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Fighting Cancer with Math

Posted by Zonk on from the what-can't-math-do? dept.

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."

4 of 263 comments (clear)

  1. Not really by fgl · · Score: 4, Informative

    Im very Impressed Im sure. But its not really fighting cancer with math, just creating a good model on how to repond with the treatments we have.

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    Go Away! Not for Sale
  2. Re:Could they elaborate a bit? by zoloback · · Score: 5, Informative

    The breakthrough lies in the connection between the variables that allow a tumor to grow and the control that can be put over those variables, a lot of these were never considered before (such as barometric pressure inside the mass, and blood vessel proliferation).
    This are easily controllable factors, 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

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    The future will take care of itself.. It has in the past
  3. Re:Nature is nothing if not clever by bersl2 · · Score: 4, Informative

    how much are we tempting Nature to change the formula

    Cancer is an anomaly of mitosis; it is not an organism and therefore does not evolve. The body regularly squashes cells which go into a sort-of mitotic infinite loop, and that's the end of that. It's the ones that the immune system does not recognize that grow into tumors.

  4. Still early days. by scottZed · · Score: 5, Informative

    There is a follow-up article criticizing the original article: abstract

    And a response by the original authors: abstract

    In any event, it's a little premature to celebrate. Their follow-up work in mice (abstract) used implanted tumours. It is already known that tumours have the capacity to evade immune response, and we should not be surprised that implanting a foreign tumour mass into a host and stimulating the immune system will provoke a favourable response. The situation is more complicated when trying to raise the immune system to attack a tumour comprised of one's own cells. It seems to me that, at this point, they are trying to prove their particular growth model, not developing a de facto cure.

    That their devised strategy worked on a single human subject is cause for optimism, and nothing more. That work has not been published (that I could find), so there is no way to properly assess the result. At this point, they are more than likely drumming up press to ensure continued funding for their research... not that there's anything wrong with that ;).