parichehr
29th November 2010, 11:21 AM
The use of nanotechnology in cancer treatment offers some exciting possibilities, including the possibility of destroying cancer tumors with minimal damage to healthy tissue and organs, as well as the detection and elimination of cancer cells before they form tumors
Most efforts to improve cancer treatment through nanotechnology are at the research or development stage. However the effort to make these treatments a reality is highly focused. For example, The Alliance for Nanotechnology in Cancer, established by the U.S. National Cancer Institute, is fostering innovation and collaboration among researchers to resolve some of the major challenges in the application of nanotechnology to cancer. In addition, there are many universities and companies worldwide working in this area. It is possible that these efforts will result in cancer becoming being nearly eliminated in a decade or so, in the same way that vaccines nearly eliminated smallpox in the last century
Targeted heat therapy is being developed to destroy breast cancer tumors. In this method antibodies that are strongly attracted to proteins produced in one type of breast cancer cell are attached to nanotubes, causing the nanotubes to accumulate at the tumor. Infrared light from a laser is absorbed by the nanotubes and produces heat that incinerates the tumor
X-ray therapy may be able to destroy cancer tumors using a nanoparticle called nbtxr3. The nbtxr3 nanoparticles, when activated by x-rays, generate electrons that cause the destruction of cancer tumors to which they have attached themselves. Click here for more details on this method (http://njavan.com/forum/nanomedicine-nanoparticle-xray-cancer-treatment.html). This is intended to be used in place of radiation therapy with much less damage to healthy tissue. Nanobiotix has released preclinical results (http://www.nanobiotix.com/technology-products/preclinical-background) for this technique.
Magnetic nanoparticles that attach to cancer cells in the blood stream may allow the cancer cells to be removed before they establish new tumors
Another method that targets individual cancer cells inserts gold nanoparticles into the cells, then shines a laser on the nanoparticles. The heat explodes the cancer cells
Using gold nanoparticles to deliver platinum to cancer tumors may reduce the side effects of platinum cancer therapy. The key is that the toxicity level of platinum depends upon the molecule it is bonded to (for the tech types the toxicity depends upon the oxidation state of the platinum). So the researchers chose a platinum containing molecule that has low toxicity to attach to the gold nanoparticles. When the platinum bearing nanoparticle reaches a cancer tumor it encounters an acidic solution which changes the platinum to it's toxic state, in which it can kill cancer cells.
Using polymer nanoparticles to deliver a molecule called JSI-124 to cancer tumors. This molecule degrades the ability of the cancer cells to suppress the immune system, possibly slowing the growth of
cancer tumors
science direct[golrooz]
Most efforts to improve cancer treatment through nanotechnology are at the research or development stage. However the effort to make these treatments a reality is highly focused. For example, The Alliance for Nanotechnology in Cancer, established by the U.S. National Cancer Institute, is fostering innovation and collaboration among researchers to resolve some of the major challenges in the application of nanotechnology to cancer. In addition, there are many universities and companies worldwide working in this area. It is possible that these efforts will result in cancer becoming being nearly eliminated in a decade or so, in the same way that vaccines nearly eliminated smallpox in the last century
Targeted heat therapy is being developed to destroy breast cancer tumors. In this method antibodies that are strongly attracted to proteins produced in one type of breast cancer cell are attached to nanotubes, causing the nanotubes to accumulate at the tumor. Infrared light from a laser is absorbed by the nanotubes and produces heat that incinerates the tumor
X-ray therapy may be able to destroy cancer tumors using a nanoparticle called nbtxr3. The nbtxr3 nanoparticles, when activated by x-rays, generate electrons that cause the destruction of cancer tumors to which they have attached themselves. Click here for more details on this method (http://njavan.com/forum/nanomedicine-nanoparticle-xray-cancer-treatment.html). This is intended to be used in place of radiation therapy with much less damage to healthy tissue. Nanobiotix has released preclinical results (http://www.nanobiotix.com/technology-products/preclinical-background) for this technique.
Magnetic nanoparticles that attach to cancer cells in the blood stream may allow the cancer cells to be removed before they establish new tumors
Another method that targets individual cancer cells inserts gold nanoparticles into the cells, then shines a laser on the nanoparticles. The heat explodes the cancer cells
Using gold nanoparticles to deliver platinum to cancer tumors may reduce the side effects of platinum cancer therapy. The key is that the toxicity level of platinum depends upon the molecule it is bonded to (for the tech types the toxicity depends upon the oxidation state of the platinum). So the researchers chose a platinum containing molecule that has low toxicity to attach to the gold nanoparticles. When the platinum bearing nanoparticle reaches a cancer tumor it encounters an acidic solution which changes the platinum to it's toxic state, in which it can kill cancer cells.
Using polymer nanoparticles to deliver a molecule called JSI-124 to cancer tumors. This molecule degrades the ability of the cancer cells to suppress the immune system, possibly slowing the growth of
cancer tumors
science direct[golrooz]