Volume 2, Issue 1, June 2018, Page: 1-9
In vitro Investigations of Cumin Oil as Antioxidants Agent on Fresh and Fried Edible Oil
Faroug Bakheit Mohamed Ahmed, Department of Biochemistry, Faculty of Science and Technology, Shendi University, Shendi, Sudan
Received: May 7, 2018;       Accepted: May 31, 2018;       Published: Jul. 30, 2018
DOI: 10.11648/j.ijfet.20180201.11      View  1266      Downloads  98
This study was designed to determine the effect of cumin oil as antioxidant on the chemical properties of stored sunflower oil. The study is complementary to a previous study in which cumin oil was used to demonstrate its effect on fried sunflower oil. Two samples of sunflower oil were subjected to chemical tests before and after the addition of cumin oil. In addition, four equal samples in volume of sunflower oil were prepared and then the following steps were made, nothing on the first sample, the second sample was transformed into a water bath at the boiling point for 20 min, to the third sample cumin oil added, and in the fourth both process addition and boiling occurred. Also two of fried sun flower oil of taameia and fish was prepared in the same above volume after purification and filtration, after that to both samples cumin oil was added separately. The six samples were then transferred to a storage environment similar to that in the local market in Shendi area for a period of time from 10 October 2017 to 10 April 2018. At the end of storage the samples were investigated to assess their chemical properties. The results showed a difference in the values of the properties, where there was a clear decrease in the values of peroxide and acidity, while an increase in the saponification value was observed and this may be attributed to antioxidant compounds in cumin oil, reaction between hydroxyl group compounds of cumin with acid groups of sample oil which lead to decline carboxyl groups in oil, and could be due to increase of ester formation result from previous reactions respectively for three chemical properties. In addition, the investigations resulted in a clear reduction in the peroxide value of the mixtures oil compared with pure sunflower oil and unexpectedly for the temperature, the boiling of fresh and mixture oil before storage had appeared a decrease in peroxide value.
Cumin, Spices, Antioxidant, Peroxide, Saponification, Taameia
To cite this article
Faroug Bakheit Mohamed Ahmed, In vitro Investigations of Cumin Oil as Antioxidants Agent on Fresh and Fried Edible Oil, International Journal of Food Engineering and Technology. Vol. 2, No. 1, 2018, pp. 1-9. doi: 10.11648/j.ijfet.20180201.11
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Marina, A. M., Wan Rosli, W. I., Noorhidayah, M., 2013. Quantitative Analysis of Peroxide Value in Virgin Coconut Oil by ATRFTIR Spectroscopy, TheOpen Conference Proceedings Journal 4, (Suppl-2, M13) 53-56.
Lupea, A. X., 2004. Transformări ale biocompuşilor procesaţi în scop alimentar, Editura CEPUSM, Chişinău, 26-72.
Guillen M. D., Cabo N. (2002). Fourier transform infrared spectra datd versus peroxide and anisideine values to determine oxidative stability of edible oils. Food Chem 77:503-10.
Silva F. M., Borges F., Ferreria M. A. (2001). Effects of phenolic propyl esters on the oxidative stability of refined sunflower oil. J. Agric. Food Chem. 49:3936-41.
Hmilton R. J. (1994). The chemistry of rancidity in foods. In: Allen J. C., Hamilton R. J. editors. Rancidity in foods. 3rd ed. London: Blakle academic& professional. P 1-21.
Halliwell B (1995). Antioxidant characterization. Methodology and mechanism. Biochem Pharmacol, 49: 1341-1348.
Frankel EN and Meyer AS (2000). The problems of using one-dimensional methods to evaluate multifunctional food and biological antioxidants. Journal of the Science of Food and Agriculture, 80: 1925-1941.
Saha D and Tamrakar A (2011). Xenobiotics, oxidative stress, free radicals vs. antioxidants: dance of death to heaven’s life. Asian Journal of Research in Pharmacology Science, 1: 36.
Stuckey BN (1980). Hand book of food additives: CRC Press Boca Raton FL.
Abramovic, H., Abram, V., 2005. Physico-Chemical Properties, Composition and Oxidative Stability of Camelina sativa Oil, Food Technol. Biotechnol., 43 (1), 63-70.
Choe, E., Ming B. D., 2006. Mechanisms and factors for edible oil oxidation. Comp. Rev. Food Sci. Food Safety, 5 (4): 169-186.
CODEX-STAN 210 - 1999. Standard for Named Vegetable Oils.
Kirk, R. and Sawyer R. 1991. Pearson’s composition and analysis of foods. 9th edition, Addison Wesley longman ltd. England. pp. 9- 29, 608-640.
Kapila, N., Seneviratne and D. M. S., Dissanayake, 2005. Effect of Method of Extraction on the Quality of Coconut oil. J. Sci. Univ., Kelaniya 2: 63-72.
Abayeh, O. J., Aina, E. A. and Okuonghae, C. O. 1998. Oil content and oil quality characteristics of some Nigerian oil seeds. J. Pure and Applied Sci. 1: 17-23.
Asiedu, J. J. 1989. Processing Tropical Crops. A Technological Approach. MacMillan Publishers, London, pp. 170172, 226-246.
