Infrared-Emitting Multimodal Nanostructures for Controlled In Vivo Magnetic Hyperthermia.
Sign Up to like & getrecommendations! Published in 2021 at "Advanced materials"
DOI: 10.1002/adma.202100077
Abstract: Deliberate and local increase of the temperature within solid tumors represents an effective therapeutic approach. Thermal therapies embrace this concept leveraging the capability of some species to convert the absorbed energy into heat. To that… read more here.
Keywords: multimodal nanostructures; infrared emitting; hyperthermia; nanostructures controlled ... See more keywords
Enhancement of CD8+ T Cells-mediated Tumor Immunotherapy via Magnetic Hyperthermia.
Sign Up to like & getrecommendations! Published in 2021 at "ChemMedChem"
DOI: 10.1002/cmdc.202100656
Abstract: Magnetic hyperthermia (MHT) uses magnetic iron oxide nanoparticles (MIONs) to irradiate heat when subjected to an alternating magnetic field (AMF), which then trigger a series of biological effects to realize rapid tumor-killing effects. With the… read more here.
Keywords: tumor immunotherapy; immunotherapy; mht; magnetic hyperthermia ... See more keywords
Clinical magnetic hyperthermia requires integrated magnetic particle imaging
Sign Up to like & getrecommendations! Published in 2022 at "Wiley Interdisciplinary Reviews. Nanomedicine and Nanobiotechnology"
DOI: 10.1002/wnan.1779
Abstract: Abstract Magnetic nanomaterials that respond to clinical magnetic devices have significant potential as cancer nanotheranostics. The complexities of their physics, however, introduce challenges for these applications. Hyperthermia is a heat‐based cancer therapy that improves treatment… read more here.
Keywords: particle imaging; clinical magnetic; magnetic particle; magnetic hyperthermia ... See more keywords
Effect of Zwitterionic Surfactant Ligand Monolayer on Magnetic Hyperthermia Properties of Monosize Fe3O4 Nanoparticles
Sign Up to like & getrecommendations! Published in 2020 at "Journal of Superconductivity and Novel Magnetism"
DOI: 10.1007/s10948-020-05716-7
Abstract: Here Brown relaxation time was altered to enhance magnetic hyperthermia value. Narrow size distributed, hydrophobic Fe 3 O 4 nanoparticles were synthesized by solvothermal reflux method. It is reported that the existing both single step… read more here.
Keywords: zwitterionic; magnetic hyperthermia; surfactant ligand; hyperthermia ... See more keywords
Recent insights in magnetic hyperthermia: From the “hot‐spot” effect for local delivery to combined magneto‐photo‐thermia using magneto‐plasmonic hybrids
Sign Up to like & getrecommendations! Published in 2019 at "Advanced Drug Delivery Reviews"
DOI: 10.1016/j.addr.2018.10.016
Abstract: &NA; Magnetic hyperthermia which exploits the heat generated by magnetic nanoparticles (MNPs) when exposed to an alternative magnetic field (AMF) is now in clinical trials for the treatment of cancers. However, this thermal therapy requires… read more here.
Keywords: effect; hot spot; magnetic hyperthermia; magneto ... See more keywords
Fe3S4 nanoparticles for arterial inflammation therapy: Integration of magnetic hyperthermia and photothermal treatment
Sign Up to like & getrecommendations! Published in 2020 at "Applied Materials Today"
DOI: 10.1016/j.apmt.2019.100457
Abstract: Abstract Photothermal therapy (PTT), based on nanoparticles, has been widely explored in the treatment of multiple diseases. However, limited by laser penetration ability, its treatment efficiency can be reduced when treating deep arterial inflammation, which… read more here.
Keywords: treatment; magnetic hyperthermia; arterial inflammation; therapy ... See more keywords
Electrospun composite cellulose acetate/iron oxide nanoparticles non-woven membranes for magnetic hyperthermia applications.
Sign Up to like & getrecommendations! Published in 2018 at "Carbohydrate polymers"
DOI: 10.1016/j.carbpol.2018.06.048
Abstract: In the present work composite membranes were produced by combining magnetic nanoparticles (NPs) with cellulose acetate (CA) membranes for magnetic hyperthermia applications. The non-woven CA membranes were produced by electrospinning technique, and magnetic NPs were… read more here.
Keywords: non woven; magnetic hyperthermia; hyperthermia applications; magnetic nps ... See more keywords
Hydrophobic to hydrophilic surface transformation of nano-scale zinc ferrite via oleic acid coating: Magnetic hyperthermia study towards biomedical applications
Sign Up to like & getrecommendations! Published in 2020 at "Ceramics International"
DOI: 10.1016/j.ceramint.2019.11.265
Abstract: Abstract Nanoscale spinel zinc ferrite (ZNF) was prepared by sol-gel auto-ignition route and subsequently its surface was modified by oleic-acid (OA) coating. The pristine and surface modified ZNF nanoparticles (UC-ZNF and OA-ZNF) were characterized by… read more here.
Keywords: zinc ferrite; surface; magnetic hyperthermia; oleic acid ... See more keywords
Synthesis, characterization and magnetic hyperthermia properties of nearly monodisperse CoFe2O4 nanoparticles
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DOI: 10.1016/j.ceramint.2020.07.298
Abstract: Abstract In this study, the hyperthermia efficiency of CoFe2O4 nanoparticles (CFNPs) was enhanced by narrowing their size distribution and increasing their magnetic moment. The CFNPs were synthesized using the solvothermal reflux method. The NPs were… read more here.
Keywords: characterization magnetic; cofe2o4 nanoparticles; hyperthermia; magnetic hyperthermia ... See more keywords
Influence of the heat treatment conditions on the properties of gallium-strontium-substituted manganese ferrites designed for magnetic hyperthermia applications
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DOI: 10.1016/j.ceramint.2020.11.058
Abstract: Abstract Magnetic nanoparticles (MNPs) with cores made of mixed ferrites may find application in the field of magnetic hyperthermia, this due to their intrinsic characteristics such as nanometric sizes, biocompatibility and the capability of transforming… read more here.
Keywords: heat treatment; treatment; magnetic hyperthermia; heat ... See more keywords
Impact of different infusion rates on mass diffusion and treatment temperature field during magnetic hyperthermia
Sign Up to like & getrecommendations! Published in 2018 at "International Journal of Heat and Mass Transfer"
DOI: 10.1016/j.ijheatmasstransfer.2018.03.096
Abstract: Abstract In a magnetic hyperthermia treatment, malignant cells are ablated by the heat produced by power dissipation of magnetic nanoparticles (MNPs) under an alternating magnetic field. MNPs need to be placed inside the tumor region… read more here.
Keywords: temperature; diffusion; infusion; treatment ... See more keywords