期刊
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES
卷 23, 期 12, 页码 -出版社
MDPI
DOI: 10.3390/ijms23126688
关键词
gold; silver; copper; ruthenium; palladium; platinum
Nanotechnology shows great potential in advanced cancer therapies, allowing for simultaneous drug administration and immune system engagement. Nanoparticles can locate metastases and deliver medications, effectively reducing tumors with minimal toxicity to healthy tissue.
Several authorities have implied that nanotechnology has a significant future in the development of advanced cancer therapies. Nanotechnology makes it possible to simultaneously administer drug combinations and engage the immune system to fight cancer. Nanoparticles can locate metastases in different organs and deliver medications to them. Using them allows for the effective reduction of tumors with minimal toxicity to healthy tissue. Transition-metal nanoparticles, through Fenton-type or Haber-Weiss-type reactions, generate reactive oxygen species. Through oxidative stress, the particles induce cell death via different pathways. The main limitation of the particles is their toxicity. Certain factors can control toxicity, such as route of administration, size, aggregation state, surface functionalization, or oxidation state. In this review, we attempt to discuss the effects and toxicity of transition-metal nanoparticles.
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