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DOI: https://doi.org/10.17728/jaft.25032

Sensory Characteristics and Nutritional Content of Dragon Fruit Peel Cookies with Stevia Substitution

*Nadya Mara Adelina orcid scopus  -  Food Technology Department, Faculty of Science and Technology, University Al-Azhar of Indonesia, Indonesia
Sarah Giovani  -  Food Technology Department, Faculty of Science and Technology, University Al-Azhar of Indonesia, Indonesia
Maryam Jameelah  -  Food Technology Department, Faculty of Science and Technology, University Al-Azhar of Indonesia, Indonesia
Yurike Febrilian Hidayanti  -  Food Technology Department, Faculty of Science and Technology, University Al-Azhar of Indonesia, Indonesia
Syarifah Fatimah Zahra  -  Food Technology Department, Faculty of Science and Technology, University Al-Azhar of Indonesia, Indonesia
Rosianajayanti Rosianajayanti  -  Food Technology Department, Faculty of Science and Technology, University Al-Azhar of Indonesia, Indonesia
Open Access Copyright 2025 Journal of Applied Food Technology

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Abstract

Indonesia ranked 5th in the world for the highest number of diabetes sufferers in 2021 and continues to rise. One of the developments in low glycemic index food products that is safe for people with diabetes is dragon fruit peel flour cookies. The use of stevia in these products can further reduce the glycemic index. However, the use of stevia can affect the sensory characteristics of the product. This study aimed to determine the concentration of stevia that can be substituted in making dragon fruit peel cookies with mocaf flour, which potentially have a low glycemic index while still being favored by consumers. The study used five formulations of dragon fruit peel cookies, with stevia substitution of 0% (F0), 25% (F1), 50% (F2), 75% (F3), and 100% (F4). A Check-All-That-Apply (CATA), hedonic and ranking sensory tests were performed to determine consumer acceptance of the product. Nutritional composition was performed by comparing the selected formulation with the commercial product with low glycemic index claim. The data were analyzed using One-Way ANOVA (SPSS) and CATA Analysis tools (XLSTAT). The determination of CATA attributes was conducted through a Focus Group Discussion, and results showed that formula F1 was the closest to the ideal product characteristics, dominated by sweet aroma, and milky taste. The hedonic test results indicated that all parameters were quite different among the tested formulas. The ranking test results showed that sample F0 ranked first, followed by F1. The nutritional comparison showed that the only significant difference was the fiber content, which was seven times higher in the F1 cookies compared to the commercial product. Based on these results, the dragon fruit peel cookies with 25% stevia substitution are favored by the panelists and have the potential for a low glycemic index.

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Keywords: CATA analysis; cookies gluten free; dragon fruit peel; low index glycemic; stevia

