Biomedical cell product model for preclinical studies carried out on a large laboratory animal

Autor: M. N. Egorikhina, D. Ya. Aleinik, Yu. P. Rubtsova, I. N. Charykova, A. A. Struchcov, A. A. Ezhevskaya, V. I. Zagrekov, L. N. Sosnina, E. V. Zagaynova
Jazyk: ruština
Rok vydání: 2020
Předmět:
Zdroj: Вестник трансплантологии и искусственных органов, Vol 22, Iss 1, Pp 142-156 (2020)
Druh dokumentu: article
ISSN: 1995-1191
DOI: 10.15825/1995-1191-2020-1-142-156
Popis: Objective: to develop a model of a biomedical cell product that is consistent with the «homologous drug» strategy based on protocols for preparing the cell component and scaffold carrier for preclinical studies on a large laboratory animal (pig). Materials and methods. Biomedical cell products and skin equivalents (SE), were formed using plasma cryoprecipitate prepared from blood plasma of healthy donors and mesenchymal stem cells (MSCs) of human adipose tissue. Cryoprecipitate from pig blood plasma and human adipose tissue-derived MSCs were used to form model skin equivalents (mSE). Bright-field microscopy, phase-contrast microscopy (Leica DMI 3000B) and fluorescence microscopy (Cytation 5 imager; BioTek, USA) were used to monitor the state of cells in the culture and in the composition of the equivalents. Scaffolds for equivalents were tested for cytotoxicity (MTT test, direct contact method). The cell distribution density was characterized by author’s method (Patent No. 2675376 of the Russian Federation). Results. An mSE was developed for preclinical studies on a large laboratory animal (pig). In the mSE, components that change from halogen to xenogenic conditions during transplantation to the animal were replaced. A comprehensive approach to preparing mSE was presented. It includes sampling of primary pig biomaterial, extraction and characterization of adipose tissue-derived MSCs, preparation of a scaffold carrier for the corresponding «homologous drug» strategy. Cytotoxicity of the mSE scaffold was evaluated. It was shown that mSE provides mechanical support (similar to SE) to cells, as well as comparable development of cellular events during cultivation. Conclusion. A model of a biomedical cell product was developed. This model is consistent with the «homologous drug» strategy for preclinical studies on a large laboratory animal (pig). The paper presented a comprehensive approach to developing a model equivalent based on protocols for preparation and testing of the cellular component, the scaffold carrier and the ready-to-use model equivalent.
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