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Mendeleev Communications, 2022, Volume 32, Issue 5, Pages 658–660
DOI: https://doi.org/10.1016/j.mencom.2022.09.030 (Mi mendc758) 		 
This article is cited in 6 scientific papers (total in 6 papers)

Communications

In vivo behavior of carboxymethylcellulose based microgels containing 67Cu

M. A. Orlovaab, V. V. Spiridonova, G. A. Baduna, T. P. Trofimovaa, A. P. Orlova, A. S. Zolotovaa, A. B. Priselkovac, G. Yu. Aleshina, M. G. Chernyshevaa, A. A. Yaroslavova, S. N. Kalmykova

a Department of Chemistry, M.V. Lomonosov Moscow State University, Moscow, Russian Federation
b N.I. Pirogov Russian National Research Medical University, Moscow, Russian Federation
c D.V. Skobeltsyn Institute of Nuclear Physics, M.V. Lomonosov Moscow State University, Moscow, Russian Federation
Full-text PDF (533 kB) Citations (6)
DOI: https://doi.org/10.1016/j.mencom.2022.09.030
Abstract: Using a mouse model, an organ distribution for microgels of carboxymethyl cellulose cross-linked with 67Cu2+ ions was investigated and compared with the distribution of free 67Cu2+ ions from 67CuCl2. The clearance of the microgels through both liver and kidneys was demonstrated. An additional examination of distribution for [3H]CMC microparticles and [3H]CMC–Cu microgels revealed no copper release from the microgels in vivo.
Keywords: carboxymethyl cellulose, microgel, 67Cu, tritium, mouse model, organ distribution, radiation stability.
Document Type: Article
Language: English
Supplementary materials:
Supplementary_data_1.pdf (280.5 Kb)


Citation: M. A. Orlova, V. V. Spiridonov, G. A. Badun, T. P. Trofimova, A. P. Orlov, A. S. Zolotova, A. B. Priselkova, G. Yu. Aleshin, M. G. Chernysheva, A. A. Yaroslavov, S. N. Kalmykov, “In vivo behavior of carboxymethylcellulose based microgels containing 67Cu”, Mendeleev Commun., 32:5 (2022), 658–660
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  • https://www.mathnet.ru/eng/mendc758
  • https://www.mathnet.ru/eng/mendc/v32/i5/p658
    • This publication is cited in the following 6 articles:
    1. G. A. Badun, M. G. Chernysheva, “Tritium Thermal Activation Method. Features of Application, Modern Achievements, and Further Development Prospects”, Radiochemistry, 65:2 (2023), 185  crossref
    2. G. A Badun, M. G Chernysheva, “Metod termicheskoy aktivatsii tritiya. osobennosti primeneniya, sovremennye dostizheniya i dal'neyshie perspektivy razvitiya”, Radiohimiâ, 65:2 (2023), 158  crossref
    3. O. V. Surov, M. I. Voronova, “An approach to enhanced redispersibility of cellulose nanocrystals via freeze-drying their Pickering emulsions”, Mendeleev Commun., 33:2 (2023), 272–274  mathnet  crossref
    4. L. V. Sigolaeva, O. V. Efremova, D. V. Pergushov, “Temperature behavior of glucose oxidase immobilized into surface-attached stimuli-sensitive copolymer microgel”, Mendeleev Commun., 33:4 (2023), 559–561  mathnet  crossref
    5. A. V. Sarantsev, G. S. Mikhaylov, A. V. Gopin, G. A. Badun, M. G. Chernysheva, A. L. Nikolaev, “The effect of tritiated water on the alkaline phosphatase inactivation after ultrasound and gamma-rays irradiation”, Mendeleev Commun., 33:6 (2023), 858–860  mathnet  crossref
    6. M. A. Orlova, T. P. Trofimova, A. S. Zolotova, A. A. Larenkov, A. P. Orlov, A. A. Borodkov, V. V. Spiridonov, “Radiation stability of carboxymethylcellulose microgels cross-linked by copper ions”, Russ Chem Bull, 71:11 (2022), 2515  crossref
    Citing articles in Google Scholar: Russian citations, English citations
    Related articles in Google Scholar: Russian articles, English articles
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