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Section: Research Articles
Language : EN
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  1. Adelina, N.M., Giovani, S., Jameelah, M., Rosianajayanti, R., Assagaf, S.F.Z., 2024. Karakteristik sensori dan fisikokimia kukis dari campuran tepung mocaf dan tepung kulit buah naga. Jurnal Mutu Pangan : Indonesian Journal of Food Quality 11, 96–106. https://doi.org/10.29244/jmpi.2024.11.2.96
  2. Ahmad, J., Khan, I., Johnson, S.K., Alam, I., Din, Z. ud, 2018. Effect of incorporating stevia and moringa in cookies on postprandial glycemia, appetite, palatability, and gastrointestinal well-being. J Am Coll Nutr 37, 133–139. https://doi.org/10.1080/07315724.2017.1372821
  3. AOAC, 2005. Determination of moisture, ash, protein and fat. Official Method of Analysis of the Association Of Analytical Chemists. 18th Edition, AOAC, Washington DC. AOAC International 18
  4. Apriliapatni, N.M.D., Burhannuddin, F., Dirtayanti, N.M.H.L., Sawitri, I.A.C., 2023. Jelita tea: herbal drink anti-typhoid fever from pomelo’s peel (Citrus maxima) and stevia leaf (Stevia rebaudiana). International Conference on Multidisciplinary Approaches in Health Science 1, 95–105. https://doi.org/10.33992/ICMAHS.V1I1.3033
  5. Arshad, S., Rehman, T., Saif, S., Rajoka, M.S.R., Ranjha, M.M.A.N., Hassoun, A., Cropotova, J., Trif, M., Younas, A., Aadil, R.M., 2022. Replacement of refined sugar by natural sweeteners: focus on potential health benefits. Heliyon. https://doi.org/10.1016/j.heliyon.2022.e10711
  6. Astuti, Z.M., Ishartani, D., Muhammad, D.R.A., 2021. The use of calorie sweetener stevia in velva tomato (Lycopersicum esculentum). Jurnal Teknologi Hasil Pertanian 14, 31. https://doi.org/10.20961/jthp.v14i1.43696
  7. Chughtai, M.F.J., Pasha, I., Zahoor, T., Khaliq, A., Ahsan, S., Wu, Z., Nadeem, M., Mehmood, T., Amir, R.M., Yasmin, I., Liaqat, A., Tanweer, S., 2020. Nutritional and therapeutic perspectives of Stevia rebaudiana as emerging sweetener; a way forward for sweetener industry. CyTA - Journal of Food 18, 164–177. https://doi.org/10.1080/19476337.2020.1721562
  8. Di Cairano, M., Condelli, N., Caruso, M.C., Marti, A., Cela, N., Galgano, F., 2020. Functional properties and predicted glycemic index of gluten free cereal, pseudocereal and legume flours. LWT 133. https://doi.org/10.1016/j.lwt.2020.109860
  9. Dyah Kumalasari, I., Devira, A.P., 2024. Aktivitas antioksidan dan evaluasi sensori kukis tersubstitusi tepung kacang hijau dan tepung kulit buah naga merah. Jurnal Teknologi dan Industri Pangan 35, 67–78. https://doi.org/10.6066/jtip.2024.35.1.67
  10. Ervina, E., 2023. The sensory profiles and preferences of gluten-free cookies made from alternative flours sourced from Indonesia. Int J Gastron Food Sci 33. https://doi.org/10.1016/j.ijgfs.2023.100796
  11. Gao, J., Brennan, M.A., Mason, S.L., Brennan, C.S., 2016. Effect of sugar replacement with stevianna and inulin on the texture and predictive glycaemic response of muffins. Int J Food Sci Technol 51, 1979–1987. https://doi.org/10.1111/IJFS.13143
  12. Góngora Salazar, V.A., Vázquez Encalada, S., Corona Cruz, A., Segura Campos, M.R., 2018. Stevia rebaudiana: A sweetener and potential bioactive ingredient in the development of functional cookies. J Funct Foods 44, 183–190. https://doi.org/10.1016/j.jff.2018.03.007
  13. Harismah, K., 2017. Pembuatan yogurt susu sapi dengan pemanis stevia sebagai sumber kalsium dan untuk mencegah osteoporosis. Jurnal Teknologi Bahan Alam 1, 29–34
  14. Hunaefi, D., Farhan, Z.M., 2021. Karakterisasi sensori cheese tea dengan metode Check All That Apply (CATA), Emotional Sensory Mapping (ESM), dan Ideal Profile Method (IPM). Jurnal Mutu Pangan : Indonesian Journal of Food Quality 8, 1–9. https://doi.org/10.29244/jmpi.2021.8.1.1
  15. Hutchings, S.C., Low, J.Y.Q., Keast, R.S.J., 2019. Sugar reduction without compromising sensory perception. An impossible dream? Crit Rev Food Sci Nutr. https://doi.org/10.1080/10408398.2018.1450214
