After a lot of theorizing, postulating, and non-human trials, it looks like bionic eye implants are finally hitting the market — first in Europe, and hopefully soon in the US. These implants can restore sight to completely blind patients — though only if the blindness is caused by a faulty retina, as in macular degeneration (which millions of old people suffer from), diabetic retinopathy, or other degenerative eye diseases.

The first of these implants, Argus II developed by Second Sight, is already available in Europe. For around $115,000, you get a 4-hour operation to install an antenna behind your eye, and a special pair of camera-equipped glasses that send signals to the antenna. The antenna is wired into your retina with around 60 electrodes, creating the equivalent of a 60-pixel display for your brain to interpret. The first users of the Argus II bionic eye report that they can see rough shapes and track the movement of objects, and slowly read large writing.

The second bionic eye implant, the Bio-Retina developed by Nano Retina, is a whole lot more exciting. The Bio-Retina costs less — around the $60,000 mark — and instead of an external camera, the vision-restoring sensor is actually placed inside the eye, on top of the retina. The operation only takes 30 minutes and can be performed under local anesthetic.

The best bit, though, is how the the sensor is powered. The Bio-Retina system comes with a standard pair of corrective lenses that are modified so that they can fire a near-infrared laser beam through your iris to the sensor at the back of your eye. On the sensor there is a photovoltaic cell that produces up to three milliwatts — not a lot, but more than enough. The infrared laser is invisible and harmless. To see the Bio-Retina system in action, watch the demo video embedded below.

Human trials of Bio-Retina are slated to begin in 2013 — but like Second Sight, US approval could be a long time coming. It’s easy enough to hop on a plane and visit one of the European clinics offering bionic eye implants, though. Moving forward, multiple research groups are working on bionic eyes with even more electrodes, and thus higher resolution, but there doesn’t seem to be any progress on sensors or encoder chips that can create a color image. A lot of work is being done on understanding how the retina, optic nerve, and brain process and perceive images — so who knows what the future might hold.

Read more about how we decode the brain’s signals so that we can build bionic implants, or transhumanism