Effect of volatile oils extracted from orange peels Citrus sinensis and silver nanoparticles manufactured from it on the concentration of glutathione (GPX) and Levels of oxidative stress Malondialdehyde (MDA) and ‏Lipid ‎peroxides (LPO) in the serum of ma

Hussein Fouad Hamza Al-Sharifi; Ruqayah Manoon Hasan Alnomani

doi:10.53730/ijhs.v6nS5.11789

Authors

Hussein Fouad Hamza Al-Sharifi Faculty of Education for Girls, University of Kufa, Iraq
Ruqayah Manoon Hasan Alnomani Faculty of Education for Girls, University of Kufa, Iraq

Keywords:

Citrus, D-limonene, Silver nanoparticles, LPO, GPX, MAD

Abstract

Citrus Citrus fruits are used for the prevention of many chronic diseases such as cancer, diabetes, and cardiovascular diseases. The leaves and fruits of the citrus genus contain antioxidants. The oil of the family plants has uses in folk medicine, The results also showed a significant increase in the concentration of glutathione ‎peroxidase (GPX) when treated with orange peel extract at a concentration of 450 ‎mg/kg and 1 ml/kg of hydrogen peroxide, which amounted to 64.77‎±1.3 ‎ μmol/L ‎Compared to With the treatment that was dosed only with 1 ml/kg of hydrogen ‎peroxide H₂O₂ as its concentration level was 43.69 ±4.1 μmol/L, there were also ‎significant differences for the treatment when dosed with 0.6 mg/kg with ‎nanosilver and 1 mm/kg of peroxide. The hydrogen peroxide amounted to 57.32 ‎‎±6.2 μmol/L, while the concentration of malondialdehyde (MAD) decreased ‎significantly when treated with orange peel extract at a concentration of 450 mg/kg ‎and 1 ml/kg of hydrogen peroxide, reaching 0.390±0.056 μmol/L (representing the ‎lowest concentration of MAD levels) compared to the treatment dosed with only 1 ‎ml/kg of hydrogen peroxide of 0.757‎‏±‏‎ 0.021‎‏ ‏μmol/L,,,

Downloads

Download data is not yet available.

References

Ahmad, M.M., S. Rehman, Z. Iqbal, F.M. Anjum and J.I. Sultan. (2006). Genetic variability to essential oil composition in four citrus fruit species. Pak. J. Bot., 38: 319-324.

Al-Snafi‏ ‏‎, A. E.(2016) Nutritional value and pharmacological importance of ‎citrus species grown in Iraq. Journal Of Pharmacy Volume 6, Issue 8 ‎Version. 1, PP. 76-108.‎

Andrea, V., N. Nadia, R.M. Teresa and A. Andrea. 2003. Analysis of some Italian lemon liquors (Limoncello). J. Agric. Food Chem., 51(17): 4978-4983

Ayala, A.; Muñoz, M. F., and Argüelles, S. (2014). Lipid ‎peroxidation: ‎production, metabolism, and signaling mechanisms of ‎malondialdehyde ‎and 4-hydroxy-2-nonenal. Oxidative medicine and ‎cellular longevity, ‎‎2014.‎‏

Balavijayalakshmi, J., and Ramalakshmi, V. (2017). Carica papaya peel ‎mediated synthesisof silver nanoparticles and its antibacterial activity ‎against human pathogens. Journalof Applied Research and Technology, ‎‎15(5), 413–422. http://doi.org/https://doi.org/10.1016/j.jart‎.

Caccioni, D. R. L., Guizzardi, M., Biondi, D. M., Renda, A., & Ruberto, G. (1998).Relationship between volatile components of citrus fruit essential oils and antimicrobial action on Penicillium digitatum and Penicillium italicum. International Journal of Food Microbiology, 43, 73–79.

Carvalho Freitas ,M. I. R., and Mirtes C. (2002). Anxiolytic and Sedative Effects of Extracts and Essential Oil from Citrus aurantium L., Pharmaceutical Society of Japan, Biol. Pharm. Bull. 25(12) 1629—1633.

Chutia, M., Bhuyan, P. D., Pathak, M. G., Sarma, T. C., & Boruah, P. (2009). Antifungal activity and chemical composition of Citrus reticulata Blanco essential oil against phytopathogens from North East India. LWT – Food Science and Technology, 42, 777–780.

Davidowski, S. ; Dimarco, B. (2009) The Extraction and Quantification of Limonene from Citrus Rinds Using GC/MS. PerkinElmer, Inc. Shelton, CT 06484 USA .

De Moraes Pultrini, A., Galindo, L. A. l., & Costa, M. (2006). Effects of the essential oilfrom Citrus aurantium L. In experimental anxiety models in mice. Life Sciences,78, 1720–1725.

Ferhat, M. A., Meklati, B. Y., Smadja, J., & Chemat, F. (2006). An improved microwave Clevenger apparatus for distillation of essential oils from orange peel. Journal of Chromatography A, 1112, 121–126.

Fisher, K., and Phillips, C. (2008). Potential antimicrobial uses of essential oils in food:Is citrus the answer? Trends in Food Science & Technology, 19, 156–164.

