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Nanotech Living-Cell Treatment Medicine Tested In Rats

Posted by timothy on from the microelectromechanical dept.

Brian Wang writes: "Precursors of the nanotech medical cures are being tested in rats. Mem capsules with 7 nm holes let out insulin from cells inside the capsule. The holes allow nutrients in to keep the cells alive but keep out the immune system cells to keep the cells alive. Since the cells and the capsules last basically the lifetime of the person, they are effectively a cure. They will take some years to go through long term small animal trials and then to monkey and finally to human trials. The technique can be applied to other diseases. Parkisons, hemophilia etc ..."

18 comments

  1. nanotech by Dr.+Tom · · Score: 1

    This is more like "nano armor," but you have to start someplace. Next we'll have nano +2 two-handed swords. (Anybody read "Bug Park" by Hogan? Excellent.) This is good news for Diabetes sufferers.

    1. Re:nanotech by Anonymous Coward · · Score: 0

      Oh, we already have the +2 sword, it came before
      the armour. Some scientist working on antibiotics
      came up with nanotubes that pierce cells and let
      the vital fluids out. I think it was last year.

      Nils

  2. Questions by Man+of+E · · Score: 1
    • What prior research is there?
    • Has he shown conclusively that the rats are cured?
    • Has he published his results?
    • How long does animal testing take?
    • How long will it take to approve and market compared to "regular" drugs?
    • What will it cost?
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    Ceci n'est pas une sig
  3. Money by Man+of+E · · Score: 2, Interesting

    The article doesn't say anything about this, but I imagine this technology could mean fantastic savings for diabetics. A lifetime supply of Insulin is incredibly expensive, and this cure is bound to be cheaper, and more convenient.
    Not to mention how great it is for Parkinson's and hemophilia, and anything else it might be applicable to.

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  4. This isn't a nanotech cure by drinkypoo · · Score: 3, Interesting
    This is a nanotech package (As someone else pointed out, it's more like nano armor.) A nanotech cure would be using an actual nanomachine (not just a nano-structure) to either manufacture insulin, or repair the body to the point where it would do the job itself.

    If you could make them either release or not release material on some sort of cue, they would make a dandy way to regulate brain chemistry. You'd need a sensing system and control unit, though.

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    "You're right," Fisheye says. "I should have set it on 'whip' or 'chop.'"
    1. Re:This isn't a nanotech cure by kalyptein · · Score: 1

      I hate picking nits, but what the heck. I frequently see "it doesn't use a nanomachine so it isn't nanotech" statements, here on slashdot and elsewhere. I think this is due to people thinking inside a box constructed years ago about what nanotech is. Is it biotech if it doesn't involve a living cell? What about if its a virus, or a modified protein? The Diamond Age isn't going to show up tomorrow. First there will be custom catalysts, chemistry-on-a-chip, a host of new materials, etc. I think it will be a good while before we actually build something that qualifies as a machine, but in the mean time there will be plenty of things worthy of the name nanotech.

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      Entropy gets everyone.
  5. Might be a good cure for viruses and bacteria by Amon+CMB · · Score: 2

    I can imagine how future nanomachines would work. It wouldn't matter how much the viruses and bacteria evolved to avoid traditional antibiotics. Get a sample of the offending invader, program its profile into the nanomachines, send them on seek-and-destroy missions.

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    Men believe what they want. - Caesar
    1. Re:Might be a good cure for viruses and bacteria by nefertari · · Score: 1

      For bacteria we have already antibiotics, and they are much cheaper than programming these things, but for surgery it would be interessting, get a sample of the cancer that is currently "eating" your brain, and then let these things go on their way.

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      use Bielefeld.pm

    2. Re:Might be a good cure for viruses and bacteria by Man+of+E · · Score: 1

      Nanomachines are all well and good, but there's a big difference to this. This system consists simply of a few cells inside a special membrane that are able to manufacture something that the host cannot (e.g insulin). That's why it's so wonderfully simple and elegant.
      Methods for inexpensive nanomanufacturing are still far away, and even then it will take a long time until we can produce self-powered, programmable (self-replicating?) nanomachines.

