In this study, antibacterial impact of magnetic nanocomposite (MNC: MoS 2/CoFe 2 O 4) and
super paramagnetic iron oxide nanoparticle (SPION: Fe 3 O 4-Casein) against …

Objective: Magnetic fluid hyperthermia (MFH) is a still experimental technique found to have
a potential application in the treatment of cancer. The method aims to reach around 41 C–47 …

Magnetic iron oxide nanoparticles (MIONs) have established a niche as a nanomedicine
platform for diagnosis and therapy, but they present a challenging surface for ligand …

The idea of using magnetic nanomaterials in biomedical applications has been studied
since last decades. Magnetic nanomaterials have been found as a promising candidate in …

Magnetic nanoparticles (MNPs) can interact with alternating magnetic fields (AMFs) to
deposit localized energy for hyperthermia treatment of cancer. Hyperthermia is useful in the …

The gadolinium-doped iron oxide nanoparticles (GdIONP) with greater specific power
adsorption rate (SAR) than Fe3O4 was developed and its potential application in tumour …

Nowadays, the potential scope of nanotechnology in uro-oncology (cancers of the prostate,
bladder, and kidney) is broad, ranging from drug delivery, prevention, and diagnosis to …

Purpose Improvements of heat-delivery systems have led to hyperthermia (HT) being
increasingly recognized as an adjunct treatment modality also for brain tumors. But how HT …

Tumor cells can be killed by rising the tumor temperature above 42° C and keeping it for
sufficiently longer durations by exploiting magnetic nanoparticles and alternative magnetic …

Purpose/objective: The aim of this study was to develop and investigate the properties of a
magnetic iron oxide nanoparticle–ethiodised oil formulation for image-guided thermal …