Hadi, H. I., & Aljanaby, A. A. J. (2022). Correlation between CD14 and CD163 in duodenal ulcer and gastric cancer patients infected with Helicobacter Pylori. International Journal of Health Sciences, 6(S1), 4211–4217. https://doi.org/10.53730/ijhs.v6nS1.5593

Kamal, G.M. , Ashraf, M. Y., Hussain, I.H. and Shahzadi, N. (2013). Antioxidant potential of peel essential oils of three Pakistani citrus species:Citrus reticulata, Citrus sinensis and Citrus paradisii. Pakistan Journal of Botany, Pak. J. Bot., 45(4): 1449-1454.

Medhat, A. R., & Aljanaby, A. A. J. (2022). Epidemiology of typhoid fever in Balad City, Iraq. International Journal of Health Sciences, 6(S1), 1049-1063. https://doi.org/10.53730/ijhs.v6nS1.4834

Mondello, L., A. Casilli, P.Q. Tranchida, P. Dugo and G. Dugo. 2005. Comprehensive two-dimensional GC for the analysis of citrus essential oils. Flavour Frag. J., 20: 136-140.

Moustafa, Y. M.; Moustafa, R. M.; Belacy, A.; Abou-El-Ela, S. H., ‎and ‎Ali, F. M. (2001). Effects of acute exposure to the radiofrequency ‎‎fields of cellular phones on plasma lipid peroxide and antioxidase ‎‎activities in human erythrocytes. Journal of pharmaceutical and ‎‎biomedical analysis, 26(4), 605-608.‎‏

Rehman, Z. (2006). Citrus peel extract – A natural source of antioxidant. Food Chemistry, 99, 450–454.

Santoso, P., Adrianta, K. A., & Wiranatha, I. G. (2021). Phytochemical screening and in vivo test of dewandaru (Eugenia uniflora L) fruit extract on mice exposed to cigarette smoke. International Journal of Health & Medical Sciences, 4(2), 246-252. https://doi.org/10.31295/ijhms.v4n2.1722

Sarjorno, P.R.; Ismiyarto; Ngadiwiyana; Adiwibawa Prasetya, N.B.; ‎RosydhUlfa; Ariestiani, B.; Kusuma, A.B.;Darmastuti, N.E.; ‎Rohman,J.H.F.(2019) Antioxidant activity from limonene ‎encapsulated by chitosan. IOP Conf.Ser. Mater. Sci. Eng. 509, 012113.

Scora, R. W., & Newman, J. E. (1967). A phonological study of the essential oils of the peel of Valencia oranges. Agricultural Meteorology, 4, 11–26.

Sun, J. (2007). D-Limonene: Safety and Clinical Applications, Alternative Medicine Review Volume 12, Number 3 , Page 259-264.

Suryasa, I. W., Rodríguez-Gámez, M., & Koldoris, T. (2021). Get vaccinated when it is your turn and follow the local guidelines. International Journal of Health Sciences, 5(3), x-xv. https://doi.org/10.53730/ijhs.v5n3.2938

Takenaka, T.; Murray, G. J.; Qin, G.; Quirk, J. M.; Ohshima, T.; ‎Qasba, ‎P. and Medin, J. A. (2000). Long-term enzyme correction ‎and lipid ‎reduction in multiple organs of primary and secondary ‎transplanted ‎Fabry mice receiving transduced bone marrow ‎cells. Proceedings of the ‎National Academy of Sciences, 97(13), 7515-‎‎7520.‎‏

Tao, N.; Chen, Y.; Wu, Y.; Wang, X.; Li, L.; Zhu, A.(2019) The terpene ‎limonene induced the green mold of ‎citrus fruit through regulation of ‎reactive oxygen species (ROS) homeostasis in Penicillium ‎digitalum ‎spores.Food Chem., 277, 414–422.‎

Tepe, B., H.A. Akpulat, M. Sokmen, D. Daferera, O. Yumrutas, E. Aydin, M. Polissiou and A. Sokmen. 2006. Screening of the antioxidant and antimicrobial properties of the essential oils of Pimpinella anisetum and Pimpinella flabellifolia from Turkey. Food Chem., 97: 719-724.

Viuda-Martos, M., Y. Ruiz-Navajas, J. Ferna´ndez-Lo´pez and J. Pe´rez A´lvarez. 2008. Antifungal activity of lemon (Citrus lemon L.), mandarin (Citrus reticulata L.), grapefruit (Citrus paradisi L.) and orange (Citrus sinensis L.) essential oils. Food Control, 19 (12): 1130-1138.

Yildiz, F.(2010) Advances in food biochemistry.CRC prss, Taylor and Francis ‎Grop. ‎

Zou , Z. ; Xi, W. ; Hu , Y. ; Nie, C. and Zhou , Z. (2016) Antioxidant ‎activity of Citrus fruits‏ ‏‎. Food Chemistry, 885-886.‎

Zulaikhah, S. T. (2017). The role of antioxidant to prevent free ‎radicals in the ‎body. Sains Medika, 8(1), 39-45.‎‏