from the printed-on-fun-backgrounds dept.
By adapting a technology used to build electronic components, researchers at the University of Michigan have developed a new way to manufacture medication. The technique could eventually allow hospitals, pharmacies and doctor's offices to print drugs on demand, mixing different medications into one easy-to-administer dose.
[...] This latest technique was adapted from organic vapor-jet printing, a method of manufacturing electronics by depositing fine crystals of a material onto a substrate surface. To print their medication, the Michigan researchers heated a powdered form of the active pharmaceutical ingredient until it evaporated, where it then combines with a heated inert gas. That mixture is then funnelled through a nozzle and deposited onto a chilled surface, where it cools to form a thin crystalline film.
[...] In the long run, the technique could also allow medications to be mixed and matched, before being printed on-site in pharmacies and hospitals onto a delivery device like a dissolvable strip or microneedle patch.
[...] The research was published in the journal Nature Communications.
(Score: 2) by bob_super on Thursday September 28 2017, @11:52PM (2 children)
Seriously? Have the researchers from Michigan considered how likely it would be to be viable in the US?
Hospitals bill you $20 per aspirin pill. Manufacturers claim their stuff is expensive because it's hard to make and quality-control. You want to DIY print all-in-one pills from raw ingredients?
[insert fit of hysterical disbelief laughter here]
(Score: 0) by Anonymous Coward on Friday September 29 2017, @12:52AM
Hospitals bill you $20 per aspirin pill
You are off by 10x. My mother was charged 200 per pill for the ones in her own purse.
(Score: 2) by DannyB on Friday September 29 2017, @01:54PM
This is just a guess. So I could be wrong. But I suspect the outrageously high price is because a doctor had to say it is okay for you to have the aspirin.
Why is it that when I hold a stick, everyone begins to look like a pinata?
(Score: 0) by Anonymous Coward on Friday September 29 2017, @12:00AM (5 children)
Tell you what, you can print several milligrams of it per strip.
(Score: 2) by c0lo on Friday September 29 2017, @02:23AM (1 child)
Sure, I'll just contact my HK supplier [china-underground.com].
How many hundred of square meters/yards were you saying you want?
https://www.youtube.com/watch?v=aoFiw2jMy-0
(Score: 0) by Anonymous Coward on Friday September 29 2017, @03:45AM
They will probably sell a mimic like 25C-NBOMe instead of LSD. And if they are a rogue element of a Chinese pharmaceutical company, who knows how good their quality control is?
(Score: 2) by DannyB on Friday September 29 2017, @01:59PM
Wouldn't each type of drug be a different type of filament strip fed into the printer? Or would they be more like inkjet cartridges?
Couldn't you simply order the filaments / cartridges you are interested in, even if you don't need to refuel your 3D printer?
Now if only the printer could be programed to print only drug combinations that are known to have adverse interactions. Hackers could hack the firmware to avoid drug combinations with known adverse interactions. Or vice versa. And government TLAs could get involved.
Customized SOMA to keep everyone pacified and happy.
Why is it that when I hold a stick, everyone begins to look like a pinata?
(Score: 2) by DannyB on Friday September 29 2017, @02:12PM (1 child)
Since doses of LSD are measured in µg (micro grams), what would a few milligrams do? (and no, I don't it would *really* turn you into superman, able to fly and leap tall buildings.)
I could see 3D printing of drugs like v1agra / c1alis, etc as pills that come in . . . um . . . certain shapes. Like kids chewable vitamins do.
Why is it that when I hold a stick, everyone begins to look like a pinata?
(Score: 0) by Anonymous Coward on Friday September 29 2017, @03:26PM
https://www.erowid.org/chemicals/lsd/lsd_death.shtml [erowid.org]