Tag Archives: medicine

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Laboratory lungs are go

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Almost exactly a year back, we mentioned that biologists were looking into the possibility of growing simulated lungs to use instead of rats for toxicology testing procedures. Today, The Guardian reports that working prototypes of these cheap and ethical lung analogues are well in hand. (Warning: article includes use of the colloquial “[x]-on-a-chip” buzzphrase which, if you’re anything like me, makes you want to punch kittens and cuss at nice old ladies.)

The work at Harvard will be used mainly for studying the workings of living lung tissue without having to open up people or animals. It could also be used to test the effects of environmental toxins or new drugs.

The lung-on-a-chip could predict how human lungs absorb airborne nanoparticles and mimic the inflammatory response triggered by pathogens, said Donald Ingber, the vascular biologist who led the work at Harvard University’s Wyss Institute.[…] The device was able to replicate many of the natural responses of lung tissue, such as detecting pathogens and speeding up blood flow so that immune cells can deal with the invaders.

And in the rather select category of “news also involving biology, lungs and rats”, a team at Yale has grown new rat lungs and patched them into test subjects, who are reportedly breathing just fine [via SlashDot]:

The team started with decellularized adult rat lungs, which retain the organs’ branching airways and blood vessel network, and added a mixture of lung cells from newborn rats. Niklason says that the crucial step was nurturing the would-be lungs in a bioreactor that circulates fluid—simulating what would happen during fetal development—or air through them. The cells stuck to the scaffold in the right locations and multiplied. After up to 8 days in the bioreactor, they had coalesced into what the researchers’ tests indicated was functional lung tissue.

How long until we can buy off-the-shelf replacement organs? Will they ever be cheaper (or more reliable) than back-street “donor” options sourced from underprivileged populations?

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Physical gender not determined by XY chromosomes after all

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Via Cheryl Morgan, news of recent research that’s blown holes in a lot of our preconceptions about how the physical sex of a mammal is determined by genetics. I’ll quote Cheryl rather than the article, because she uses less sciencespeak:

We have known for a long time that physical sex is much more complex than simply having XX or XY chromosomes. According to this article we now understand the exact mechanism by which a body will develop either testes or ovaries. Of particular importance is the fact that this mechanism involves a gene that is not on either the X or Y chromosome, and is active for only a very short period in the embryo’s development. There are therefore definite possibilities for things to go wrong in an embryo with perfectly normal X, and Y if it exists, chromosomes.

Even more startlingly (and potentially annoying for feminist separatists) is the following:

“The research challenges several long held assumptions, such that female development happens by default, or that once formed, mature tissues are immutable or fixed.”

And near the end of the press release, there’s this:

… if it is possible to change adult gonad type from ovary to testes or even the reverse, it may eventually allow individuals with gender dysphoria, who feel they are trapped in the wrong sex, to change their gonads appropriately rather than having them removed surgically as part of their treatment to undergo gender reassignment.

Another little step closer to living in Iain M Banks’ Culture universe… 🙂

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Nanotats: nanotube inks under skin could monitor blood glucose levels

Diseases like diabetes demand regular monitoring… which currently means pricking one’s finger for a blood sample once a day, maybe more. It’ll be cold comfort for those afraid of needles in general, but chemical engineers at MIT have developed an ink based on carbon nanotubes that, if injected under the skin, could act as a sort of constant glucose-level monitor [via Technovelgy]:

The sensor is based on carbon nanotubes wrapped in a polymer that is sensitive to glucose concentrations. When this sensor encounters glucose, the nanotubes fluoresce, which can be detected by shining near-infrared light on them. Measuring the amount of fluorescence reveals the concentration of glucose.

The researchers plan to create an “ink” of these nanoparticles suspended in a saline solution that could be injected under the skin like a tattoo. The “tattoo” would last for a specified length of time, probably six months, before needing to be refreshed.

To get glucose readings, the patient would wear a monitor that shines near-infrared light on the tattoo and detects the resulting fluorescence.

So you’d still need some intermediary hardware, but it’s not a ludicrously implausible step to suggest that eventually you might just get a tattoo whose colour would change to inform you of any problems. And hell, why stop there? The transhumanist sympathiser in me can’t help but think that two full-arm sleeves of designs cranking out live data on the state of my meatmachine would be nothing short of awesome… like conky, but for biological systems!

That said, it’d probably achieve little more than letting me watch my arteries clog in minute detail as I spent day after day sat in a swivel chair pecking away at a keyboard…

Today's Tomorrows

Under Your Skin: The Implants are Coming

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This idea for this article started when I was doing some research on prosthetics and came across an article about a wheelchair that can be controlled with brainwaves. That got me thinking about what else we might be doing to use electronics or other implants to manage our interface with the world. This was pretty interesting research: I learned a new word (Geoslavery, or location control), and I got to see that the new wave in implants may not be chips at all. Continue reading Under Your Skin: The Implants are Coming