DETERMINATION OF THE AMOUNT OF CHEMICAL ELEMENTS IN THE COMPOSITION OF “AS-MIR” BY INDUCTION-COUPLED PLASMA OPTICAL EMISSION SPECTROMETRY AND ITS EFFECT ON INFLAMMATION

Abstract

 In this study, the content of macro- and microelements in the phytochemical supplement “AS-MIR” was determined by the inductively coupled plasma optical emission spectrometry (ICP-OES) method and their biochemical significance in inflammatory processes was studied. The processes of ash extraction from the samples, dissolution in acids and calibration based on standard solutions were carried out. According to the results of the analysis, the mixture contained significantly high amounts of calcium, potassium, magnesium, sodium, phosphorus and iron. Trace concentrations of copper, manganese, chromium, molybdenum, lithium, boron, silicon and nickel were recorded from the microelements. The results obtained were compared with the participation of these elements in the processes of inflammation and carcinogenesis. The study showed that the components of the “AS-MIR” mixture have not only antioxidant, but also potential anti-inflammatory properties

Keywords

AS-MIR, ICP-OES, biogenic elements, inflammation, carcinogenesis, macroelements, microelements, oxidative stress, antioxidant protection, polyphenols

References

1. Mejías, N.; Vega-Galvez, A.;Gomez-Perez, L.S.; Pasten, A.; Uribe,E.; Cortés, A.; Valenzuela-Barra, G.;Camus, J.; Delporte, C.; Bernal, G.Health-Promoting Properties of Processed Red Cabbage (Brassica oleracea var. capitata f. rubra): Effects of Drying Methods on Bio-Compound Retention. Foods 2024, 13, 830. https://doi.org/10.3390/foods13060830
2. I.R.Asqarov, ; M.M.Bokiyev. АНТИОКСИДАНТНЫЕ СВОЙСТВА ХРЕНА. Журнал химии товаров народной медицины, 2022. p. 217–229.
3. I.R.Asqarov, ; M.M.Bokiyev. Determination of antioxidant and antiradical activity of "armoracia rusticana" plant. Qo‘qon DPI. Ilmiy xabarlar. 3 (11)-2023. P 16-19
4. Kell D.B. Iron behaving badly: inappropriate iron chelation as a major contributor to the aetiology of vascular and other progressive inflammatory and degenerative diseases // arXiv. — 2008. — Article 0808.1371.
5. Rauscher F.M., Qi H., Scott B.E., et al. Iron and reactive oxygen species: friends or foes of cancer cells? // Free Radical Biology & Medicine. — 2013. — Vol. 65. — P. 1325–1337.
6. Keen C.L., Uriu-Hare J.Y., Hawk S., et al. The nutritional significance, metabolism and homeostasis of copper // Advances in Experimental Medicine and Biology. — 1993. — Vol. 334. — P. 115–132.
7. Lungu I. The innovations regarding the use of zinc and selenium ions in cancer therapy // Journal of Oncology. — 2023. — Vol. 3, No. 2. — P. 1095.
8. Amhare A.F., Liu H., Qiao L., Deng H., Han J. Elemental influence: the emerging role of zinc, copper, and selenium in osteoarthritis // Nutrients. — 2025. — Vol. 17, No. 13. — Article 2069.
9. MRparolo, et al. Review: The effects of zinc, iron, selenium, and copper on cancer cells and tumor-associated macrophages // Tumor microenvironment review. — Torino: University repository, 2023. — P. 1–30.
10. Berridge M.J., Bootman M.D., Roderick H.L. Calcium signalling: dynamics, homeostasis and remodelling // Nature Reviews Molecular Cell Biology. — 2003. — Vol. 4(7). — P. 517–529.
11. Clapham D.E. Calcium signaling // Cell. — 2007. — Vol. 131(6). — P. 1047–1058.
12. Pétrilli V., Papin S., Dostert C. et al. Activation of the NALP3 inflammasome is triggered by low intracellular potassium // Cell. — 2007. — Vol. 119(5). — P. 847–860.
13. Lang F., Shumilina E. Regulation of ion channels by the serum- and glucocorticoid-inducible kinase SGK1 // FASEB Journal. — 2013. — Vol. 27(1). — P. 3–12.
14. Wolf F.I., Trapani V. Magnesium and its transporters in inflammation // Magnesium Research. — 2008. — Vol. 21(3). — P. 197–204.
15. Rosanoff A., Weaver C.M., Rude R.K. Suboptimal magnesium status in the United States: are the health consequences underestimated? // Nutrition Reviews. — 2012. — Vol. 70(3). — P. 153–164.
16. Finkel T., Holbrook N.J. Oxidants, oxidative stress and the biology of ageing // Nature. — 2000. — Vol. 408. — P. 239–247.
17. Toyokuni S. Role of iron in carcinogenesis: Cancer as a ferrotoxic disease // Cancer Science. — 2009. — Vol. 100(1). — P. 9–16.
18. Weinberg E.D. The role of iron in cancer // European Journal of Cancer Prevention. — 1996. — Vol. 5(1). — P. 19–36.
19. Ishida S., Lee J., Thiele D.J., Herskowitz I. Uptake of copper activates the Kup1-dependent signaling pathway // EMBO Journal. — 2002. — Vol. 21(4). — P. 677–684.
20. Denoyer D., Masaldan S., La Fontaine S., Cater M.A. Targeting copper in cancer therapy: ‘Copper That Cancer' // Metallomics. — 2015. — Vol. 7(11). — P. 1459–1476.