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Albumin Stabilized Fe@C Core–Shell Nanoparticles as Candidates for Magnetic Hyperthermia Therapy

by Masashi Suzuki , Liliya I. Shurygina , Sergey D. Shandakov , Timofei Zatsepin , Maria Antonieta Ramírez-Morales , Alexey N. Zhigach , Polina M. Kalachikova , Javier A. Ramirez B. , Albert G. Nasibulin , Evgeny N. Nikolaev , Toru Maekawa , Dmitry V. Krasnikov , Anastasia E. Goldt , Asma Ben Salah

in Biocompatibility / Bovine serum albumin / Cancer therapies / Carbon / Chemistry / Condensates / Core-shell particles / core–shell nanoparticles / Electromagnetic properties / Electromagnetism / Evaporation / ferromagnetic particles / ferromagnetic particles; core–shell nanoparticles; magnetic hyperthermia; iron nanoparticles; flow-levitation method / Fever / flow-levitation method / Heat / Heat generation / High temperature / Hyperthermia / Iron / iron nanoparticles / Levitation / Low concentrations / Magnetic fields / magnetic hyperthermia / Magnetic properties / Nanoparticles / QD1-999 / Serum albumin

2022

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Albumin Stabilized Fe@C Core–Shell Nanoparticles as Candidates for Magnetic Hyperthermia Therapy

2022

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Albumin Stabilized Fe@C Core–Shell Nanoparticles as Candidates for Magnetic Hyperthermia Therapy

2022

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Journal Article

Albumin Stabilized Fe@C Core–Shell Nanoparticles as Candidates for Magnetic Hyperthermia Therapy

Masashi Suzuki,

Liliya I. Shurygina,

Sergey D. Shandakov,

Timofei Zatsepin,

Maria Antonieta Ramírez-Morales,

Alexey N. Zhigach,

Polina M. Kalachikova,

Javier A. Ramirez B.,

Albert G. Nasibulin,

Evgeny N. Nikolaev,

Toru Maekawa,

Dmitry V. Krasnikov,

Anastasia E. Goldt,

Asma Ben Salah

2022

Overview

Carbon-encapsulated iron nanoparticles (Fe@C) with a mean diameter of 15 nm have been synthesized using evaporation–condensation flow–levitation method by the direct iron-carbon gas-phase reaction at high temperatures. Further, Fe@C were stabilized with bovine serum albumin (BSA) coating, and their electromagnetic properties were evaluated to test their performance in magnetic hyperthermia therapy (MHT) through a specific absorption rate (SAR). Heat generation was observed at different Fe@C concentrations (1, 2.5, and 5 mg/mL) when applied 331 kHz and 60 kA/m of an alternating magnetic field, resulting in SAR values of 437.64, 129.36, and 50.4 W/g for each concentration, respectively. Having such high SAR values at low concentrations, obtained material is ideal for use in MHT.

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Publisher

MDPI AG,MDPI

Subject

Biocompatibility

/ Bovine serum albumin

/ Cancer therapies

/ Carbon

/ Chemistry

/ Condensates

/ Core-shell particles