Comparison of Antioxidants in Red Ginger Powder Preparations with the Addition of Sucrose and Red Ginger Powder Preparations Without the Addition of Sucrose

https://doi.org/10.33860/jik.v17i4.3554

Authors

  • Irna Diyana Kartika Kamaluddin Department of Clinical Pathology, Faculty of Medicine, Universitas Muslim Indonesia, Makassar, Indonesia
  • Nurafni Maharani Nawawi Medical Education Study Program, Faculty of Medicine, Universitas Muslim Indonesia, Makassar, Indonesia
  • Rachmat Faisal Syamsu Department of IKM-IKK, Faculty of Medicine, Universitas Muslim Indonesia, Makassar, Indonesia
  • Ida Royani Department of Nutritional Sciences, Faculty of Medicine, Universitas Muslim Indonesia, Makassar, Indonesia
  • Irmayanti Haidir Bima Department of Clinical Pathology, Faculty of Medicine, Universitas Muslim Indonesia, Makassar, Indonesia

Keywords:

Powder, Red Ginger, Antioxidants, Sucrose, DPPH

Abstract

Antioxidants are compounds that can inhibit oxidation reactions in the human body. Antioxidants can be obtained from food intake. Intake containing antioxidant compounds can also be found in red ginger. Red ginger is available in the form of instant powder obtained through a crystallization process using sucrose as the main agent. Granulated sugar has a sucrose content of 99.95% and functions as a sweetener as well as a crystallization agent that affects the speed of crystallization. This study aims to determine the comparison of antioxidant levels contained in red ginger powder with the addition of sucrose and without the addition of sucrose. The research design used was experimental research design by testing the comparison of antioxidant compound activity between red ginger powder added sucrose and red ginger powder without added sucrose using DPPH reagent measured by spectrophotometer. The measurement of antioxidant content showed that red ginger powder without added sucrose has a very strong IC50 value of antioxidant activity with a value of 46.12 ppm while red ginger powder without added sucrose has a weak IC50 value of antioxidant activity with a value of 205.47 ppm. The results of antioxidant activity testing on both red ginger powders were then statistically tested using the unpaired T-Test test with a p-value <0.05 which means significant. It can be concluded that there is a significant difference in antioxidant activity values ​​between red ginger powder without added sucrose and red ginger powder with added sucrose.

References

Maharani AI, Riskierdi F, Febriani I et al. The Role of Natural Antioxidants Made from Local Food in Preventing the Effects of Free Radicals. Pros Semin Nas Bio. 2021;1(2):390–9.

Ibroham MH, Jamilatun S K. A Review: The Potential of Plants in Indonesia as Natural Antioxidants. J UMJ. 2022;1–13.

Antarti AN LR. Test of the Antioxidant Activity of Solanum Family Leaf Ethanol Extract Using the DPPH Free Radical Reduction Method. JPSCR J Pharm Sci Clin Res. 2018;3(2):62.

Kameliani D, Salamah N GA. Test of the Antioxidant Activity of Green Algae Extract (Ulva Lactuca L.) with Varying Ethanol Solvent Concentrations of 60%, 75%, and 96% Using the Dpph (1,1-Diphenyl-2-Picrylhydrazyl) Method. J Ilm Ibnu Sina Farm and Health Science. 2020;5(2):387–96.

IW RA. Benefits of Ginger for Health. Widya Health. 2019;1(2):39–43.

Rukhayyah KK, Kawareng AT SY. Literature Study: Antioxidant Activity Test of Red Ginger Extract (Zingiber officinale var. Rubrum) Using the 2,2-diphenyl-1-picrylhydrazyl (DPPH) Method. In: Proceedings Mulawarman Pharm Conf. 2022. p. 15:242-245.

RM Chemical Component Analysis and Antioxidant Test of Red Rhizome Extract (Zingiber offinale Rosc.Var rubrum). Cokroaminoto J Chem Sci. 2018;1(2):1–6.

Prasetyo RA, Setiawan MJ HK. Making Instant Drink from Red Ginger (Zingiber Officinale Var. Rubrum) with Stevia Sweetener. Instant Drink Production From Ginger (Zingiber officinale var. Rubrum). 8th Univ Res Colloq 2018 Univ Muhammadiyah Purwokerto. :325–31.

Wardani, Gatut A., Pebiansyah A., Wulandari, S., Hawa, FA, Rianty, AD EH. Utilization of Instant Ginger Powder to Increase Community Immunity inCOVID-19 Pandemic Period. JMM- J Masy Mandiri. 2021;5(5):2625–2639.

Fortin GA, Asnia KKP, Ramadhani AS MM. Instant Functional Drink Powder Rich in Antioxidants From Vegetable Ingredients. Agrointek J Teknol Ind Agriculture. 2021;15(4):984–991.

