Add to ORKGHyperthermia has been in use as a potential alternative method in cancer treatment. RF and microwave radiation have been used in hyperthermia to raise the tumor temperature to around 42°C without causing damage to surrounding healthy tissues. One of the greatest technical challenges in hyperthermia has been the development of a means of selectively heating deep-seated tumors. In this paper we present a study of new enhanced hyperthermia procedure for liver cancer through the use of magnetic nanoparticles. Iron oxide nanoparticles are injected into the tumor and due to their magnetic properties they help raise the tumor to the desired level in a shorter period of time. They can be injected via arterial embolization to avoid the circulation o...
Hui S Huang, James F Hainfeld Nanoprobes, Yaphank, NY, USA Abstract: Magnetic nanoparticles heated b...
The use of magnetic nanoparticles (mNPs) to induce local hyperthermia has been emerging in recent ye...
[Purpose] Tumor cells can be effectively inactivated by heating mediated by magnetic nanoparticles. ...
Magnetic nanoparticles are being developed for a wide range of biomedical applications. In particula...
AbstractNanotechnology involves the study of nature at a very small scale, searching new properties ...
Nanotechnology involves the study of nature at a very small scale, searching new properties and appl...
Abstract—A technical challenge in hyperthermia therapy is to locally heat the tumor region up to an ...
In this dissertation a study of enhanced hyperthermia for cancer treatment through the use of magnet...
Hyperthermia treatments involve raising the tumor temperature without damaging the surrounding norma...
In this dissertation a study of enhanced hyperthermia for cancer treatment through the use of magnet...
Surgery, radiation and chemotherapy are currently the most commonly used cancer therapies. Hyperther...
Hyperthermia treatments involve raising the tumor temperature without damaging the surrounding norma...
Magnetic nanoparticles have gained prominence in recent years for use in clinical applications such ...
Magnetic nanoparticles can be used for many applications, including magnetic recording media, cataly...
A plethora of magnetic nanoparticles has been developed and investigated under different alternating...
Hui S Huang, James F Hainfeld Nanoprobes, Yaphank, NY, USA Abstract: Magnetic nanoparticles heated b...
The use of magnetic nanoparticles (mNPs) to induce local hyperthermia has been emerging in recent ye...
[Purpose] Tumor cells can be effectively inactivated by heating mediated by magnetic nanoparticles. ...
Magnetic nanoparticles are being developed for a wide range of biomedical applications. In particula...
AbstractNanotechnology involves the study of nature at a very small scale, searching new properties ...
Nanotechnology involves the study of nature at a very small scale, searching new properties and appl...
Abstract—A technical challenge in hyperthermia therapy is to locally heat the tumor region up to an ...
In this dissertation a study of enhanced hyperthermia for cancer treatment through the use of magnet...
Hyperthermia treatments involve raising the tumor temperature without damaging the surrounding norma...
In this dissertation a study of enhanced hyperthermia for cancer treatment through the use of magnet...
Surgery, radiation and chemotherapy are currently the most commonly used cancer therapies. Hyperther...
Hyperthermia treatments involve raising the tumor temperature without damaging the surrounding norma...
Magnetic nanoparticles have gained prominence in recent years for use in clinical applications such ...
Magnetic nanoparticles can be used for many applications, including magnetic recording media, cataly...
A plethora of magnetic nanoparticles has been developed and investigated under different alternating...
Hui S Huang, James F Hainfeld Nanoprobes, Yaphank, NY, USA Abstract: Magnetic nanoparticles heated b...
The use of magnetic nanoparticles (mNPs) to induce local hyperthermia has been emerging in recent ye...
[Purpose] Tumor cells can be effectively inactivated by heating mediated by magnetic nanoparticles. ...