andyandy
anthropomorphic ape
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Hellbound
Merchant of Doom
Woohoo!
KingMerv00
Penultimate Amazing
My woo alarm is silent. I anxiously await replication. Good luck to them on winning a Nobel Prize.
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headscratcher4
Philosopher
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Cure? 2 out of 17. This is progress, but using a word like "cure" is, well, so Fox/Cnn. There is a LONG way to go...not the least to figure out how to expand the technology and target other cancers, little less how to determine why the 2 were cured but the 15 weren't. It is good news. They have learned something very interesting and may be on the road to a real revolution in Cancer treatment, but cure? Don't hold your breath...but our kids might have a better shot at beating the disease (BTW...cancer deaths were down in 2003...the last year of record) for the first time in decades...that is a woohoo in my book...and, it isn't because of Treadau or any of the newage hokeypokey...it was good old research, hard work, improved healthcare and intervention technologies...like the one being studied and pionered in this story. Woohoo!
KingMerv00
Penultimate Amazing
Hey, even a 15% cure rate is great news.
headscratcher4
Philosopher
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No argument...I said (or intended if I didn't) that it is major progress. Bravo. It will be in the NEJM next month for the world check out. It isn't a "cure" yet...it is a brilliant idea that shows much promise...it might one day be a "cure" or partial cure. Fingers crossed....
Hellbound
Merchant of Doom
Definate progress.
What I find most promising is that, as with many of the experimental treatments, this was tried on people who were in the end stages of the disease. So it has that 2 of 17 rate in the worst cases (assuming there's no experimental error)
What I find most promising is that, as with many of the experimental treatments, this was tried on people who were in the end stages of the disease. So it has that 2 of 17 rate in the worst cases (assuming there's no experimental error)
headscratcher4
Philosopher
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Indeed, it is progress...potentially very important progress. But, keep in mind, any likely therapy to flow from this could take years....
KingMerv00
Penultimate Amazing
Years. Ugh...it is so tempting to just go woo and declare absolute success isn't it? Don't you just want to abandon the scientific method...a little?
Eos of the Eons
Mad Scientist
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[sarcasm] Oh, but these frankenT-cells could mutate and spread a mutated Frankenvirus to attack every healthy cell in our body and kill everyone around the world in two weeks!!. [/sarcasm]
Yeah, that's what some folks say about GM foods. Modifying a gene directly is far more threatening than trying to breed a trait in for some weird reason. /derail
I'm excited because two people are CANCER FREE, actually cancer free. No drugs, just modified super cancer killer cells were used. Wonder how the sCAM folks will object to the treatment?
Do we know why it wasn't as effective in the other 15 patients? Did the other 15 patients improve at all? Did the cells just not develop receptors, or were they unable to attack the tumour cells?
Yay genetics! Yay biology!
Yeah, that's what some folks say about GM foods. Modifying a gene directly is far more threatening than trying to breed a trait in for some weird reason. /derail
I'm excited because two people are CANCER FREE, actually cancer free. No drugs, just modified super cancer killer cells were used. Wonder how the sCAM folks will object to the treatment?
Do we know why it wasn't as effective in the other 15 patients? Did the other 15 patients improve at all? Did the cells just not develop receptors, or were they unable to attack the tumour cells?
Yay genetics! Yay biology!
Hellbound
Merchant of Doom
Eos:
I'd suspect the replication rate. As the article states, only 10% of their T-cells were the modified ones.
I'm cautiously optomistic about this. COnsidering that cancer is, at it's source, genetic, I've always suspected a genetic solution would be best. OF course, I always invisioned identifying the faulty gene(s) in the cancer, making a virus from the good genes of unaffected cells, and directly modifying the cancer cells with it. This was a bit unexpected, but makes a lot more sense than my ideas
I'd suspect the replication rate. As the article states, only 10% of their T-cells were the modified ones.
I'm cautiously optomistic about this. COnsidering that cancer is, at it's source, genetic, I've always suspected a genetic solution would be best. OF course, I always invisioned identifying the faulty gene(s) in the cancer, making a virus from the good genes of unaffected cells, and directly modifying the cancer cells with it. This was a bit unexpected, but makes a lot more sense than my ideas
Eos of the Eons
Mad Scientist
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A cell or virus has to recognize the cancerous cells to address them, even a virus made to target them (hence the receptors). Then you also have to be able to target many small cancer cells. Trying to make a virus that just modifies cancer cells would be tough, so having a T-cell identify cancer cells with receptors and getting the T-cells to kill the cancer cell is very good technology! That is their job afterall!
Killing the cancer cells is easier than trying to modify their genes back to normal with some virus. Also, there would be a clump or lumps of modified tumor cells left to excise if you did manage to get them to stop acting like cancer cells with some virus. Killing the cancer cells allows the body to dispose of them. Might as well enhance T-cells, more practical.