Nisfiyah IL, Isnindar DR. Formulation of Instant Powder Drink Combination of Ginger (Zingiber officinale rosc) and Turmeric (Curcuma domestica val.) with Variations of Granulated Sugar and Brown Sugar. J Mhs Farm Fak Kedokt UNTAN. 2022;6(1):1–9.

Agustiarini V WD. Test of Antioxidant Activity of Ethanol-Water Extract (1:1) of Rosella Flowers (Hibiscus sabdariffa L.) using the DPPH (1,1-diphenyl-2-picrylhydrazyl) Method. J Science Researcher. 2022;24(1):29.

Then Septian M, Dwi Wahyuni F NA. Antioxidant Activity Test Using the Dpph Method and Identification of Secondary Metabolite Groups in Sweet Potato Flesh from Various Regions in Indonesia Antioxidant Activity Test Using the Dpph Method and Identification of Secondary. Spin J Kim Educator Kim. 2022;4(2):185–196.

Binuni R, Maarisit W, Hariyadi H SY. Test of Antioxidant Activity of Sonneratia alba Mangrove Leaf Extract from Tagulandang District, North Sulawesi Using the DPPH Method. Trop Biopharmaceuticals. 2020;3(1):79–85.

Handayani PA, Kolong Y, Ayunda FD, Debora O KM. Use of Red Ginger (Zingiber Officinale) as an Immunomodulator During the Pandemic. 2020;1(2):40–6.

Herawati IE SN. Phytochemical Studies on Red Ginger (Zingiber officinale Roscoe Var. Sunti Val). Maj. Pharmacy. 2020;4(1):22–7.

D. SH. National Seminar on Nutrition, Food Safety and Halal Products. 2014.

Khairunnisa A MD. Formula Optimization and Antioxidant Activity Test of Red Ginger Instant Drink (Zingiber officinale Var. Roscoe) Using the DPPH Method. J Heal Med Sci. 2022;1(3):77–84.

Fauzi MN SJ. Qualitative Test and Antioxidant Activity Test of Ethanolic Extract of Maja Fruit (Aegle Marmelos (L.) Correa) using the DPPH Method. J Ris Farm. 2021;1(1):1–8.

Septiani S, Gatera VA RD. AnalysisAntioxidants in Instant Ginger Drinks Using the 1,1-Diphenyl-2-Picrylhidrazyl (DPPH) Method. J Educator and Counselling. 2022;4(6):286–292.

Prastujati AU, Hilmi M, Khusna A WN. Effect of Sucrose Concentration on Physical Quality and Antioxidant Levels of Nata De Dragon. Agribios. 2023;21(1):41.

Magdalena R AKM. Analysis of Causes and Solutions for Finished Goods Reconciliation Using Statistical Hypothesis with the Independent Sample T-Test Testing Method at PT.Merck, Tbk. J Techno. 2019;16(2):35–48.

Mustari M, Bakhtiar B. Implementation of Human Values and Justice Values in Female Workers (Analysis of Employment Laws). SUPREMACY J Thought, Researcher in Social Sciences and Their Teaching.

Pradana GW, Ma'ruf MF ED. Application of the Student T-Test to Assess the Effectiveness of Textbook Development for the Fiscal Decentralization Course in the Department of Public Administration, Unesa. J Educator and Learning Dimensions. 2020;10(2):182–90.

Sidoretno WM F DA. Antioxidant Activity of Matoa (Pometia Pinnata) Leaves with Varying Drying Temperature. Indonesian Nat Res Pharm J. 2018;3(1):2502–8421.

Umami C AD. Effect of Adding Cinnamon on Antioxidant Activity and Total Sugar Content of Functional Drinks Secang and Stevia Leaves as Alternative Drinks for Type 2 Diabetes Mellitus Sufferers. J Nutr Coll. 2015;4(4):645–651.

Y S. Effect of Sucrose Concentration and Fermentation Time on the Characteristics of Bongkok Salak Kombu (Salacca edulis. Reinw). Agroscience (AGSCi). Agroscience (AGSCi). 2019;9(1):56.

Nainggolan I, Ruswanto A WR. Study of Variations in Sugar Addition and Heating Time on the Characteristics of Lemon Juice (Citrus Limon) Drinks. Agroforetech. 2023;1(03):1863–1872.

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Published

2024-02-29

How to Cite

Kamaluddin, I. D. K., Nawawi, N. M., Syamsu, R. F., Royani, I., & Bima, I. H. (2024). Comparison of Antioxidants in Red Ginger Powder Preparations with the Addition of Sucrose and Red Ginger Powder Preparations Without the Addition of Sucrose. Poltekita: Jurnal Ilmu Kesehatan, 17(4), 1436–1441. https://doi.org/10.33860/jik.v17i4.3554

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