journal of Food Properties, 25(1): 1009-1020. https://doi.org/10.1080/10942912.2022.2071290
27. Ajila, C., Leelavathi, K., Rao, U.P. 2008. Improvement of dietary fiber content and antioxidant properties in soft dough biscuits with the incorporation of mango peel powder. J. Cereal Sci., 48(2): 319–326. https://doi.org/10.1016/j.jcs.2007.10.001
28. Mancebo, C.M., Picón, J., Gómez, M. 2015. Effect of flour properties on the quality characteristics of gluten free sugar-snap cookies. LWT Food Sci. Technol, 64(1): 264–269. https://doi.org/10.1016/j.lwt.2015.05.057
29. Almoraie, N.M., Saqaan, R., Alharthi, R., Alamoudi, A., Badh, L., Shafwan, I.M. 2021. Snacking patterns throughout the life span: Potential implications on health. Nutrition Research 91: 81-94. https://doi.org/10.1016/j.nutres.2021.05.001
30. Cappellotto, M., Olsen, A. 2021. Food texture acceptance, sensory sensitivity, and food neophobia in children and their parents. Foods, 10(10): 2327.
31. Bellur-Nagarajaiah, S., Prakash, J. 2015. Nutritional composition, acceptability, and shelf stability of carrot pomace-incorporated cookies with special reference to total and β-carotene retention. Cogent Food Agric., 1(1): 1-10.
32. Pratiwi, P., Amri, E. 2014. Pembuatan mocaf (modified cassava flour) dengan proses fermentasi menggunakan beberapa jenis ragi. Jurnal Pelangi: Research of Education and Development, 6(2): 182-191. https://doi.org/10.22202/jp.v6i2.302
33. Gunawan, A., Erwan, E., Rodiallah, M., Zumarni. 2020. The physical quality of broiler chicken meat given basal ration containing avocado seed flour (Persea americana Mill). Jurnal Ternak, 11(2): 77-85. https://doi.org/10.30736/jt.v11i2.86
34. Olalude, C.B., Oyedeji, F.O., Adegboyega, A.M. 2015. Physico-chemical analysis of daucus carota (carrot) juice for possible industrial applications. IOSR Journal of Applied Chemistry, 8(8): 110-113.
35. Verma, A.K., Pathak, V., Singh, V.P. 2013. Cost of formulation for chicken meat noodles using whole wheat and rice flour. Indian J Poult Sci 48: 261–264.
36. Soni, N., Kulkarni, A.S., Patel, L. 2018. Studies on development of high protein cookies. Int J Chem Stud, 6(6): 439–444.
37. Hailemariam, A., Esatu, W., Abegaz, S., Urge, M., Assefa, G., Dessie, T. 2022. Nutritional composition and sensory characteristics of breast meat from different chickens. Applied Food Reserach, 2(2): 1-8. https://doi.org/10.1016/j.afres.2022.100233
38. Thomas, S.C.L. 2008. Vegetables and fruits: Nutritional and therapeutic values. Taylor and Francis Group: CRC Press.
39. Kumar, P., Chatli, M.K., Mehta, N., Malav, O.P., Verma, A.K., Kumar, D. 2016. Quality attributes and storage stability of chicken meat biscuits incorporated with wheat and oat bran. J Food Qual., 39(6): 649–657.
40. Sahni, P., Shere, D. 2017. Physico-chemical and sensory characteristics of carrot pomace powder incorporated fibre rich cookies. Asian Journal of Dairy and Food Research, 36(4): 327-331. https://doi.org/36. 10.18805/ajdfr.DR-1268
41. Salvatore, S., Battigaglia, M.S., Murone, E., Dozio, E., Pensabene, L., Agosti, M. 2023. Dietary fibers in healthy children and in pediatric gastrointestinal disorders: A practical guide. Nutrients, 15(9): 1-17. https://doi.org/10.3390/nu15092208
42. UK Scientific Advisory Committee on Nutrition. 2015. Carbohydrates and health. [Online]. Available at: https://assets.publishing.service.gov.uk.
43. Hojsak I., Benninga, M.A., Hauser, B., Kansu, A., Kelly, V.B, Stephen, A.M., Morais-Lopez, A., Slavin, J., Tuohy, K. 2022. Benefits of dietary fibre for children in health and disease. Arch Dis Child, 107(11): 973-979. https://doi.org/10.1136/archdischild-2021-323571
44. Leiva-Valenzuela, G.A., Quilaqueo, M., Lagos, D., Estay, D., Pedreschi, F. 2018. Effect of formulation and baking conditions on the structure and development of non-enzymatic browning in biscuit models using images. J Food Sci Technol, 55(4): 1234-1243. https://doi.org/10.1007/s13197-017-3008-7
45. Purlis, E. 2010. Browning development in bakery products – A review. Journal of Food Engineering, 99(3): 239-249. https://doi.org/10.1016/j.jfoodeng.2010.03.008
46. Suriya, M., Rajput, R., Reddy, C.K., Haripriya, S., Bashir, M. 2017. Functional and physicochemical characteristics of cookies prepared from Amorphophallus paeoniifolius flour. J Food Sci Technol., 54(7): 2156-2165. https://doi.org/10.1007/s13197-017-2656-y
47. Fellows, P. (2000). Food Processing Technology – Principles and Practice. UK: Woodhead Publishing. https://doi.org/10.1201/NOE0849308871