Journal of Magnesium and Alloys (Nov 2023)

A highly degradable Mg-Al-Ca alloy with superior anti-tumor efficacy

  • Qiwen Chen,
  • Yunhao Fan,
  • Shu Dong,
  • Ping Han,
  • Tian Xie,
  • Chenchen Wang,
  • Xiaoqin Zeng,
  • Wenjiang Ding,
  • Zhiqiang Meng,
  • Leyun Wang

Journal volume & issue
Vol. 11, no. 11
pp. 4206 – 4217

Abstract

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Molecule hydrogen (H2) has been used to suppress tumor growth. To employ the H2 therapy, it is necessary to use a proper agent for continuous generation of H2. As a biodegradable metal, magnesium (Mg) generates H2 in an aqueous environment, but the H2 release rate is still too low. Here, we design a Mg-Al-Ca (AX) alloy that degrades very rapidly due to the presence of a secondary phase Al2Ca. Having a reduction potential much higher than Mg and any other Mg-based secondary phases, Al2Ca accelerates the corrosion of the Mg matrix by a micro-galvanic process. Al2Ca also enhances the strength and ductility of the AX alloy. AX alloy rods show better anti-tumor efficacy than pure Mg rods in vivo. Moreover, implanted AX alloy rods can be heated under an alternating magnetic field to suppress large-size tumors. This work suggests that the H2 therapy using highly degradable Mg alloys may provide an effective cancer treatment.

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