Preparation of ferrimagnetic magnetite microspheres for in situ hyperthermic treatment of cancer

Masakazu Kawashita, Masashi Tanaka, Tadashi Kokubo, Yoshiaki Inoue, Takeshi Yao, Sunao Hamada, Teruya Shinjo

研究成果: Article査読

143 被引用数 (Scopus)

抄録

Ferrimagnetic microspheres 20-30 μm in diameter are useful as thermoseeds for inducing hyperthermia in cancers, especially for tumors located deep inside the body. The microspheres are entrapped in the capillary bed of the tumors when they are implanted through blood vessels and heat cancers locally by their hysteresis loss when placed under an alternating magnetic field. In the present study, preparation of magnetite (Fe 3O 4) microspheres 20-30 μm in diameter was attempted by melting powders in high-frequency induction thermal plasma, and by precipitation from aqueous solution. The microspheres prepared by melting powders in high-frequency induction thermal plasma were composed of a large amount of Fe 3O 4 and a small amount of wustite (FeO), and those subsequently heat treated at 600°C for 1 h under 5.1×10 3 Pa were fully composed of Fe 3O 4 1 μm in size. The saturation magnetization and coercive force of the heat-treated microspheres were 92 emu g -1 and 50 Oe, respectively. The heat generation of the heat-treated microspheres was estimated to be 10 W g -1, under 300 Oe and 100 kHz. The microspheres prepared by precipitation from aqueous solution consisted of β-FeOOH, and those subsequently heat treated at 400°C for 1 h in a 70% CO 2+30% H 2 atmosphere consisted of Fe 3O 4 crystals 50 nm in size. The saturation magnetization and coercive force of the heat-treated microspheres were 53 emu g -1 and 156 Oe, respectively. The heat generation of the heat-treated microspheres was estimated to be 41 W g -1, under 300 Oe and 100 kHz. The latter microspheres are believed to be promising thermoseeds for hyperthermic treatment of cancer.

本文言語English
ページ(範囲)2231-2238
ページ数8
ジャーナルBiomaterials
26
15
DOI
出版ステータスPublished - 2005 5月
外部発表はい

ASJC Scopus subject areas

  • バイオエンジニアリング
  • セラミックおよび複合材料
  • 生物理学
  • 生体材料
  • 材料力学

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