Keeping these modified T-cells allows them to kill cancer cells before they become a threat is also great preventative medicine. Waiting for nature to come up with the T-cells for us in or bodies to pass onto our offspring is just not practical. Some people are that lucky, but most of us clearly aren't and are wide open to getting cancer.
Really really cool. Super T-cells! I'd love to be vaccinated with them. I think they have to use your own cells to make them, so for now you would have to be threatened by cancer to have this done for you even when the technology is improved. Getting every individual their own Super cancer killing T-cells would take a long time and lots of money.
Killing the cancer cells is easier than trying to modify their genes back to normal with some virus. Also, there would be a clump or lumps of modified tumor cells left to excise if you did manage to get them to stop acting like cancer cells with some virus. Killing the cancer cells allows the body to dispose of them. Might as well enhance T-cells, more practical.
Keeping these modified T-cells allows them to kill cancer cells before they become a threat is also great preventative medicine. Waiting for nature to come up with the T-cells for us in or bodies to pass onto our offspring is just not practical. Some people are that lucky, but most of us clearly aren't and are wide open to getting cancer.
Really really cool. Super T-cells! I'd love to be vaccinated with them. I think they have to use your own cells to make them, so for now you would have to be threatened by cancer to have this done for you even when the technology is improved. Getting every individual their own Super cancer killing T-cells would take a long time and lots of money.
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Hellbound
Merchant of Doom
Well, my thought was that a virus wouldn't have to discriminate, because in good cells it would be replacing good code with good code (no change), in cancer cells it'd replace bad with good.
Of course, my knowledge of genetic manipulation is limited
And your point about not getting rid of the cells, etc, yeah, that sort of kills my ideas (this is why I work with computers, not cancer research).Now, being able to mnodify the T-cells in vivo would be a nice advancemenet, and possibly make a vaccine-type treatment feasible. I dunno.
Still, I'm excited to see where this leads.
Hellbound
Merchant of Doom
Well, no matter what - this is a demonstration that the fundamental concept is functional; that's a big step up from the years of theorizing that it can be done.
Well, let's wait for replication. Afterall, there may be one or two confounders (I learned a new word, ma!) that weren't controlled.
I mean, whatif the two cured were taking one of those highly effective homeopathic rememdies?
ponderingturtle
Orthogonal Vector
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One also needs to understand that there have been other proposed treatments that looked promising in early trials that did not pan out.
Hellbound
Merchant of Doom
Ture, turtle
Also, found a bit more info in our newspaper's article about this. Apparantly, the two who were "cured" maintained high levels of the altered T-cells in their body for a long period of time. The other fifeteen apparantly did not replicate the mutated T-cells, and the levels in their systems dropped off quickly.
Also, found a bit more info in our newspaper's article about this. Apparantly, the two who were "cured" maintained high levels of the altered T-cells in their body for a long period of time. The other fifeteen apparantly did not replicate the mutated T-cells, and the levels in their systems dropped off quickly.
Capsid
Graduate Poster
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Oncolytic virus technologies are also under development.
Eos of the Eons
Mad Scientist
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Well, my thought was that a virus wouldn't have to discriminate, because in good cells it would be replacing good code with good code (no change), in cancer cells it'd replace bad with good.
Of course, my knowledge of genetic manipulation is limited
Now, being able to mnodify the T-cells in vivo would be a nice advancemenet, and possibly make a vaccine-type treatment feasible. I dunno.
Still, I'm excited to see where this leads.
A virus has to have specific access to a cell, especially a T-Cell. There are folks that are immune to HIV because they lack the receptors the HIV viruses need to identify and attach to their T-Cells. I find that vastly fascinating.
http://www.sfaf.org/treatment/beta/b32/b32chemo.html
If I remember correctly, most viruses stick to specific cell types that they identify via receptors. It's been a while since I took my science courses though.
Any input from those more knowledgeable is always appreciated
Capsid
Graduate Poster
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This is not about virus receptors but cancer specific T cell receptors. The T cells (of the patient are infected with a virus (which yes, has a receptor to identify and infect T cells). This modified recombinant virus carries the human T cell receptor gene that then can integrate this gene into the T cell DNA permanently. The T cells express the receptor gene which is then able to identify the antigens on cancer cells and kill them. The beauty of it is that only the relevant killer T cells are infected and their gene expression altered by the specific virus.A virus has to have specific access to a cell, especially a T-Cell. There are folks that are immune to HIV because they lack the receptors the HIV viruses need to identify and attach to their T-Cells. I find that vastly fascinating.
http://www.sfaf.org/treatment/beta/b32/b32chemo.html
If I remember correctly, most viruses stick to specific cell types that they identify via receptors. It's been a while since I took my science courses though.
Any input from those more knowledgeable is always appreciated
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