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      Ceci n'est pas une sig
  6. very cool by bpowell423 · · Score: 1

    I remember reading about this a while back. (couple of years ago?) Back then they were just talking about how this might be possible. Neat to see it in the testing stages. The linked article doesn't say what kind of cells are enclosed in the nano-armor, but when I read about this before, they were planning to use pig insulin cells. It really amazes me that we can manufacture things on this scale. I know it happens everyday with microchips, but to move to the realm of physical structures, making little cages to hold living cells... that's amazing.

  7. Wow... just curious... by meridoc · · Score: 2

    The researcher sounds like she's hit upon a great idea. I understand how usng small pores allows the escape of insulin, but how do small pores keep antibodies out? I thought antibodies had to use receptors to "recognize" cells. I suppose if there are no receptors on the nanoparticle's surface, it wouldn't be recognized.

    Rats are a good first step, but larger animals will be much more difficult. I assume that since there's effectively no human control over the rate insulin is secreted, it remains at a constant level. What happens when the insulin runs out? Do you get another injection/infusion of capsules? What happens to the old capsules? What about fluctuating diets, which make blood sugar levels rise and fall?

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    "Two things are infinite: the universe and human stupidity, and I'm not sure about the former." -- Albert Einstein
    1. Re:Wow... just curious... by Man+of+E · · Score: 3, Informative
      The diameter of the pores in these capsules is about 7nm. Insulin molecules are about 5nm, whereas antibodies are larger, more complicated proteins (10-30nm, usually). Antibodies can't recognize the foreign cells inside the nanoparticle because they can't get through the membrane shielding it from the outside.

      Concerning your second question, I think the way blood sugar levels are naturally monitored is in the pancreas, by this same kind of cells. So I assume the cells inside the nanoparticle would maintain insulin levels at a constant rate, adjusting for fluctuating diets, just like a nondiabetic's pancreas. You wouldn't run out of insulin, because it's produced inside those cells; that is, once injected, you're cured for life.

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      Ceci n'est pas une sig
  8. One problem I can think of : by DahGhostfacedFiddlah · · Score: 1

    What if something goes wrong during the initial procedure, or a "bad batch" of capsules makes it to a patient? How do you get them out again? They feed off the host's nutrients, but there's no way to kill them off if they start acting up (producing too much insulin, maybe even getting cancer?) Just a thought.

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  9. Biocapsules safety not yet studied? by Wills · · Score: 4, Interesting

    One issue that really stands out is the potential for these super-tough biocapsules to act as safe harbours for a dangerous infectious agent like a virus or prion. The hole diameter in these biocapsules is 7nm. Deadly prion particles capable of causing BSE (mad cow disease) readily slip through 7nm holes. Once a biocapsule is hosting a virus or prion the body's immune system is useless against the invader because it can't reach inside the biocapsule ("It's a challenging tightrope act because if the nanopores are too small, they can't let nutrients in, like sugars and oxygen, to keep the cells alive. But if they're too big, the antibodies can get in and kill the insulin cells", Desai said.)

    No sane researcher would risk a bet against virii below the biocapsule's hole size (7nm) being found; years ago the smallest known virus was Hep.B (35nm), a few years ago it was Parvovirus (25nm), now it's Gemini (15nm).

    The safety issues need thorough research. Academic research does not have to address safety issues, although most researchers do it as a matter of good practice at the pre-commercial stage which gives more time for potential problems to be identified and debated in the academic community. However Desai does not discuss safety issues in any of her three published papers on biocapsules. This omission is quite surprising because following the gene therapy tragedy at U.Pennsylvania universities have toughened the faculty guidelines and policies on a wide range of safety issues in medical research. Responsible publications have similarly tightened their refereeing policy. Like most referees I'd normally expect authors to address relevant safety issues in submitted papers, otherwise I'd recommend rejection.

    Apparently Desai has a patent on biocapsules and is developing it into a therapy with a company called iMEDD in Columbus, Ohio. Obviously the FDA will ensure the technology goes thru safety testing (Phase 2 trials etc) to comply with FDA licensing requirements, but I hope the company actively encourages Desai to follow up and make good her omission of detailed safety research with publications in the academic literature (including safety-related work under NDAs).

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    Scroogle
  10. Magnetic? by suicidal · · Score: 1

    Are these devices ferrous? What happens when billy bob goes in for an MRI and comes out a nano-colander? What kind of concentration are we talking about in the system? Hmm....