Psychopharmacology and Addiction Biology

Психофармакология и биологическая наркология

1606-81812070-5670

Eco-Vector

321616

10.17816/phbn321616

Reviews

Научные обзоры

Review Article

Supplementing traditional drug formulation with the “needed” gases opens the way for the development of a new generation of drugs

Дополнение традиционной рецептуры лекарственных препаратов «нужными» газами открывает путь к разработке лекарств нового поколения

https://orcid.org/0000-0002-9829-9463

1613-9660

Urakov

Aleksandr L.

Ураков

Александр Ливиевич

Russian Federation

Dr. Sci. (Pharmacology), professor

д-р мед. наук, профессор, заведующий кафедрой общей и клинической фармакологии

urakoval@live.ru

https://orcid.org/0000-0003-1464-1127

8974-7477

Shabanov

Petr D.

Шабанов

Петр Дмитриевич

Russian Federation

Dr. Sci. (Pharmacology), professor

д-р мед. наук, профессор

pdshabanov@mail.ru

https://orcid.org/0000-0003-3034-4456

4344-3045

Gurevich

Konstantin G.

Гуревич

Константин Георгиевич

Russian Federation

Dr. Sci. (Pharmacology), professor

д-р мед. наук, профессор

kgurevich@mail.ru

https://orcid.org/0000-0003-1480-183X

8333-8772

Lovtsova

Lyubov V.

Ловцова

Любовь Валерьевна

Russian Federation

Dr. Sci. (Pharmacology), assistant professor

д-р мед. наук, доцент

lovcovalubov@mail.ru

Izhevsk State Medical AcademyИжевская государственная медицинская академия

Institue of Experimental MedicineИнститут экспериментальной медицины

Evdokimov Moscow State University of Medicine and DentistryМосковский государственный медико-стоматологический университет им. А.И. Евдокимова

Volga Medical Research UniversityПриволжский исследовательский медицинский университет

11052023

141

5142403202324032023

2023

Eco-Vector

Эко-Вектор

https://creativecommons.org/licenses/by-nc-nd/4.0

https://journals.eco-vector.com/1606-8181/article/view/321616

The mechanism of action of drugs is traditionally considered the specific action of the main active ingredients. Therefore, to study the mechanism of action of drugs, specialists use selected chemical compounds in chemically pure form. However, at the beginning of the 21st century, studies have reported that the action of drugs in dosage forms (tablets, solutions, etc.) is different from the action of chemically pure ingredients. The fact is that tablets, solutions, and other dosage forms contain not only the main ingredients but also auxiliary, shape-forming ingredients, and gases that supplement the specific action of the main ingredients with their nonspecific action. The gases penetrate the dosage forms from the air; however, selected gases can be introduced into the drugs under excessive pressure. Evidence presents that purposefully altering the gas content of drug tablets and solutions can regulate their mass, volume, specific gravity, porosity, physicochemical activity, and local pharmacokinetics and pharmacodynamics, especially when drugs are administered locally. Examples are shown on how the use of this regularity has allowed the development of a new generation of drugs in Russia, namely, drugs with a specific gas composition. Studies have reported that changing the gas composition of “old” (registered) drugs may turn them into new drugs. Some drugs invented in Russia included gases in their formulation, which play the role of auxiliary, shape-forming, and even main ingredients. Thus, the gas composition of drugs was proposed as an additional indicator of their quality and an important factor in their physicochemical activity. An expanded list of new generation drugs was hoped for in the near future.

Механизм действия лекарственных средств традиционно рассматривается как специфическое действие основных действующих ингредиентов. Поэтому для изучения механизма действия лекарств специалисты используют выбранные химические соединения в химически чистом виде. Однако в начале XXI в. появились сообщения о том, что действие лекарств в лекарственных формах (таблетках, растворах и др.) отличается от действия химически чистых ингредиентов. Дело в том, что таблетки, растворы и другие лекарственные формы содержат не только основные ингредиенты, но и вспомогательные, формообразующие ингредиенты и газы, которые своим неспецифическим действием дополняют специфическое действие основных ингредиентов. Объясняется это тем, что газы проникают в лекарственные формы из воздуха, но помимо этого выбранные газы могут вводиться в лекарства под избыточным давлением. Приводятся данные о том, что целенаправленное изменение содержания газов в лекарственных таблетках и растворах позволяет регулировать их массу, объем, удельный вес, пористость, физико-химическую активность, а также локальную фармакокинетику и локальную фармакодинамику, особенно при локальном применении лекарств. Показаны примеры того, как использование этой закономерности позволило разработать в России лекарства нового поколения, а именно — лекарства, имеющие определенный газовый состав. Сообщается, что изменение газового состава известных (зарегистрированных) лекарств позволяет превращать их в новые. Приводится перечень изобретенных в России лекарств, рецептура которых включает газы, играющие роль вспомогательных, формообразующих и даже основных ингредиентов. В связи с этим предложено контролировать газовый состав лекарств как дополнительный показатель их качества и важный фактор их физико-химической активности. Выражается надежда на то, что в ближайшем будущем перечень препаратов нового поколения будет расширен.

