Magnetic hybrid Pd/Fe-oxide nanoparticles meet the demands for ablative thermo-brachytherapy.

IF 3 3区 医学 Q2 ONCOLOGY International Journal of Hyperthermia Pub Date : 2024-01-01 Epub Date: 2024-01-08 DOI:10.1080/02656736.2023.2299480
Rogier van Oossanen, Alexandra Maier, Jérémy Godart, Jean-Philippe Pignol, Antonia G Denkova, Gerard C van Rhoon, Kristina Djanashvili
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Abstract

Objective: To investigate the potential of hybrid Pd/Fe-oxide magnetic nanoparticles designed for thermo-brachytherapy of breast cancer, considering their specific loss power (SLP) and clinical constraints in the applied magnetic field.

Methods: Hybrid nanoparticles consisting of palladium-core and iron oxide shell of increasing thickness, were suspended in water and their SLPs were measured at varying magnetic fields (12-26 mT peak) and frequencies (50-730 kHz) with a commercial alternating magnetic field generator (magneTherm™ Digital, nanoTherics Ltd.).

Results: Validation of the heating device used in this study with commercial HyperMag-C nanoparticles showed a small deviation (±4%) over a period of 1 year, confirming the reliability of the method. The integration of dual thermometers, one in the center and one at the bottom of the sample vial, allowed monitoring of homogeneity of the sample suspensions. SLPs measurements on a series of nanoparticles of increasing sizes showed the highest heating for the diameter of 21 nm (SLP = 225 W/g) at the applied frequencies of 346 and 730 kHz. No heating was observed for the nanoparticles with the size <14 nm, confirming the importance of the size-parameter. The heating ability of the best performing Pd/Fe-oxide-21 was calculated to be sufficient to ablate tumors with a radius ±4 and 12 mm using 10 and 1 mg/mL nanoparticle concentration, respectively.

Conclusions: Nanoparticles consisting of non-magnetic palladium-core and magnetic iron oxide shell are suitable for magnetic hyperthermia/thermal ablation under clinically safe conditions of 346 kHz and 19.1 mT, with minimal eddy current effects in combination with maximum SLP.

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磁性钯/铁-氧化物混合纳米粒子可满足烧蚀热近距离治疗的需求。
目的研究设计用于乳腺癌热近距离治疗的钯/氧化铁混合磁性纳米粒子的潜力,同时考虑其在应用磁场中的比损耗功率(SLP)和临床限制因素。方法:将由钯核和厚度不断增加的氧化铁壳组成的混合纳米粒子悬浮在水中,使用商用交变磁场发生器(magneTherm™ Digital,nanoTherics Ltd.)在不同磁场(12-26 mT 峰值)和频率(50-730 kHz)下测量它们的比损耗功率:使用商用 HyperMag-C 纳米粒子对本研究中使用的加热装置进行了验证,结果表明,在一年的时间内,偏差很小(±4%),这证实了该方法的可靠性。双温度计(一个位于样品瓶中心,另一个位于底部)的集成可监测样品悬浮液的均匀性。对一系列尺寸不断增大的纳米颗粒进行的 SLPs 测量显示,在 346 和 730 kHz 的应用频率下,直径为 21 nm(SLP = 225 W/g)的纳米颗粒发热量最高。尺寸结论中的纳米颗粒未观察到加热现象:由非磁性钯核和磁性氧化铁外壳组成的纳米粒子适用于在 346 kHz 和 19.1 mT 的临床安全条件下进行磁热疗/热消融,结合最大 SLP,涡流效应最小。
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来源期刊
CiteScore
5.90
自引率
12.90%
发文量
153
审稿时长
6-12 weeks
期刊介绍: The International Journal of Hyperthermia
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