Iron-based nanomaterials (IBNMs) have been widely applied in biomedicine applications including magnetic resonance imaging, targeted drug delivery, tumor therapy, and so forth, due to their unique magnetism, excellent biocompatibility, and diverse modalities. Further research on its enormous biomedical potential is still ongoing, and its new features are constantly being tapped and demonstrated. Among them, various types of IBNMs have demonstrated significant cancer therapy capabilities by regulating the tumor microenvironment (TME). In this review, a variety of IBNMs including iron oxide-based nanomaterials (IONMs), iron-based complex conjugates (ICCs), and iron-based single iron atom nanomaterials (ISANMs) will be introduced, and their advantages in regulating TME would also be emphasized. Besides, the recent progress of IBNMs for cancer diagnosis and treatment through the strategy of modulating TME will be summarized, including overcoming hypoxia, modulating acidity, decreasing redox species, and immunoregulation. Finally, the challenges and opportunities in this field are briefly discussed. This review is expected to contribute to the future design and development of next-generation TME-modulate IBNMs for cancer treatment.
Keywords: cancer treatment; iron‐based nanomaterials; modulate; responsive; tumor microenvironment.
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