O. B. Mokhodoeva scite author profile

This review summarizes recent progress and developments as well as the most important pitfalls in targeted alpha-particle therapy, covering single alpha-particle emitters as well as in vivo alpha-particle generators. It discusses the production of radionuclides like 211At, 223Ra, 225Ac/213Bi, labelling and delivery employing various targeting vectors (small molecules, chelators for alpha-emitting nuclides and their biomolecular targets as well as nanocarriers), general radiopharmaceutical issues, preclinical studies, and clinical trials including the possibilities of therapy prognosis and follow-up imaging. Special attention is given to the nuclear recoil effect and its impacts on the possible use of alpha emitters for cancer treatment, proper dose estimation, and labelling chemistry. The most recent and important achievements in the development of alpha emitters carrying vectors for preclinical and clinical use are highlighted along with an outlook for future developments.

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Study of 223Ra uptake mechanism by Fe3O4 nanoparticles: towards new prospective theranostic SPIONs

Mokhodoeva

Vlk

Málková

et al. 2016

J Nanopart Res

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Solid-phase extractants for radionuclide preconcentration and separation. New possibilities

2011

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Trends in Sorption Preconcentration Combined with Noble Metal Determination

2007

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Nowadays much attention is being paid to the determination of trace amounts of noble metals in geological, industrial, biological and environmental samples. The most promising techniques, such as inductively coupled plasma atomic emission spectrometry (ICP-AES), inductively coupled plasma mass spectrometry (ICP-MS) and electrothermal atomic absorption spectrometry (ETAAS) are characterized by high sensitivity. However, the accurate determination of trace noble metals has been limited by numerous interferences generated from the presence of matrix elements. To decrease, or eliminate, these interferences, the sorption preconcentration of noble metals is often used prior to their instrumental detection. A great number of hyphenated methods of noble metal determination using sorption preconcentration have been developed. This review describes the basic types of available sorbents, preconcentration procedures and preparations of the sorbent to the subsequent determination of noble metals. The specific features of instrumental techniques and examples of ETAAS, FAAS, ICP-AES, ICP-MS determinations after the sorption preconcentration of noble metals are considered. The references cited here were selected mostly from the period 1996 -2006.

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Application of Ionic Liquids for Solid-Phase Extraction of Trace Elements

et al. 2008

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Recovery of platinum group metals using magnetic nanoparticles modified with ionic liquids

Mokhodoeva

Shkinev

Maksimova

et al. 2020

Separation and Purification Technology

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Sorption preconcentration in combined methods for the determination of noble metals

2007

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Isolation of generator-produced 223Ra in 0.9-% NaCl solutions containing EDTA for direct radiotherapeutic studies

Mokhodoeva

Guseva

Dogadkin

2014

J Radioanal Nucl Chem

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O. B. Mokhodoeva

Progress in Targeted Alpha-Particle Therapy. What We Learned about Recoils Release from In Vivo Generators

Study of 223Ra uptake mechanism by Fe3O4 nanoparticles: towards new prospective theranostic SPIONs

Solid-phase extractants for radionuclide preconcentration and separation. New possibilities

Trends in Sorption Preconcentration Combined with Noble Metal Determination

Application of Ionic Liquids for Solid-Phase Extraction of Trace Elements

Recovery of platinum group metals using magnetic nanoparticles modified with ionic liquids

Sorption preconcentration in combined methods for the determination of noble metals

Isolation of generator-produced 223Ra in 0.9-% NaCl solutions containing EDTA for direct radiotherapeutic studies

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