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Magnetic nanoparticles and clusters for magnetic hyperthermia: optimizing their heat performance and developing combinatorial therapies to tackle cancer

Helena Gavilán, Sahitya Kumar Avugadda, Tamara Fernández, Nisarg Soni, Marco Cassani, T. Binh, R.W. Chantrell, Teresa Pellegrino

2021Chemical Society Reviews502 citationsDOIOpen Access PDF

Abstract

different synthetic routes, focusing on which MNP features have allowed unprecedented heating efficiency levels to be achieved in MHT and highlighting nanoplatforms that prevent magnetic heat loss in the intracellular environment. Moreover, we review the advances on MNP-based nanoplatforms that embrace the concept of multimodal therapy, which aims to combine MHT with chemotherapy, radiotherapy, immunotherapy, photodynamic or phototherapy. Next, for a better control of the therapeutic temperature at the tumor, we focus on the studies that have optimized MNPs to maintain gold-standard MHT performance and are also tackling MNP imaging with the aim to quantitatively assess the amount of nanoparticles accumulated at the tumor site and regulate the MHT field conditions. To conclude, future perspectives with guidance on how to advance MHT therapy will be provided.

Topics & Concepts

Magnetic nanoparticlesHyperthermiaNanoparticleNanotechnologyMagnetic hyperthermiaCancer therapyComputer scienceMaterials scienceCancerMedicineInternal medicineNanoparticle-Based Drug DeliveryNanoplatforms for cancer theranosticsMachine Learning in Materials Science
Magnetic nanoparticles and clusters for magnetic hyperthermia: optimizing their heat performance and developing combinatorial therapies to tackle cancer | Litcius