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Russian Chemical Reviews, 2018, Volume 87, Issue 9, Pages 859–881
DOI: https://doi.org/10.1070/RCR4811 (Mi rcr4232) 		 
This article is cited in 42 scientific papers (total in 42 papers)

Nanosized vehicles for delivery of photosensitizers in photodynamic diagnosis and therapy of cancer

A. F. Mironov, K. A. Zhdanova, N. A. Bragina

MIREA — Russian Technological University, Moscow
English full-text Citations (42) Russian version article
DOI: https://doi.org/10.1070/RCR4811
Abstract: The review summarizes the state of the art of research in the field of nanosized vehicles for delivery of photosensitizers for diagnosis and treatment of malignant neoplasms by photodynamic cancer therapy. Data on the utilization of porphyrin- and phthalocyanine-based photosensitizers in medical practice, the employment of vehicles for their delivery and the development of new effective medications are considered. The review focuses on the most commonly used and proven vehicles based on lipids, lipoproteins and polymers. Strategies for increasing efficiency of nanosized delivery vehicles using various vector molecules specific to different types of cancer are discussed. A systematic analysis of the published data is presented and the available tools for increasing the efficacy of photodynamic therapy by means of nanosized delivery vehicles are assessed.
The bibliography includes 188 references.
Funding agency Grant number
Russian Science Foundation 16-13-10092
17-73-10470
Received: 07.02.2018
Bibliographic databases:
Document Type: Article
Language: English
Original paper language: Russian
Citation: A. F. Mironov, K. A. Zhdanova, N. A. Bragina, “Nanosized vehicles for delivery of photosensitizers in photodynamic diagnosis and therapy of cancer”, Russian Chem. Reviews, 87:9 (2018), 859–881
Citation in format AMSBIB
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\by A.~F.~Mironov, K.~A.~Zhdanova, N.~A.~Bragina
\paper Nanosized vehicles for delivery of photosensitizers in photodynamic diagnosis and therapy of cancer
\jour Russian Chem. Reviews
\yr 2018
\vol 87
\issue 9
\pages 859--881
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\crossref{https://doi.org/10.1070/RCR4811}
\adsnasa{https://adsabs.harvard.edu/cgi-bin/bib_query?2018RuCRv..87..859M}
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Linking options:
  • https://www.mathnet.ru/eng/rcr4232
  • https://doi.org/10.1070/RCR4811
  • https://www.mathnet.ru/eng/rcr/v87/i9/p859
    • This publication is cited in the following 42 articles:
    1. S. V. Kurmaz, I. V. Ul'yanov, N. S. Emel'yanova, Russ Chem Bull, 74:1 (2025), 210  crossref
    2. Svetlana V. Kurmaz, Ivan V. Ulyanov, Nina S. Emelyanova, Vladimir A. Kurmaz, Alexey V. Kozlov, Lev R. Sizov, Alexander Yu. Rybkin, Mendeleev Communications, 34:4 (2024), 492  crossref
    3. Yu. V. Tertyshnaya, E. S. Morokov, K. A. Zhdanova, M. S. Zakharov, Polym. Sci. Ser. D, 17:3 (2024), 730  crossref
    4. A.M. Tsyklinskaya, D.A. Polivanovskaia, N.E. Grammatikova, E.S. Zhavoronok, K.P. Birin, I.N. Senchikhin, Reactive and Functional Polymers, 205 (2024), 106099  crossref
    5. Miao Su, Hailong Tian, Li Zhou, Qiong Li, Shuqi Wang, Canhua Haung, E. C. Nice, Shaojiang Zheng, Jingquan Li, Materials & Design, 226 (2023), 111613  crossref
    6. D. B. Berezin, S. O. Kruchin, N. V. Kukushkina, E. A. Venediktov, M. O. Koifman, A. V. Kustov, Photochem, 3:1 (2023), 171  crossref
    7. K. A. Zhdanova, A. V. Ivantsova, F. Yu. Vyalba, M. N. Usachev, M. A. Gradova, O. V. Gradov, N. Yu. Karpechenko, N. A. Bragina, Pharmaceutics, 15:1 (2023), 269  crossref
    8. A. Yu. Rybkin, A. V. Kozlov, A. Yu. Belik, A. I. Kotelnikov, Nanomaterials for Photodynamic Therapy, 2023, 349  crossref
    9. A. V. Kustov, Ph. K. Morshnev, O. V. Shukhto, N. L. Smirnova, N. V. Kukushkina, O. I. Koifman, D. B. Berezin, Russ. Chem. Bull., 72:2 (2023), 566  crossref
    10. Yu. V. Tertyshnaya, A. V. Lobanov, E. S. Morokov, G. A. Buzanov, Z. R. Abushakhmanova, Polymers, 15:4 (2023), 1027  crossref
    11. M. P. Tsvirko, V. V. Gurinovich, J. Appl. Spectrosc., 90:3 (2023), 521  crossref
    12. Yu. S. Bortnevskaya, N. S. Zakharov, A. P. Zhdanov, M. S. Grigoriev, K. A. Zhdanova, N. A. Bragina, K. Yu. Zhizhin, Russ. J. Inorg. Chem., 68:6 (2023), 729  crossref  crossref
    13. N. Sannikova, K. Zhdanova, A. Spitsyna, N. Bragina, M. Fedin, O. Krumkacheva, Russ. J. Coord. Chem., 48:1 (2022), 1–8  crossref  isi  scopus
    14. A. M. Shabbirahmed, M. Kumaravel, P. Somu, S. Paul, A. Khadria, Handbook of Oxidative Stress in Cancer: Therapeutic Aspects, 2022, 1  crossref
    15. M. E. Nikolaeva, A. V. Nechaev, E. V. Shmendel, R. A. Akasov, M. A. Maslov, A. F. Mironov, Molecules, 27:9 (2022), 2763  crossref
    16. M. A. Gradova, O. V. Gradov, A. V. Bychkova, M. V. Motyakin, I. S. Ionova, A. V. Lobanov, Chemical Physics, 562 (2022), 111655  crossref
    17. Ying Liu, Yanwei Li, Yulong Wen, Awais Ahmed, Journal of Nanomaterials, 2022 (2022), 1  crossref
    18. A. V. Kustov, D. B. Berezin, S. O. Kruchin, D. V. Batov, Russ. J. Phys. Chem., 96:4 (2022), 793  crossref
    19. M. A. Gradova, O. V. Gradov, A. V. Lobanov, T. G. Movchan, E. V. Plotnikova, A. Yu. Chernyadyev, O. M. Startseva, D. V. Belykh, J. Porphyrins Phthalocyanines, 26:11 (2022), 708  crossref
    20. M. A. Gradova, O. V. Gradov, A. V. Lobanov, A. V. Bychkova, E. D. Nikolskaya, N. G. Yabbarov, M. R. Mollaeva, A. E. Egorov, A. A. Kostyukov, V. A. Kuzmin, I. S. Khudyaeva, D. V. Belykh, International Journal of Molecular Sciences, 24:1 (2022), 345  crossref
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