  16. Karp, S., Wyrwisz, J., Kurek, M.A., Wierzbicka, A., 2017. Combined use of cocoa dietary fibre and steviol glycosides in low-calorie muffins production. Int J Food Sci Technol 52, 944–953. https://doi.org/10.1111/IJFS.13358
  17. Kumalasari, I.D., Aurisa, H.G., 2023. Karakteristik fisiko-kimia dan organoleptik donat tinggi serat tersubstitusi tepung kelapa (Cocos nucifera L.) dengan pemanis daun stevia (Stevia rebaudiana). JRST (Jurnal Riset Sains dan Teknologi) 7, 1–8. https://doi.org/10.30595/JRST.V7I1.15388
  18. Lee, J., Ju, S., 2024. What is the relationship between sensory attributes identified using CATA (Check-All-That-Apply) questionnaire and consumer acceptance of cookies using plant-based oils? Foods 2024, Vol. 13, Page 3593 13, 3593. https://doi.org/10.3390/FOODS13223593
  19. Martínez, E., García-Martínez, R., Álvarez-Ortí, M., Rabadán, A., Pardo-Giménez, A., Pardo, J.E., 2021. Elaboration of gluten-free cookies with defatted seed flours: Effects on technological, nutritional, and consumer aspects. Foods 10. https://doi.org/10.3390/foods10061213
  20. Nurlela, L., Muhandri, T., Adawiyah, D.R., Saraswati, S., 2023. Profil sensori minuman yuzu (Citrus junos) komersial. Jurnal Mutu Pangan : Indonesian Journal of Food Quality 10, 63–72. https://doi.org/10.29244/jmpi.2023.10.2.63
  21. Öztürk, E., Arslan, A.K.K., Yerer, M.B., Bishayee, A., 2017. Resveratrol and diabetes: A critical review of clinical studies. Biomedicine and Pharmacotherapy 95, 230–234. https://doi.org/10.1016/j.biopha.2017.08.070
  22. Pranyusha, D., Priya, M.H., Tanzeem, S., Radhamma, G., Meda, P., 2020. Development and standardization of stevia (Stevia rebaudiana) incorporated multigrain cookies. Int J Chem Stud 8, 750–752. https://doi.org/10.22271/chemi.2020.v8.i5k.10387
  23. Prasetyo, K., Atmaka, D., 2021. Formulasi soft chewy cookies bebas gluten dan kasein berbasis kombinasi mocaf dan tepung millet putih untuk anak autism spectrum disorder. Media Gizi Indonesia 16, 167–174
  24. Putri, R.L., Rosida, D.A., Pandjaitan, T.W.S., 2022. Utilization of red dragon fruit peel extract (Hylocereus polyrhizus sp) in cinnamon boba. Agricultural Science
  25. Qalbi, R., Giovani, S., Guo, Q., Adelina, N.M., 2023. Effect of drying time on physicochemical characteristics of dragon fruit peels powder (Hylocereus polyrhizus). Journal of Agri-Food Science and Technology (JAFoST) 4, 81–96. https://doi.org/10.12928/jafost.v4i2.9294
  26. Raharjo, S., Ekantari, N., 2023. Physical, chemical and sensory properties of cookies added with Arthrospira platensis granules and stevia sugar. IOP Conf Ser Earth Environ Sci 1289, 012041. https://doi.org/10.1088/1755-1315/1289/1/012041
  27. Reshmi, S.K., Sudha, M.L., Shashirekha, M.N., 2017. Starch digestibility and predicted glycemic index in the bread fortified with pomelo (Citrus maxima) fruit segments. Food Chem 237, 957–965. https://doi.org/10.1016/J.FOODCHEM.2017.05.138
  28. Samuel, P., Ayoob, K.T., Magnuson, B.A., Wölwer-Rieck, U., Jeppesen, P.B., Rogers, P.J., Rowland, I., Mathews, R., 2018. Stevia leaf to stevia sweetener: exploring its science, benefits, and future potential. J Nutr 148, 1186S-1205S. https://doi.org/10.1093/JN/NXY102
  29. Steindler, D.A., 2023. Sugar substitutes and taste enhancers need more science, sensitivity- and allergy-guided labeling. NPJ Sci Food. https://doi.org/10.1038/s41538-023-00240-z
  30. Van der Sman, R.G.M., Jurgens, A., Smith, A., Renzetti, S., 2022. Universal strategy for sugar replacement in foods? Food Hydrocoll 133. https://doi.org/10.1016/j.foodhyd.2022.107966
  31. Wei, M., Tang, M., Wang, L., Cheng, X., Wu, Y., Ouyang, J., 2021. Endogenous bioactive compounds of naked oats (Avena nuda L.) inhibit α-amylase and α-glucosidase activity. LWT 149, 111902. https://doi.org/10.1016/J.LWT.2021.111902
  32. Zhang, D., Adelina, N.M., Fan, Z., Liu, J., 2022. Phytochemical profile and biological activities from different parts of Vaccinium vitis-idaea. J Berry Res 12, 445–462. https://doi.org/10.3233/JBR-220019

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