drugssearchdevelopmentcompositionqualitymodernizationphysicochemical properties

лекарствапоискразработкасоставкачествомодернизацияфизико-химические свойства

Dias DA, Urban S, Roessner U. A historical overview of natural products in drug discovery. Metabolites. 2012;2(2):303–336. DOI: 10.3390/metabo2020303

Dias D.A., Urban S., Roessner U. A historical overview of natural products in drug discovery // Metabolites. 2012. Vol. 2, No. 2. P. 303–336. DOI: 10.3390/metabo2020303

Andrade EL, Bento AF, Cavalli J, at al. Non-clinical studies required for new drug development - Part I: early in silico and in vitro studies, new target discovery and validation, proof of principles and robustness of animal studies. Braz J Med Biol Res. 2016;49(11):e5644. DOI: 10.1590/1414-431X20165644

Andrade E.L., Bento A.F., Cavalli J., at al. Non-clinical studies required for new drug development - Part I: early in silico and in vitro studies, new target discovery and validation, proof of principles and robustness of animal studies // Braz J Med Biol Res. 2016. Vol. 49, No. 11. ID e5644. DOI: 10.1590/1414-431X20165644

en.wikipedia.org [Internet]. Chemical element [cited 2022 Dec 15]. Available at: https://en.wikipedia.org/wiki/Chemical_element

en.wikipedia.org [Электронный ресурс]. Chemical element [дата обращения: 15.12.2022]. Доступ по: https://en.wikipedia.org/wiki/Chemical_element

priory.com [Internet]. Dahiya K., Mishra C. Drug discovery, development and approval process: Need for an interdisciplinary approach. Priori.com [cited 2022 Dec 15]. Available at: https://www.priory.com/pharmacy/Drug_Discovery.htm

priory.com [Электронный ресурс]. Dahiya K., Mishra C. Drug discovery, development and approval process: Need for an interdisciplinary approach // Priori.com [дата обращения: 15.12.2022]. Доступ по: https://www.priory.com/pharmacy/Drug_Discovery.htm

Chellan P, Sadler PJ. The elements of life and medicines. Phil Trans R Soc A. 2015;373(2037):20140182. DOI: 10.1098/rsta.2014.0182

Chellan P., Sadler P.J. The elements of life and medicines // Phil Trans R Soc A. 2015. Vol. 373, No. 2037. ID 20140182. DOI: 10.1098/rsta.2014.0182

United States Pharmacopeial Convention. United States Pharmacopeia 36 and National Formulary 31. 2013. (3 Vol Set). United States Pharmacopeial; 2012.

United States Pharmacopeial Convention. United States Pharmacopeia 36 and National Formulary 31. 2013. (3 Vol Set). United States Pharmacopeial, 2012.

Egorova KS, Ananikov AV. Toxicity of metal compounds: Knowledge and Myths. Organometallics. 2017;36(21):4071–4090. DOI: 10.1021/acs.organomet.7b00605

Egorova K.S., Ananikov A.V. Toxicity of metal compounds: Knowledge and Myths // Organometallics. 2017. Vol. 36, No. 21. P. 4071–4090. DOI: 10.1021/acs.organomet.7b00605

Jeevanandam J, Barhoum A, Chan YS, et al. Review on nanoparticles and nanostructured materials: history, sources, toxicity and regulations. Beilstein J Nanotechnol. 2018;9:1050–1074. DOI: 10.3762/bjnano.9.98

Jeevanandam J., Barhoum A., Chan Y.S., et al. Review on nanoparticles and nanostructured materials: history, sources, toxicity and regulations // Beilstein J Nanotechnol. 2018. Vol. 9. P. 1050–1074. DOI: 10.3762/bjnano.9.98

