Compliance of Anthrax Recombinant Vaccine Prototype With the Requirements to Immune-Biological Preparations

Микшис, Н. И.; Семакова, А. П.; Popova, P. Yu.; Кудрявцева, О. М.; Бугоркова, С. А.; Комиссаров, А. В.; Germanchuk, V. G.; Попов, Ю. А.

doi:10.15789/2220-7619-2018-3-388-392

Cited by 3 publications

(1 citation statement)

References 7 publications

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“…As a result of two other stabilisation options, the lyophilised preparation consisted of a porous mass in the form of a milky white tablet capable of complete dissolution in a 0.9% sodium chloride solution in less than a minute, forming a clear, colourless liquid without impurities or flakes. Upon further study of the specific properties of the prototype vaccine, the advantages of using 1% sucrose + 3% glycine drying medium were revealed with the vaccine prototype meeting the stated requirements for immunobiological preparations [28].…”

Section: сведения о вакцинах не содержащих живых микроорганизмов в фоmentioning

confidence: 99%

Lyophilisation of inactivated vaccines

Komissarov¹,

Bibikov²,

Volokh³

et al. 2019

PROCEEDINGS OF UNIVERSITIES APPLIED CHEMISTRY AND BIOTECHNOLOGY

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A review of national and foreign scientific and patent literature, as well as the regulatory documents on the lyophilisation of inactivated vaccines, is presented. According to the State Register of Medicinal Products, all inactivated vaccines produced in dried form in the Russian Federation are obtained by freeze-drying. The excipients (drying media) used in the freeze-drying of vaccines are evaluated in terms of their qualitative and quantitative composition. A review of the features of the main stages of freeze-drying processes, e.g. freezing, sublimation (primary drying) and desorption (secondary drying) is given alongside an analysis of their distinctive features. The information on inactivated vaccines in the lyophilisate form registered in the Russian Federation is systematised. Available information on inactivated vaccines produced in the United States in the form of a lyophilisate is also presented. An analysis of the literature data reveals a significant variety of excipients used in lyophilisation. The influence of the sealing method of consumer packaging on the quality of preparations is considered, i.e. either in the oxygen or inert gas media or under vacuum. It is noted that the entire range of vaccines produced and registered in Russia is sealed under vacuum or in inert gas (i.e. in the absence of oxygen). A number of examples are cited to demonstrate the effect of technological freeze -drying process parameters on the quality of the preparations. It is shown that the preservation of a vaccine's properties during freeze-drying is influenced by a number of parameters, including the freezing rate and the temperature-time parameters of the primary drying and desorption processes. It is est ablished that the correct selection of the qualitative and quantitative characteristics of the drying medium contributes to the preservation of the target properties of lyophilised preparations. The analysis of literature data allows the influence of the parameters described in the review to be considered when developing the technology for the production of immunobiological preparations for the prevention and treatment of infectious diseases.* Российский научно-исследовательский противочумный институт «Микроб», г. Саратов, Российская Федерация ** Саратовский государственный аграрный университет им. Н.И. Вавилова, г. Саратов, Российская Федерация Komissarov A.V., Bibikov D.N., Volokh O.A., et al. Lyophilisation of inactivated… Комиссаров А.В., Бибиков Д.Н., Волох О.А. и др. Лиофилизация вакцин, не содержащих… 404 ФИЗИКО-ХИМИЧЕСКАЯ БИОЛОГИЯ / PHYSICOCHEMICAL BIOLOGY Резюме: Представлен обзор отечественной и зарубежной научной и патентной литературы, а также нормативных документов, посвященных вопросам лиофилизации вакцин, не содержащих живых микроорганизмов. По данным Государственного реестра лекарственных средств выявлено, что все вакцины, не содержащие живых микроорганизмов и выпускаемые в сухой фо рме в Российской Федерации, получены путем сублимационного высушивания. Дано представление о качественном и количестве...

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Section: сведения о вакцинах не содержащих живых микроорганизмов в фоmentioning

confidence: 99%

Lyophilisation of inactivated vaccines

Komissarov¹,

Bibikov²,

Volokh³

et al. 2019

PROCEEDINGS OF UNIVERSITIES APPLIED CHEMISTRY AND BIOTECHNOLOGY

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CPG oligonucleotides as vaccine adjuvants for prevention of infectious diseases

Zhirov,

Kovalev,

Kurcheva

et al. 2024

Mol. Gen. Microbio. Viro. (Russian)

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Biotechnological Potential of Antigens of Plague, Cholera, Tularemia and Anthrax Pathogens, Obtained at the Russian Research Institute “Microbe”

Kireev,

Gromova,

Borisova

et al. 2024

Problemy Osobo Opasnykh Infektsii

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Russian Research Anti-Plague Institute “Microbe” of the Rospotrebnadzor develops and implements methods for obtaining and purifying biologically active substances of the causative agents of plague, cholera, tularemia and anthrax, which are used in the design of preventive and diagnostic preparations.The aim of the review is to summarize and systematize the accumulated data on the isolation, purification and assessment of antigens and toxins of plague, cholera, tularemia and anthrax pathogens. Attention is also paid to the application and prospects for using the obtained antigens for the design of medical immunobiological preparations (MIBPs). The Institute “Microbe” is a reference center for plague, hence modern immunodiagnostic drugs are necessary and in demand. Antigen-level preventive drugs against the infections listed above are also the subject of study by the institute’s staff. The main stages of isolation, purification and analysis of antigens include the selection or construction of a suitable strain; cultivation, extraction, concentration and purification of antigens and toxins using biotechnological techniques that allow for obtaining and preserving the biologically active substance of interest to the researcher. To study the antigenic activity of purified antigens, laboratory animals are involved, the immune response is recorded and analyzed, and antiserum is obtained. This is followed by the stage of investigating the physicochemical and immunobiological properties of the isolated antigen preparations and drawing up an antigen profile. The characterized antigens are used for the design of preventive and diagnostic drugs.

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Compliance of Anthrax Recombinant Vaccine Prototype With the Requirements to Immune-Biological Preparations

Cited by 3 publications

References 7 publications

Lyophilisation of inactivated vaccines

Lyophilisation of inactivated vaccines

CPG oligonucleotides as vaccine adjuvants for prevention of infectious diseases

Biotechnological Potential of Antigens of Plague, Cholera, Tularemia and Anthrax Pathogens, Obtained at the Russian Research Institute “Microbe”

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