Magnetic nanoparticle-based hyperthermia for cancer treatment
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TLDR
Nanotechnology provides a novel and original solution with magnetic hyperthermia, which is based on the use of magnetic nanoparticles to remotely induce local heat when a radiofrequency magnetic field is applied, provoking a temperature increase in those tissues and organs where the tumoral cells are present.About:
This article is published in Reports of Practical Oncology & Radiotherapy.The article was published on 2013-11-01 and is currently open access. It has received 423 citations till now. The article focuses on the topics: Magnetic hyperthermia & Magnetic nanoparticles.read more
Citations
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Journal ArticleDOI
Programmable polymers with shape memory for biomedical applications
TL;DR: Shape memory polymers (SMPs) as mentioned in this paper are a type of programmable materials capable of transforming their shapes in a pre-programmed way upon the application of an external stimulus.
Hyperthermia Using Magnetic Cobalt Ferrite Magnetoelectric Nanoparticles
Shadeeb Hossain,Shamera Hossain +1 more
TL;DR: In this article , the authors used the Pennes bioheat equation and finite element analysis (FEA) to understand the transient increase in temperature at the tumor site using magnetic nanoparticles.
Formation and characterization of model cell membranes and their interaction with Magnetic Nanoparticles
TL;DR: Proyecto Final del Master Universitario en Materiales Nanoestructurados for Aplicaciones as mentioned in this paper, Departamento de Quimica Fisica de la Universidad de Zaragoza
Book ChapterDOI
Nanoformulations for Cancer Therapy
TL;DR: Generation of resistant cancer cells after treatment with conventional methods is liable to depict an adverse scenario in cancer therapy, which demands new therapeutic and diagnostic modules in order to combat this fatal disease.
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Nanopore Generation in Biodegradable Silk/Magnetic Nanoparticle Membranes by an External Magnetic Field for Implantable Drug Delivery
TL;DR: In this paper , a fully biodegradable composite membrane made from silk fibroin and magnetic nanoparticles (MNPs) is presented, which can be remotely modified by an alternating magnetic field, which opens nanopores by local heating of MNPs in the composite allowing a liquid to diffuse through them.
References
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