Urakov AL. The change of physical-chemical factors of the local interaction with the human body as the basis for the creation of materials with new properties. Epitőanyag – Journal of Silicate Based and Composite Materials. 2015;67(1):2–6. DOI: 10.14382/epitoanyag-jsbcm.2015.1

Urakov A.L. The change of physical-chemical factors of the local interaction with the human body as the basis for the creation of materials with new properties // Epitőanyag — Journal of Silicate Based and Composite Materials. 2015. Vol. 67, No. 1. P. 2–6. DOI: 10.14382/epitoanyag-jsbcm.2015.1

10.

Urakov AL. Development of new materials and structures based on managed physical-chemical factors of local interaction. IOP Conf Ser: Mater Sci Eng. 2016;123:012008. DOI: 10.1088/1757-899X/123/1/012008

Urakov A.L. Development of new materials and structures based on managed physical-chemical factors of local interaction // IOP Conf Ser: Mater Sci Eng. 2016. Vol. 123. ID 012008. DOI: 10.1088/1757-899X/123/1/012008

11.

Suppe F. The semantic conception of theories and scientific realism. Urbana: University of Illinois press, 1989. 496 p.

12.

Urakov AL, Urakova NA, Stolyarenko AP. How to turn an old medicine into a new medicine. J Bio Innov. 2020;9(5):774–777. DOI: 10.46344/JBINO

Urakov A.L., Urakova N.A., Stolyarenko A.P. How to turn an old medicine into a new medicine // J Bio Innov. 2020. Vol. 9, No. 5. P. 774–777. DOI: 10.46344/JBINO

13.

Urakov A, Alies M, Urakova N, et al. The change in the quality and properties of new materials by changing the content of gas in them. The 5-th International Conference on Competitive Materials and Technology Processes; 2018 Oct 8–12; Miskolc-Lillafured, Hungary. 2018. P. 49–50.

Urakov A., Alies M., Urakova N., et al. The change in the quality and properties of new materials by changing the content of gas in them // The 5-th International Conference on Competitive Materials and Technology Processes; 2018 Oct 8–12; Miskolc-Lillafured, Hungary. 2018. P. 49–50.

14.

Urakov A, Urakova N, Reshetnikov A. Oxygen alkaline dental’s cleaners from tooth plaque, food debris, stains of blood and pus: A narrative review of the history of inventions. J Int Soc Prev Community Dent. 2019;9(5):427–433. DOI: 10.4103/jispcd.JISPCD_296_19

Urakov A., Urakova N., Reshetnikov A. Oxygen alkaline dental's cleaners from tooth plaque, food debris, stains of blood and pus: A narrative review of the history of inventions // J Int Soc Prev Community Dent. 2019. Vol. 9, No. 5. P. 427–433. DOI: 10.4103/jispcd.JISPCD_296_19

15.

Urakov A, Urakova N. Osmotic activity of drugs is an important factor of their local action at their Injection site: What we don’t use to prevent post-injection abscesses. J Pharm Res Int. 2021;33(59B):647–650. DOI: 10.9734/jpri/2021/v33i59B34428

Urakov A., Urakova N. Osmotic activity of drugs is an important factor of their local action at their Injection site: What we don’t use to prevent post-injection abscesses // J Pharm Res Int. 2021. Vol. 33, No. 59B. P. 647–650. DOI: 10.9734/jpri/2021/v33i59B34428

16.

Urakov AL. Creation of “necessary” mixtures of baking soda, hydrogen peroxide and warm water as a strategy for modernization bleaching cleaners of ceramic. Epitőanyag – Journal of Silicate Based and Composite Materials. 2020;72(1):30–35. DOI: 10.14382/epitoanyag-jsbcm.2020.6

Urakov A.L. Creation of "necessary" mixtures of baking soda, hydrogen peroxide and warm water as a strategy for modernization bleaching cleaners of ceramic // Epitőanyag — Journal of Silicate Based and Composite Materials. 2020. Vol. 72, No. 1. P. 30–35. DOI: 10.14382/epitoanyag-jsbcm.2020.6

17.

web.lemoyne.edu [Internet]. Elements and Atoms: Chapter 6. Water is not an element: Lavoisier [cited 2022 Dec 15]. Available at: https://web.lemoyne.edu/~giunta/EA/LAVEAUann.HTML

web.lemoyne.edu [Электронный ресурс]. Elements and Atoms: Chapter 6. Water is not an element: Lavoisier [дата обращения: 15.12.2022]. Доступ по: https://web.lemoyne.edu/~giunta/EA/LAVEAUann.HTML

18.

