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Scientists Hack Cellphone To Detect Diseases

Posted by kdawson on from the blue-blood dept.

Dave Bullock (eecue) plugs his piece up at Wired on a cellphone modded into a portable blood tester. This could become a significant piece of medical technology. "A new MacGyver-esque cellphone hack could bring cheap, on-the-spot disease detection to even the most remote villages on the planet. Using only an LED, plastic light filter, and some wires, scientists at UCLA have modded a cellphone into a portable blood tester capable of detecting HIV, malaria, and other illnesses. Blood tests today require either refrigerator-sized machines that cost hundreds of thousands of dollars or a trained technician who manually identifies and counts cells under a microscope. These systems are slow, expensive and require dedicated labs to function. And soon they could be a thing of the past."

1 of 100 comments (clear)

  1. Bullshit by toppavak · · Score: 5, Informative

    A. It can't detect HIV. No imaging technology short of electron microscopy can directly detect the virus itself and even electron microscope would be a retarded way to attempt diagnostics.

    Even the original paper describing this technology showed that they have no sub-cellular resolution and even their size resolution was extremely unreliable for anything smaller than 15 microns... which all interesting human cells are (even if you could tell what size cells are you've accomplished.... nothing).

    If they are suggesting they can do CD4+ T-lymphocyte counts they're either idiots, ignorant or both. There is no morphological distinction between a CD4+ and a CD4- T-lymphocyte. Even using fluorescence imaging (which they aren't) you have to be able to look at two colors of fluorescence (CD3 label to check to see if its a lymphocyte and a CD4 label to see if its CD4+) immunofluorescence is way too weak to be detected by a cell phone camera, especially a color sensor with 2 micron pixels. The CD4 antigen is never expressed at levels greater than approximately 50,000 / cell, the detection limit of a 5 micron pixel monochrome sensor (the bayer mask makes you lose about 30% of your light) is close to about 150,000 molecules. The bayer mask also makes your sensor pretty much useless for analytical applications, you're screwed if your green-fluorescent cell is centered over a red or blue-sensitive pixel which would happen in, oh, 66% of your pixels.

    You run into almost identical sets of problems with every other so-called "application" of this "technology" so, yeah, bullshit.

    IAABME.