bioreactor
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An artwork controlled by a colony of bacteria
The Tate Modern's Turbine Hall has always been a vacuous space. Five storys high, with 35,000 sq ft. of space for artworks, it's been home to some of the London museum's most memorable exhibitions. Its latest, by sheer spirit of invention, is no exception.
Mini bioreactor makes life-saving drugs in the field
Paramedics and field medics can patch up some wounds on the spot, but they're usually stuck if they have to administer specialized drugs. What if you need medicine that health care workers don't have on hand? You might not have to rush back to the hospital in the future. Researchers have created tiny, microfluidic bioreactors that generate the proteins you need for medicine. At its heart are two very long (16 feet) channels wound into an extremely tight pattern, and divided by a customized, porous membrane -- one channel feeds chemicals, while the other hosts the reactions that produce your drug. You only have to shake the device to send protein from one side to the other and get the medicine you need.
Rat lungs successfully grown in bioreactor: groundbreaking, yet also kind of gross
Bioartifical organs differ from, well, plain ol' artificial organs because they consist of biomaterials and cells. And while bioartificial livers are becoming increasingly commonplace, it's only recently that working lungs have been grown in a lab. Working at the Massachusetts General Hospital and Harvard Medical School in Boston, researchers removed the left lungs from rats and stripped them of cells with a process that left the blood vessels, airways, and connective tissues intact. Using all that as a sort of scaffolding, lung cells were regrown on the scaffolding in a bioreactor. The cultivation of the lungs took less than a week, and once they'd been run through their paces in culture, they were transplanted into rats. At this point, the lungs did their job for about six hours, after which "they failed through accumulation of fluid inside the lung and resultant capillary leakage," according to PhysOrg. According to the man in charge, Mass General's Harald C. Ott, if work continues at the current pace we might begin to see regenerated organs for human patients within the next ten years. To see the thing in action, hit up that source link.
