Until now, strategies used to treat cancer are imperfect, and this generates the need to
search for better and safer solutions. The biggest issue is the lack of selective interaction …

The activation of magnetic nanoparticles in hyperthermia treatment by an external
alternating magnetic field is a promising technique for targeted cancer therapy. The external …

Despite significant advances in cancer therapy over the years, its complex pathological
process still represents a major health challenge when seeking effective treatment and …

Magnetic nanoparticles (MNPs) have a wide range of applications; an area of particular
interest is magnetic particle imaging (MPI). MPI is an imaging modality that utilizes …

Breast cancer is the most prevalent non-cutaneous malignancy in women, with greater than
a million new cases every year. In the last decennium, numerous diagnostic and treatment …

Cancer remains the most devastating disease, being one of the main factors of death and
morbidity worldwide since ancient times. Although early diagnosis and treatment represent …

The contactless heating capacity of magnetic nanoparticles (MNPs) has been exploited in
fields such as hyperthermia cancer therapy, catalysis, and enzymatic thermal regulation …

Cancer immunotherapy has tremendous promise, but it has yet to be clinically applied in a
wider variety of tumor situations. Many therapeutic combinations are envisaged to improve …

Magnetically induced hyperthermia has reached a milestone in medical nanoscience and in
phase III clinical trials for cancer treatment. As it relies on the heat generated by magnetic …

Simple Summary Magnetic hyperthermia therapy is an alternative treatment for cancer that
complements traditional therapies and that has shown great promise in recent years. In this …