This study demonstrates the results of experimental studies aimed at the development of technology and assessment of quality of drug substance containing a dry extract of a flavonoid-containing herb and silver nanoparticles, as well as the optimal technological parameters of the phytosynthesis process and methods for the qualitative and quantitative content of biologically active substances have been developed. Phytosynthesis of silver nanoparticles was carried out using plant extracts, in which biologically active substances, flavonoids, act as an agent that reduces silver ions to nanoparticles. The optimal technology for the production of silver nanoparticles was chosen and the sample obtained at t =50 °C and the ratio of extract: silver nitrate = 1:4 was chosen as the optimal one. Additionally, the expiration date of the drug was determined for the development of regulatory documentation. During quality assessment, it was found that the quantitative content of silver nanoparticles should be at least 2 mg/g. As a result, it became possible to produce a substance used in the preparation of local antibacterial and antifungal drugs for the treatment of skin diseases.

Silver nanoparticles, , substance, technology

"General Technical Regulations for medicines" RCM No. 365 dated 27.10.2016

Letter dated October 29, 2001 N 291- 22/144 On Amendment No. 2 to the Article of the State Pharmacopoeia XI ed. "Methods of microbiological control of medicines".

Shermatova I.B. Technology of obtaining silver nanoparticles by the method of green synthesis and dosage forms based on them: (PhD) in pharm.Sciences (15.00.01)/ Shermatova Iroda Bakhtiyor kizi.–"Tashkent Pharmaceutical Institute", Tashkent, 2022.-116 p.

I.B.Shermatova. Technology for the production of silver nanoparticles by the method of green synthesis and dosage forms based on them. Autoref.dis. Tashkent.-2022.-42s.

I.B.Shermatova, M.G.Ismailova. Obtaining and studying technology of dry substance silver nanoparticles obtained by "Green synthesis” method using Scutellaria Iscanderi L.//Medico- Legal Update An international Journal , India, Volume

,Number-4, Q3, October- December 2020, рр.: 1255-1267.

I.Ignatov, O.V.Mosin Methods of obtaining fine nanoparticles of colloidal silver// naukovedenie.- No. 3.-p.1-16.

Belaya Ya.S., Lemeshevsky V.O. The problem of antibiotic resistance of microorganisms in the modern world// Materials of the 20th International Scientific Conference.- Minsk : IVC of the Ministry of Finance, 2020. – Part 2. – pp. 24-26.

Bogoslovskaya O. A., Glushchenko N. N., Olkhovskaya I. P. et al. Copper nanoparticles are biofunctional agents for pro - and eukaryotic cells. conf. "Nanoscale systems. Structure-properties- technologies". -2007. - P. 413.

Chen X., Schluesener H. Nanosilver: a nanoproduct in medical application// Toxicol. Lett. — 2008. — V.176, №1. — Р. 1–12.

Volodina L. A., Olkhovskaya I. P. K mechanism of toxic action of copper nanoparticles on Escherichia coli bacteria. conf. "Nanoscale systems. Structure- properties-technologies". MOSCOW, 2007, P.441.

Tkachenko M. L., Zhiakina L. E., Moshensky Yu. V.medicinal evtectics as promising materials for pharmaceutical technologists.conf."Nanoscale systems. Structure-properties-technologies". MOSCOW, 2007, P. 440.

Chegodar D.V. Pathogenetic justification of the use of nanosilver solution in the treatment of inflammatory processes: dissertation of Candidate of Medical Sciences: 14.03.03.- Simferopol, -2016.- 120 p.144.

Rakhmetova A.A. Study of the biological activity of copper nanoparticles differing in dispersion and phase composition: Abstract. diss.Candidate of Biological Sciences.RF.-2011.-125 p.

R. R. Yamanova, G. R. Nikolaenko. About the use of silver nanoparticles in light industry//Bulletin of the Technological University. -2013.-Volume 6.- No.22.-C.39- 41.

T.A.Fedotcheva, A.Yu.Olenin, K.M.Starostin, G.V.Lisichkin, V.V.Banin, N.L.Shimanovchky, Prospects for the use of gold, silver and iron oxide nanoparticles to increase the effectiveness of chemotherapy for tumor neoplasms// chemical and Pharmaceutical journal.- 2015.-Vol. 49.-No. 4. pp.11- 22.1Temporary instructions for carrying out work to determine the shelf life of medicines based on the method of "accelerated aging" at elevated temperature.- And-42-2-2-82.- M.-1983.- p.18.