Manual of methods of analysis of food, oils and fats (Lab manual 2). (2015). Food safety and standards authority of India ministry of health and family Welfare government of India New Delhi, P: 21-27.
Pearson, D. (2008). ‘Chemical analysis of food’, Cornell University.
Henry, L. N. (2016). Effect of Light and Air on the Quality and Stability of Selected Vegetable Oils. International Journal of Innovative Research in Science, Engineering and Technology. Vol. 5, Issue 5. P: 6609 -16.
Science daily, ‘Toxic Substances in Oxidation of Fats and Oil’. United Kingdom, 2005.
Srivastava KC. Extracts from Two Frequently Consumed Spices- Cumin (Cuminurn cyminum) and Turmeric (Curcuma longa) - inhibit platelet aggregation and alter eicosanoid biosynthesis in human blood platelets. Prostaglandins Leukotnenes and Essential Fatty Acids 1989; 137: 57-64.
Nazeeem, P. A. 1995. The spices of India. The Herb, Spice, and Medicinal Plant Digest 13(1): 1-5.
Raghavan, S. 2007. Handbook of spices, seasonings, and flavorings. 2nd Ed. CRC Press, Taylor & Francis Group, Boca Raton.
Peter, K. V. 2001. Handbook of herbs and spices Vol. 1. Woodhead Publishing Limited Abington Hall, Abington Cambridge, England.
Jirovetz L, Buchbauer G, Stoyanova AS, Georgiev EV, Damianova ST. Composition, quality control and antimicrobial activity of the essential oil of cumin (Cuminum cyminum L.) seeds from Bulgaria that had been stored for up to 36 years. International Journal of Food Science and Technology 2005; 40: 305-310.
Johri RK. Cuminum cyminum and Carum carvi: An update. Pharmacogn Rev 2011; 5(9): 63–72. 59.
Al-Hashemi FHY. Chromatographic separation and identification of some volatile oils, organic acids and phenols from the seeds of cuminum cyminum growing in Iraq. IJRRAS 2014; 19(1): 80-90.
Rebey IB, Jabri-Karoui I, Hamrouni-Sellami I, Bourgou S, Limam F, Marzouk B. Effect of drought on the biochemical composition and antioxidant activities of cumin (Cuminum cyminum L.) seeds. Industrial Crops and Products 2012; 36: 238-245.
Hanif C, Ayesha T, Adila S, Saeed M, Tanveer A, Ashfaq M. Physico-chemical investigation and antimicrobial activity of essential oil of Cuminum cyminum L. World applied Sciences Journal. 2012; 19(3): 330-333.
De M, De AK, Mukhopadhvay R, Banerjee AB, Micro M. Antimicrobial activity of Cuminum cyminum L. Ars Pharmaceutica 2003; 44: 257-69.
Derakhshan S, Sattari M, Bigdeli M. Effect of subinhibitory concentrations of cumin (Cuminum cyminum L.) seed essential oil and alcoholic extract on the morphology, capsule expression and urease activity of Klebsiella pneumoniae. Int J Antimicrob Agents 2008; 32: 432-436.
Nadeem M and Riaz A (2012). Cumin (Cuminum cyminum) as a potential source of antioxidants. PAK. J. FOOD SCI., 22(2), 2012:101-107.
Iacobellis NS, Cantore PL, Capasso F, Senatore F. Antibacterial activity of Cuminum cyminum L. and Carum carvi L. essential oils. J Agric Food Chem 2005; 53: 57-61. 48.
Gallo M, Ferracane R, Giulia G, Ritieni A, Fagliano V. Microwave assisted extraction of phenolic compounds from four different spices. Molecules 2010; 15(3): 6366-6374.
Goto T, Takahashi N, Hirai S, Kawada T. Various terpenoids derived from herbal and dietary plants function as PPAR modulators and regulate carbohydrate and lipid metabolism. PPAR research 2010; 1-9.
Kunzemann J, Herrmann K. Isolation and identification of flavon (ol)-o-glycosides in caraway (Carum carvi L.), fennel (Foeniculum vulgare Mill.), anise (Pimpinella anisum L.), and coriander (Coriandrum sativum L.), and of flavon-Cglycosides in anise. I. Phenolics of spices (author’s transl). Z Lebensm Unters Forsch 1977; 164(3):194-200.
Rodov V, Vinokur Y, Gogia N, Chkhikvishvili I. Hydrophilic and lipophilic antioxidant capacities of Georgian spices for meat and their possible health implications.
Paradise India (2010) Wonders of Cumin. Volume 1 Issue 5; 2-3.
[Lee HS. Cuminaldehyde: aldose reductase and α- glucosidase inhibitor derived from Cuminum cyminum L. seeds. Journal of agricultural and food chemistry 2005; 53: 2446-50.
Morshedi D, Aliakbari F. The inhibitory effects of cuminaldehyde on amyloid fibrillation and cytotoxicity of alpha-synuclein. Modares Journal of Medical Sciences: Pathobiology 2012; 15: 45-60.
AOAC Official Method 965.33 Peroxid Value of Oils and Fats. Titration Method.
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