Fighting Cancer with Math

zoloback writes "A group of scientists have developed a mathematical method to fight certain forms of cancer. The study has taken the team several years, but the first trial on a human has been successful. You can read the actual paper. It looks like a huge advancement in science, because there's a possibility to extrapolate the method to other types of cancer" From the article: "The researchers have evidence to show that all tumors grow in the same way, irrespective of the tissue or species in which they develop. In a previous paper, these researchers reported that tumor growth, rather than being exponential as commonly believed, is a much slower "linear" process similar to the growth of certain crystals and other natural phenomena."

more in depth links...

[kesuki]

http://www.hypography.com/article.cfm?id=34220

http://physics.about.com/b/a/088887.htm

the blog entry that they linked to was kinda vauge on details ;) turns out the only math the used was in calculating how tumours grow, and how they prevent immune responses, so they figured out an immune system response they can trigger that will cause the cells that cause tumours to grow to become a 'target' of the patients immune system. no math equasion used to 'cure' it at all, just a little deductive reasoning and science...

Re:Could they elaborate a bit?

[Hao+Wu]

... so instead of treating the tumor by trying to kill the cells via radio or chemical therapy, they attack the factors that (in a mathematical model) determine the growth of the tumor, turning them into negative variables and therefore extinguishing the mass.

Unfortunately some of the most promising drugs that work to shrink tumors are not improving survival rates whatsoever. They are, in fact, shrinking the tumors "like they're supposed to", but this isn't doing anything to stop progression of the cancer.

Re:If this is true - unlikely

[spitshine]

The paper was published in 2003 and was cited twice in total - by themselves (I just checked Web of Science).
If there would be a real advancement behind this, many people would use it. Sad but true, but they sound like quacks.

Not as "new" or "revolutionary" as advertised

[cascino]

This stuff's been done for years - just google "gompertz cancer" and you'll see what I mean. I was part of a team that developed a mathematical model for the growth (and cure - using a modified virus, but that's a whole different story) of multiple myeloma in immunodeficient mice. Perhaps they've applied a new model (I only glanced at the paper), but this certainly isn't the first time and it certainly won't be the last time research along these lines has taken place. A lot of very smart people have spent decades working on such research.

Of course it's great to see an advancement in science, particularly applied math, but those calling for the Nobel should take a deep breath and relax - cancer isn't going away anytime soon.

Re:Wow.

[lastchance_000]

That's all well and good, but, umm... can we toss a bone to the people actually working to cure cancer?

Thank you.

bad /. headline, interesting paper

[cahiha]

Tumor growth rates are a hotly debated topic. This paper contains some interesting ideas. But the headline incorrectly suggests that "fighting cancer with math" is something new. Biologists have been using mathematics, including differential equations and fractals for as long as they have been around (in fact, a lot of math comes from biological problems).

On quick reading, this paper seems to argue primarily that it is not nutrients, but cell diffusion, that limits cancer growth rates. That hypothesis is supported by observing similarities between the growth behavior and shapes created by processes in that class and real tumors. Interesting, but only weak evidence. They'll need to refine their hypothesis and test it more directly experimentally.