State Pharmacopoeia XI ed., 2. , 1989. p. 187.

State Pharmacopoeia of the Republic of Uzbekistan., 2021. Volume 1.–pp.55-57.

Catalog "HIMEDIA". Dry nutrient media and additives, 2003. Mumbai, India. [electronic resource]. Access mode: http://www.himedialabs.ru/2- uncategorised / (accessed: 12/30/2016).

"General Technical Regulations for medicines" RCM No. 365 dated 27.10.2016

Letter dated October 29, 2001 N 291- 22/144 On Amendment No. 2 to the Article of the State Pharmacopoeia XI ed. "Methods of microbiological control of medicines".

Shermatova I.B. Technology of obtaining silver nanoparticles by the method of green synthesis and dosage forms based on them: (PhD) in pharm.Sciences (15.00.01)/ Shermatova Iroda Bakhtiyor kizi.–"Tashkent Pharmaceutical Institute", Tashkent, 2022.-116 p.

I.B.Shermatova. Technology for the production of silver nanoparticles by the method of green synthesis and dosage forms based on them. Autoref.dis. Tashkent.-2022.-42s.

I.B.Shermatova, M.G.Ismailova. Obtaining and studying technology of dry substance silver nanoparticles obtained by "Green synthesis” method using Scutellaria Iscanderi L.//Medico- Legal Update An international Journal , India, Volume

,Number-4, Q3, October- December 2020, рр.: 1255-1267.

I.Ignatov, O.V.Mosin Methods of obtaining fine nanoparticles of colloidal silver// naukovedenie.- No. 3.-p.1-16.

Belaya Ya.S., Lemeshevsky V.O. The problem of antibiotic resistance of microorganisms in the modern world// Materials of the 20th International Scientific Conference.- Minsk : IVC of the Ministry of Finance, 2020. – Part 2. – pp. 24-26.

Bogoslovskaya O. A., Glushchenko N. N., Olkhovskaya I. P. et al. Copper nanoparticles are biofunctional agents for pro - and eukaryotic cells. conf. "Nanoscale systems. Structure-properties- technologies". -2007. - P. 413.

Chen X., Schluesener H. Nanosilver: a nanoproduct in medical application// Toxicol. Lett. — 2008. — V.176, №1. — Р. 1–12.

Volodina L. A., Olkhovskaya I. P. K mechanism of toxic action of copper nanoparticles on Escherichia coli bacteria. conf. "Nanoscale systems. Structure- properties-technologies". MOSCOW, 2007, P.441.

Tkachenko M. L., Zhiakina L. E., Moshensky Yu. V.medicinal evtectics as promising materials for pharmaceutical technologists.conf."Nanoscale systems. Structure-properties-technologies". MOSCOW, 2007, P. 440.

Chegodar D.V. Pathogenetic justification of the use of nanosilver solution in the treatment of inflammatory processes: dissertation of Candidate of Medical Sciences: 14.03.03.- Simferopol, -2016.- 120 p.144.

Rakhmetova A.A. Study of the biological activity of copper nanoparticles differing in dispersion and phase composition: Abstract. diss.Candidate of Biological Sciences.RF.-2011.-125 p.

R. R. Yamanova, G. R. Nikolaenko. About the use of silver nanoparticles in light industry//Bulletin of the Technological University. -2013.-Volume 6.- No.22.-C.39- 41.

T.A.Fedotcheva, A.Yu.Olenin, K.M.Starostin, G.V.Lisichkin, V.V.Banin, N.L.Shimanovchky, Prospects for the use of gold, silver and iron oxide nanoparticles to increase the effectiveness of chemotherapy for tumor neoplasms// chemical and Pharmaceutical journal.- 2015.-Vol. 49.-No. 4. pp.11- 22.1Temporary instructions for carrying out work to determine the shelf life of medicines based on the method of "accelerated aging" at elevated temperature.- And-42-2-2-82.- M.-1983.- p.18.

State Pharmacopoeia XI ed., 2. , 1989. p. 187.

State Pharmacopoeia of the Republic of Uzbekistan., 2021. Volume 1.–pp.55-57.

Catalog "HIMEDIA". Dry nutrient media and additives, 2003. Mumbai, India. [electronic resource]. Access mode: http://www.himedialabs.ru/2- uncategorised / (accessed: 12/30/2016).