New MIT Article on Tumor-recurrance

HeartofSoul said:

Glowing Jellyfish Cells
Glowing Jellyfish Cells Detect Cancer - When Will it be Ready for Trials?
November 03, 2010 10:22 AM EDT

Glowing jellyfish cells have been able to detect cancer. The cells actually light up the cancerous tumors, and using a special camera, doctors are able to find the cancer.
The hope is that this new glowing jellyfish cells technology will revolutionize cancer detection for many types of the dreaded disease. Scientists put fluorescent jellyfish proteins into human cancer cells, which is how they are able to locate the tumors.
Technology Doesn't go Deep Enough - Glowing Jellyfish Cells Detect Cancer Earlier

According to Professor Norman Maitland, lead investigator, "Cancers deep within the body are difficult to spot at an early stage, and early diagnosis is critical for the successful treatment of any form of cancer."

Current technology does not often penetrate deep enough into the body’s tissues to diagnose very small cancer in the beginning stages, but this new glowing cells are easier to locate. The team calls it “virimaging.”

This work built upon the 2008 Nobel Prize winning word of Dr. Roger Y. Tsien, and American chemist who took luminous cells from jellyfish and isolated the protein that glows. The team who developed the cancer detection actually altered the protein to allow it to show up as red or blue. The glowing jellyfish cells were originally green.
Hopefully this new cancer detection test will start in clinical trials within the next five years. If it continues to work as they hope, it could mean many lives saved through early detection.

It is fantastic that an animal whose sting is so dreaded can end up providing something so important for humans. The glowing jellyfish cells sound like they have amazing potential, which is probably why Tsien won the Nobel Prize for his work in isolating them. Hopefully these trials will continue, and a new early detection test for cancer will be developed. Until there is a cure for cancer, early detection seems like the best hope for many who get it.

© Copyright: News Today Online by Kate James at Gather.com

John23 said:

Hmmm....

Doesn't that explain why chemotherapy is a common cause of
"second cancers"; cancers unrelated to the initial cancer?

That fact was well known among all oncologists, if not the
entire medical profession... So this is not really "news", it's
simply another explanation of "why" it happens.

Oh well..... another day in the tank. And here I thought it
was a tankless job....


Better health!

John

HeartofSoul said:

When you say 2nd cancer, im
When you say 2nd cancer, im thinking a different primary cancer (lung) which chemo can do. If the first primary cancer (colon) is not totally killed off, then it will look to met to other locations in body thru blood stream or lymphatic system and also thru the Spinal fluid which is the liquid that flows between the layers of the meninges. It circulates around the brain and spinal cord and travel to distant locations.

Often, the metastatic location is the nearest cluster of small blood vessels found by the circulating cancer cells. Thus lung cancer commonly metastasizes to the brain; colon cancer commonly metastasizes to the liver. Or, the cancer may have a preferred site of metastasis. The brain is a preferred site for melanoma and small cell lung cancer. A metastasis of a metastasis may develop as well a colon cancer may metastasize to the liver which in turn may metastasize to the lung which may in turn metastasize to the brain.

Acute lymphocytic leukemia and high-grade non-Hodgkin's lymphomas often spread only to the spinal fluid. Small cell lung cancer, breast cancer and melanoma commonly involve both the brain and spinal fluid. Non-small cell lung cancer usually affects only the brain.


I spoke to a member about 2 weeks ago who had 3 primary types of cancer at same time, cervical, appendix and colon.

HeartofSoul said:

John, I thought I would get
John, I thought I would get your feedback on targeted therapies which are far less toxic then chemo but far more specific in identifying cancer cells.

Weve talked about chemical delivery systems using chemo drugs, radiation delivery options, TCM, alternative methods, life style and our own immune system as methods to treat or and minimize the chances of acquiring cancer. There is a category of treatment that is under the umbrella of targeted cancer therapies which are drugs or other substances that block the growth and spread of cancer by interfering with specific molecules involved in tumor growth and progression.

Because scientists often call these molecules “molecular targets,” targeted cancer therapies are sometimes called “molecularly targeted drugs,” “molecularly targeted therapies,” or other similar names. By focusing on molecular and cellular changes that are specific to cancer, targeted cancer therapies may be more effective than other types of treatment, including chemotherapy and radiotherapy, and less harmful to normal cells.

Targeted cancer therapies are being studied for use alone, in combination with other targeted therapies, and in combination with other cancer treatments, such as chemotherapy.


How are targeted therapies developed?

Once a target has been identified, a therapy must be developed. Most targeted therapies are either small-molecule drugs or monoclonal antibodies. Small-molecule drugs are typically able to diffuse into cells and can act on targets that are found inside the cell. Most monoclonal antibodies usually cannot penetrate the cell’s plasma membrane and are directed against targets that are outside cells or on the cell surface.

Targeted cancer therapies have been developed that interfere with a variety of other cellular processes. FDA-approved targeted therapies are listed below:

Some targeted therapies block specific enzymes and growth factor receptors involved in cancer cell proliferation. These drugs are also called signal transduction inhibitors.

Imatinib mesylate (Gleevec®) is approved to treat gastrointestinal stromal tumor (a rare cancer of the gastrointestinal tract) and certain kinds of leukemia.

Dasatinib (Sprycel®) is approved to treat some patients with CML or acute lymphoblastic leukemia.

Nilotinib (Tasigna®) is approved to treat some patients with CML. It is another small-molecule tyrosine kinase inhibitor.

Trastuzumab (Herceptin®) is approved for the treatment of certain types of breast cancer. It is a monoclonal antibody that binds to the human epidermal growth factor receptor 2 (HER-2).

Erlotinib (Tarceva®) is approved to treat metastatic non-small cell lung cancer and pancreatic cancer that cannot be removed by surgery or has metastasized. Cetuximab (Erbitux®) is a monoclonal antibody that is approved for treating some patients with squamous cell carcinoma of the head and neck or colorectal cancer.