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Ingeniería de Nanoplataformas Basadas en Óxido de Hafnio para la Radiosensibilización de Precisión

Mingming Gao1, Kang Zhu2, Zhao Wang1

  • 1College of Biological and Chemical Engineering, Qilu Institute of Technology, Jinan, China.

Advanced healthcare materials
|January 27, 2026
PubMed
Resumen

Los nanomateriales de óxido de hafnio (HfO2) mejoran la radioterapia al aumentar la dosis de radiación en los tumores. Esta revisión cubre su desarrollo, mecanismos, síntesis y potencial futuro para el tratamiento de precisión del cáncer.

Sus antecedentes:

  • Los nanomateriales basados en óxido de hafnio (HfO2) aprovechan el alto número atómico (Z) para mejorar la radioterapia.
  • NBTXR3 es un nanoradiosensibilizador de HfO2 clínicamente establecido para tumores sólidos.
Palabras clave:
terapias combinadasóxido de hafniooptimización de materialessensibilización a la radioterapiatécnicas de síntesis

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Conclusiones:

  • Los nanoradiosensibilizadores de HfO2 muestran un potencial significativo para la radioterapia de precisión.
  • Es necesario abordar los desafíos en la fabricación escalable, la bioseguridad y la traslación clínica.
  • La investigación futura incluye plataformas sensibles a estímulos y sistemas teranósticos.