Vigasin AA. Molecular structure and chemical properties of atmospheric water. Encyclopedia of Life Support Systems. Vol. 1. Types and Properties of Water. 2020.

Vigasin A.A. Molecular structure and chemical properties of atmospheric water. Encyclopedia of Life Support Systems. Vol. 1. Types and Properties of Water. 2020.

19.

Eisenberg D, Kauzmann W. The Structure and Properties of Water. New York, Oxford: Oxford University Press; 2005. DOI: 10.1093/acprof:oso/9780198570264.001.0001

Eisenberg D., Kauzmann W. The Structure and Properties of Water. New York, Oxford: Oxford University Press, 2005. DOI: 10.1093/acprof:oso/9780198570264.001.0001

20.

Von Guericke O. The Firmament and the waters above it, according to the sacred Scriptures. International Archives of the History of Ideas Archives internationales d’histoire des idées. Vol. 137. Springer; 2022. P. 72–74.

Von Guericke O. The Firmament and the waters above it, according to the sacred Scriptures. International Archives of the History of Ideas Archives internationales d'histoire des idées. Vol. 137. Springer, 2022. P. 72–74.

21.

Erduran S. Applying the philosophical concept of reduction to the chemistry of water: implications for chemical education. Sci Educ. 2005;14:161–171. DOI: 10.1007/s11191-005-0687-7

Erduran S. Applying the philosophical concept of reduction to the chemistry of water: implications for chemical education // Sci Educ. 2005. Vol. 14. P. 161–171. DOI: 10.1007/s11191-005-0687-7

22.

Cappellesso VG, dos Santos Petry N, Dal Molin DCC, Masuero AB. Use of crystalline waterproofing to reduce capillary porosity in concrete. J Build Rehabil. 2016;1:9. DOI: 10.1007/s41024-016-0012-7

Cappellesso V.G., dos Santos Petry N., Dal Molin D.C.C., Masuero A.B. Use of crystalline waterproofing to reduce capillary porosity in concrete // J Build Rehabil. 2016. Vol. 1. ID 9. DOI: 10.1007/s41024-016-0012-7

23.

Mielenz RC, Wolkodoff VE, Backstrom JE, et al. Origin, evolution and effects of the air void system in concrete. Part 1-entrained air in unhardened concrete. ACI Structural Journal. 1958;55:95–121.

Mielenz R.C., Wolkodoff V.E., Backstrom J.E., et al. Origin, evolution and effects of the air void system in concrete. Part 1-entrained air in unhardened concrete // ACI Structural Journal. 1958. Vol. 55. P. 95–121.

24.

Shi Y, Yang H, Zhou S, et al. Effect of atmospheric pressure on performance of AEA and air entraining concrete. Adv Mater Sci Eng. 2018;2018:6528412. DOI: 10.1155/2018/6528412

Shi Y., Yang H., Zhou S., et al. Effect of atmospheric pressure on performance of AEA and air entraining concrete // Adv Mater Sci Eng. 2018. Vol. 2018. ID 6528412. DOI: 10.1155/2018/6528412

25.

Zhu CH, Xie YJ, Zhang Y, et al. The effect of air pressure of environment on concrete’s air-containing. Concrete. 2004;4:9–10.

Zhu C.H., Xie Y.J., Zhang Y., et al. The effect of air pressure of environment on concrete’s air-containing // Concrete. 2004. Vol. 4. P. 9–10.

26.

Luo Z, Fu Z, Li X. Effect of atmospheric pressure on air content and air void parameters of concrete. Mag Concr Res. 2015;67(8):391–400. DOI: 10.1680/macr.14.00256

Luo Z., Fu Z., Li X. Effect of atmospheric pressure on air content and air void parameters of concrete // Mag Concr Res. 2015. Vol. 67, No. 8. P. 391–400. DOI: 10.1680/macr.14.00256

27.

