Development of Composition and Technology of «Fatufiltrum» Granules
Keywords:
Enterosorbent, Granules, Technology, Glauconite, Quality indicators, Sorption capacity
Abstract
This study focuses on the development of "Fatufiltrum" granules, a comprehensive enterosorbent drug based on purified and activated glauconite. Enterosorbents are essential for detoxification in medical treatments, yet improved formulations are needed to enhance efficacy. The research addresses this gap by creating a scientifically substantiated composition containing activated glauconite, dry extract of common chicory, L-carnitine, and chromium picolinate. The granules were developed using a novel technology, and their qualitative indicators and sorption capacity were thoroughly investigated. Results demonstrate that "Fatufiltrum" has promising potential as an effective enterosorbent, with implications for advancing detoxification treatments.
References
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[14] Sh. Z. Mavlyanova, Sh. N. Mirzakulova, Yu. A. Alimukhamedova, and N. R. Umaralieva, "An Innovative Method of Treating Endogenous Intoxication in Patients with Atopic Dermatitis Caused by Bacterial Sensitization," Dermatovenereology and Aesthetic Medicine, no. 2, pp. 69-74, 2024.
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[2] A. E. Kormishina et al., "New Prospects for the Use of Medicinal Clay Undorovskaya," News of Higher Educational Institutions. Volga Region, no. 4, pp. 85-96, 2016.
[3] G. A. Galkina, E. I. Gribkova, and M. M. Kurashov, "Analysis of Enterosorbents Presented on the Retail Pharmaceutical Market," Pharmacy, no. 6, pp. 38-41, 2017.
[4] N. M. Kukharchik and A. V. Lishai, "Review of the Market of Enterosorbents in the Republic of Belarus," in Proceedings of the International Scientific and Practical Conference Dedicated to the 40th Anniversary of the Faculty of Pharmacy of Kemerovo State Medical University, Kemerovo, Russia, 2022, pp. 161-165.
[5] State Register, Medicines, Medical Products and Medical Equipment Approved for Use in Medical Practice, 26th ed., revised and expanded, Tashkent, Uzbekistan: Ministry of Health, Dec. 2022, 1067 p.
[6] State Register, Medical Operations Permit the Use of Instruments, Medical Certificates and Medical Equipment, 27th ed., Tashkent, Uzbekistan: Ministry of Health, 2023, 1119 p.
[7] List of Biologically Active Food Additives (BAA) That Have Passed the Examination for Safety Parameters, Uzbekistan: Ministry of Health, [Online]. Available: https://m.regmed.uz/submitted_documents_ns.php. Accessed: Aug. 8, 2024.
[8] D. O. Allaniyazov, F. K. Kalandarova, and D. O. Allaniyazov, "Study of the Chemical and Mineralogical Composition of Glauconite Concentrates of Karakalpakstan," Universum: Technical Sciences, vol. 1, no. 82, 2021. [Online]. Available: https://7universum.com/ru/tech/archive/item/11182. Accessed: Aug. 30, 2024.
[9] N. S. Faizullaeva, N. R. Umaralieva, and A. M. Usubbaeva, "The Use of Mineral Sorbents in the Works of Ibn Sina," in Proceedings of the IV International Scientific and Practical Conference: Avicenna and Innovations in Modern Pharmaceutics, Tashkent, Uzbekistan, May 2021, pp. 107-108.
[10] M. Yu. Volkov and A. A. Kalilets, "Enterosorbent and Method of Its Production," Russian Patent 2545711 C1, Apr. 10, 2015.
[11] Sh. Z. Mavlyanova, M. Makhsudov, Sh. N. Mirzakulova, and H. Jaffarov, "A New Method of Detoxifying the Body with External Use of Glauconite in Patients with Allergic Skin Diseases," Dermatovenereology and Aesthetic Medicine, no. 1, pp. 18-24, 2023.
[12] Sh. Z. Mavlyanova, A. I. Ismagilov, and Sh. N. Mirzakulova, "Detoxifying Therapeutic Effect of the Natural Mineral Glauconite in Patients with Atopic Dermatitis," Journal Therapist, no. 4, pp. 24-32, 2023.
[13] S. M. Alimova, Sh. Z. Mavlyanova, L. I. Shevchenko, and T. R. Alimov, "Use of a Domestic Drug for Experimental Allergic Dermatitis," Medical Journal of Uzbekistan, no. 2, pp. 99-102, 2018.
[14] Sh. Z. Mavlyanova, Sh. N. Mirzakulova, Yu. A. Alimukhamedova, and N. R. Umaralieva, "An Innovative Method of Treating Endogenous Intoxication in Patients with Atopic Dermatitis Caused by Bacterial Sensitization," Dermatovenereology and Aesthetic Medicine, no. 2, pp. 69-74, 2024.
[15] V. I. Chueshova, Industrial Technology of Drugs, vol. 2, Kharkov, Ukraine: NFAU MTK-Book, 2012, 715 p.
[16] State Pharmacopoeia, 14th ed., vol. 2, Moscow, Russia: Ministry of Health, 2018, pp. 2031-2033.
[17] E. T. Zhilyakova et al., "Determination of Technological and Adsorption Parameters of Medical Clays," Scientific Gazette of BelSU, no. 18, pp. 229-234, 2013.
[18] S. V. Zvonarev, Fundamentals of Mathematical Modeling, Ekaterinburg, Russia: Ural University Publishing House, 2019, 112 p.
[19] N. N. Zubov, S. Z. Umarov, and S. A. Bunin, Mathematical Methods and Models in Pharmaceutical Science and Practice: A Guide for Pharmacists and Managers of Pharmaceutical Enterprises, St. Petersburg, Russia: Polytechnic University Publishing House, 2008, 249 p.
[20] V. G. Sergeants and E. V. Skidanov, "Granules from Natural Glauconite: Composition and Method of Obtaining the Composition for the Production of Granules," Russian Patent 2429907, Apr. 13, 2010.
Published
2024-10-01
How to Cite
Ravshanovna, U. N., Khurshidovna, M. F., & Sultanovna, F. N. (2024). Development of Composition and Technology of «Fatufiltrum» Granules. Central Asian Journal of Medical and Natural Science, 5(4), 902-908. Retrieved from https://cajmns.centralasianstudies.org/index.php/CAJMNS/article/view/2630
Section
Articles
This work is licensed under a Creative Commons Attribution 4.0 International License.
