摘要:
There is disclosed a composition in the form of a nanoparticle. The nanoparticle composition has a diameter from 5 to 500 nanometers. The nanoparticle composition has i) a central core portion including magnetic Fe3O4 nanoparticles adapted to act as a heat source when subjected to a magnetic field and a chemotherapeutic agent configured to treat cancer tissues, ii)—a shell portion including a shell member encapsulating said core portion, and iii)—antibodies configured to target cancer stem cells and adhered to surface of said shell member. The chemotherapeutic agent is a heat shock protein inhibitor and is releasable on activation of the heat source due to the magnetic field, and the shell member is made of silica or a silica based material. Surface of the nanoparticle is modified with the antibodies capable of binding with a cluster of differentiation molecules on the cell surface of the target cancer stem cells, whereby by way of combination of specificity of the nanoparticle composition due to the antibody, thermo-therapeutic effect of the Fe3O4 nanoparticles, and release of the heat shock protein inhibitor on site at the target cancer stem cells, inhibition of the target cancer stem cells is synergistically and additionally enhanced is increased.
摘要:
There is provided a nanoparticle composition comprising a central core portion including magnetic nanoparticles adapted to act as a heat source and a chemotherapeutic agent configured to treat cancer tissues in issue, a shell portion including a shell member encapsulating the core portion, antibodies configured to target cancer stem cells in issue and adhered to surface of said shell member. There is also provided a method comprising a step of exposing a target site in which the cancer cells reside to an energy source for effecting elevation of temperature of the magnetic nanoparticles, and release of the chemotherapeutic agent from the shell portion for destroying the cancer cells of the composition-cancer cell complex in the target site, wherein the energy source is an alternating magnetic field whereby extent of elevation of temperature and release of the chemotherapeutic agent is controllable by the alternating magnetic field.