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Mendeleev Communications, 2022, Volume 32, Issue 2, Pages 281–282
DOI: https://doi.org/10.1016/j.mencom.2022.03.043 (Mi mendc640) 		 
This article is cited in 5 scientific papers (total in 5 papers)

Communications

Enzymatic hydroxyapatite as a carrier for yttrium-90 and copper and ruthenium radionuclides

V. K. Dolgovaa, A. V. Gopina, A. L. Nikolaeva, A. P. Orlova, T. P. Trofimovaab, M. A. Orlovaac

a Department of Chemistry, M.V. Lomonosov Moscow State University, Moscow, Russian Federation
b Institute of Physiologically Active Compounds, Federal Research Center of Problems of Chemical Physics and Medicinal Chemistry, Russian Academy of Sciences, Chernogolovka, Moscow Region, Russian Federation
c N.I. Pirogov Russian National Research Medical University, Moscow, Russian Federation
Full-text PDF (224 kB) Citations (5)
DOI: https://doi.org/10.1016/j.mencom.2022.03.043
Abstract: The use of hydroxyapatite obtained by enzymatic synthesis (HAPE) as a carrier of radionuclides (yttrium-90, copper(II) as a prototype of 64Cu and 67Cu and ruthenium-103 as a prototype of 97Ru) is considered. The processes of sorption and desorption of ions in different solutions are compared. The sorption of copper and yttrium on HAPE is almost irreversible, in contrast to the sorption of ruthenium, for which the reverse process depends on the medium.
Keywords: hydroxyapatite, alkaline phosphatase, 103Ru, 90Y, copper ions, sorption, desorption, sorption isotherms.
Document Type: Article
Language: English
Supplementary materials:
Supplementary_data_1.pdf (726.3 Kb)


Citation: V. K. Dolgova, A. V. Gopin, A. L. Nikolaev, A. P. Orlov, T. P. Trofimova, M. A. Orlova, “Enzymatic hydroxyapatite as a carrier for yttrium-90 and copper and ruthenium radionuclides”, Mendeleev Commun., 32:2 (2022), 281–282
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    • This publication is cited in the following 5 articles:
    1. Ivan N. Chernykh, Varvara K. Dolgova, Alexander V. Gopin, Alexander V. Severin, Andrey N. Kharlanov, Alexander L. Nikolaev, “Using enzymatic synthesis of hydroxyapatite as a technique to develop materials for biomedical applications”, Ceramics International, 50:6 (2024), 9149  crossref
    2. A. V. Severin, D. O. Lapshin, V. Yu. Yaryshev, S. V. Maksimov, T. P. Trofimova, M. A. Orlova, “Features of physicochemical properties of the hydroxyapatite—ruthenium system depending on the stage of metal ion introduction into the cocrystallization process”, Russ Chem Bull, 73:4 (2024), 828  crossref
    3. Wenjun Wu, Jianlong Wang, “Adsorption removal of uranium from aqueous solution by hydroxyapatite: Recent advances and prospects”, Annals of Nuclear Energy, 206 (2024), 110609  crossref
    4. María del Carmen De Lama-Odría, Luis J. del Valle, Jordi Puiggalí, “Lanthanides-Substituted Hydroxyapatite for Biomedical Applications”, IJMS, 24:4 (2023), 3446  crossref
    5. A. V. Gopin, V. K. Dolgova, A. V. Severin, E. A. Logutenkova, “Features of sorption binding of Y3+ ions with hydroxyapatite of various textural organization”, Russ Chem Bull, 72:7 (2023), 1505  crossref
    Citing articles in Google Scholar: Russian citations, English citations
    Related articles in Google Scholar: Russian articles, English articles
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