Li Y, Wang Z, Wang L. The influence of atmospheric pressure on air content and pore structure of air-entrained concrete. J Wuhan Univ Technol Mater Sci Ed. 2019;34(6):1365–1370. DOI: 10.1007/s11595-019-2200-1

Li Y., Wang Z., Wang L. The influence of atmospheric pressure on air content and pore structure of air-entrained concrete // J Wuhan Univ Technol Mater Sci Ed. 2019. Vol. 34, No. 6. P. 1365–1370. DOI: 10.1007/s11595-019-2200-1

28.

Huo J, Wang Z, Chen H, He R. Impacts of low atmospheric pressure on properties of cement concrete in plateau areas: A literature review. Materials (Basel). 2019;12(9):1384. DOI: 10.3390/ma12091384

Huo J., Wang Z., Chen H., He R. Impacts of low atmospheric pressure on properties of cement concrete in plateau areas: A literature review // Materials (Basel). 2019. Vol. 12, No. 9. ID 1384. DOI: 10.3390/ma12091384

29.

Borosnyói A. Message from the editors. Epitőanyag – Journal of Silicate Based and Composite Materials. 2015;67(1):6. DOI: 10.14382/ epitoanyag-jsbcm.2015.1

Borosnyói A. Message from the editors // Epitőanyag – Journal of Silicate Based and Composite Materials. 2015. Vol. 67, No. 1. P. 6. DOI: 10.14382/ epitoanyag-jsbcm.2015.1

30.

Urakov A, Urakova N, Reshetnikov A, et al. About what is happening in the stomach after swallowing human river pebbles, gravel, chalk, clay and tablets drugs. Epitőanyag – Journal of Silicate Based and Composite Materials. 2016;68(4):110–113. DOI: 10.14382/epitoanyag-jsbcm.2016.19

Urakov A., Urakova N., Reshetnikov A., et al. About what is happening in the stomach after swallowing human river pebbles, gravel, chalk, clay and tablets drugs // Epitőanyag – Journal of Silicate Based and Composite Materials. 2016. Vol. 68, No. 4. P. 110–113. DOI: 10.14382/epitoanyag-jsbcm.2016.19

31.

Urakov A, Urakova N, Nikolenko V, et al. Current and emerging methods for treatment of hemoglobin related cutaneous discoloration: a literature review. Heliyon. 2021;7(1):e059542. DOI: 10.1016/j.heliyon.2021.e05954

Urakov A., Urakova N., Nikolenko V., et al. Current and emerging methods for treatment of hemoglobin related cutaneous discoloration: a literature review // Heliyon. 2021. Vol. 7, No. 1. ID e059542. DOI: 10.1016/j.heliyon.2021.e05954

32.

Gurevich K, Urakov A, Fisher E, Shubina Z. Alkaline hydrogen peroxide solution is an expectorant, pyolytic, mucolytic, hemolytic, and bleaching drug for treating purulent diseases, hematomas and bruising. J Pharm Res Int. 2022;34(30B):13–20. DOI: 10.9734/jpri/2022/v34i30B36073

Gurevich K., Urakov A., Fisher E., Shubina Z. Alkaline hydrogen peroxide solution is an expectorant, pyolytic, mucolytic, hemolytic, and bleaching drug for treating purulent diseases, hematomas and bruising // J Pharm Res Int. 2022. Vol. 34, No. 30B. P. 13–20. DOI: 10.9734/jpri/2022/v34i30B36073

33.

Urakov AL, Urakova NA, Stolyarenko AP. Development of children’s gel from nettle burn. Adv Biores. 2020;11(5):150–156. DOI: 10.15515/abr.0976-4585.11.5.150156

Urakov A.L., Urakova N.A., Stolyarenko A.P. Development of children's gel from nettle burn // Adv Biores. 2020. Vol. 11, No. 5. P. 150–156. DOI: 10.15515/abr.0976-4585.11.5.150156

34.

Shabanov PD, Fisher EL, Urakov AL. Hydrogen peroxide formulations and methods of their use for blood oxygen saturation. J Med Pharm Allied Sci. 2022;11(6):5489–5493. DOI: 10.55522/jmpas.V11I6.4604.

Shabanov P.D., Fisher E.L., Urakov A.L. Hydrogen peroxide formulations and methods of their use for blood oxygen saturation // J Med Pharm Allied Sci. 2022. Vol. 11, No. 6. P. 5489–5493. DOI: 10.55522/jmpas.V11I6.4604