Compatibility of Cells of the Nervous System with Structured Biodegradable Chitosan-Based Hydrogel Matrices

Research output: Contribution to journalArticleResearchpeer review

Authors

  • P. S. Timashev
  • K. N. Bardakova
  • N. V. Minaev
  • T. S. Demina
  • T. A. Mishchenko
  • E. V. Mitroshina
  • A. A. Akovantseva
  • A. V. Koroleva
  • D. S. Asyutin
  • L. F. Pimenova
  • N. A. Konovalov
  • T. A. Akopova
  • A. B. Solov’eva
  • I. V. Mukhina
  • M. V. Vedunova
  • B. N. Chichkov
  • V. N. Bagratashvili

External Research Organisations

  • Russian Academy of Sciences (RAS)
  • Nizhny Novgorod State Medical Acad.
  • Russian Ministry of Health
  • RAS - N.N.Semenov Institute of Chemical Physics
  • Nizhni Novgorod State University
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Details

Original languageEnglish
Pages (from-to)508-514
Number of pages7
JournalApplied Biochemistry and Microbiology
Volume52
Issue number5
Publication statusPublished - 10 Sept 2016
Externally publishedYes

Abstract

Hydrogel matrices for cell cultivation have been generated by two-photon laser polymerization of unsaturated chitosan derivatives and methacrylated hyaluronic acid. The adhesive and toxic properties of the matrices have been assessed, and the matrices have been shown to have a good compatibility with primary hippocampal cell cultures. The formation of morphologically normal neural networks by cells of the nervous system cultured on the surface of hydrogel matrices has been observed. The metabolic status of dissociated hippocampal cells cultured on the matrices was similar to that of the control cultures, as shown by the results of MTT reductase activity assay. Thus, matrices based on unsaturated polysaccharide derivatives crosslinked by laser irradiation showed good compatibility with differentiated cells of the nervous system and considerable potential for use in neurotransplantation.

Keywords

    chitosan, neural networks, regenerative therapy, scaffolds, structured hydrogels, two-photon polymerization

ASJC Scopus subject areas

Cite this

Compatibility of Cells of the Nervous System with Structured Biodegradable Chitosan-Based Hydrogel Matrices. / Timashev, P. S.; Bardakova, K. N.; Minaev, N. V. et al.
In: Applied Biochemistry and Microbiology, Vol. 52, No. 5, 10.09.2016, p. 508-514.

Research output: Contribution to journalArticleResearchpeer review

Timashev, PS, Bardakova, KN, Minaev, NV, Demina, TS, Mishchenko, TA, Mitroshina, EV, Akovantseva, AA, Koroleva, AV, Asyutin, DS, Pimenova, LF, Konovalov, NA, Akopova, TA, Solov’eva, AB, Mukhina, IV, Vedunova, MV, Chichkov, BN & Bagratashvili, VN 2016, 'Compatibility of Cells of the Nervous System with Structured Biodegradable Chitosan-Based Hydrogel Matrices', Applied Biochemistry and Microbiology, vol. 52, no. 5, pp. 508-514. https://doi.org/10.1134/s0003683816050161
Timashev, P. S., Bardakova, K. N., Minaev, N. V., Demina, T. S., Mishchenko, T. A., Mitroshina, E. V., Akovantseva, A. A., Koroleva, A. V., Asyutin, D. S., Pimenova, L. F., Konovalov, N. A., Akopova, T. A., Solov’eva, A. B., Mukhina, I. V., Vedunova, M. V., Chichkov, B. N., & Bagratashvili, V. N. (2016). Compatibility of Cells of the Nervous System with Structured Biodegradable Chitosan-Based Hydrogel Matrices. Applied Biochemistry and Microbiology, 52(5), 508-514. https://doi.org/10.1134/s0003683816050161
Timashev PS, Bardakova KN, Minaev NV, Demina TS, Mishchenko TA, Mitroshina EV et al. Compatibility of Cells of the Nervous System with Structured Biodegradable Chitosan-Based Hydrogel Matrices. Applied Biochemistry and Microbiology. 2016 Sept 10;52(5):508-514. doi: 10.1134/s0003683816050161
Timashev, P. S. ; Bardakova, K. N. ; Minaev, N. V. et al. / Compatibility of Cells of the Nervous System with Structured Biodegradable Chitosan-Based Hydrogel Matrices. In: Applied Biochemistry and Microbiology. 2016 ; Vol. 52, No. 5. pp. 508-514.
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abstract = "Hydrogel matrices for cell cultivation have been generated by two-photon laser polymerization of unsaturated chitosan derivatives and methacrylated hyaluronic acid. The adhesive and toxic properties of the matrices have been assessed, and the matrices have been shown to have a good compatibility with primary hippocampal cell cultures. The formation of morphologically normal neural networks by cells of the nervous system cultured on the surface of hydrogel matrices has been observed. The metabolic status of dissociated hippocampal cells cultured on the matrices was similar to that of the control cultures, as shown by the results of MTT reductase activity assay. Thus, matrices based on unsaturated polysaccharide derivatives crosslinked by laser irradiation showed good compatibility with differentiated cells of the nervous system and considerable potential for use in neurotransplantation.",
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T1 - Compatibility of Cells of the Nervous System with Structured Biodegradable Chitosan-Based Hydrogel Matrices

AU - Timashev, P. S.

AU - Bardakova, K. N.

AU - Minaev, N. V.

AU - Demina, T. S.

AU - Mishchenko, T. A.

AU - Mitroshina, E. V.

AU - Akovantseva, A. A.

AU - Koroleva, A. V.

AU - Asyutin, D. S.

AU - Pimenova, L. F.

AU - Konovalov, N. A.

AU - Akopova, T. A.

AU - Solov’eva, A. B.

AU - Mukhina, I. V.

AU - Vedunova, M. V.

AU - Chichkov, B. N.

AU - Bagratashvili, V. N.

PY - 2016/9/10

Y1 - 2016/9/10

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AB - Hydrogel matrices for cell cultivation have been generated by two-photon laser polymerization of unsaturated chitosan derivatives and methacrylated hyaluronic acid. The adhesive and toxic properties of the matrices have been assessed, and the matrices have been shown to have a good compatibility with primary hippocampal cell cultures. The formation of morphologically normal neural networks by cells of the nervous system cultured on the surface of hydrogel matrices has been observed. The metabolic status of dissociated hippocampal cells cultured on the matrices was similar to that of the control cultures, as shown by the results of MTT reductase activity assay. Thus, matrices based on unsaturated polysaccharide derivatives crosslinked by laser irradiation showed good compatibility with differentiated cells of the nervous system and considerable potential for use in neurotransplantation.

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