What does a bionic eye see?
The bionic implant sees a blurred image made from flashes of light rather than a steady visual perception. The flashes of light provide visual information in the form of a basic shape. This basic shape can indicate the height and width of an object and its approximate location.
Who gets a bionic eye?
A retinal bionic eye implant has been suggested for those whose vision loss is severe, for example advanced age-related macular degeneration and retinitis pigmentosa.
How much does a bionic eye cost?
To date, only three types of bionic eyes are available for sale. A device called the Argus II retinal bionic eye is one of them. It was developed in the United States and is said to cost around $150,000 [1]. The Alpha-AMS and the Iris V2 are its competitors.
How successful is the bionic eye?
Although the bionic eye provides some visual information, this is not as much as some might wish for or imagine. This is due to the number of electrodes in these devices. For example, the Argus II has 60 electrodes, whereas a million electrodes are required to see naturally.
Another limitation of the Argus II is that it doesn’t allow patients to see colour. In addition to this, it is considered very costly.
Nevertheless, blind patients have reported this retinal prosthesis system to be successful in giving them the ability to read large print books and cross the street on their own. Clinical trial results have proven the bionic eye to be safe and reliable in restoring a sense of sight to those who can’t see.
Bionic eyes are not able to restore vision completely. In addition to this, they do not possess the ability to give sight to someone who has never had it. The bionic eyes which are currently in development require a healthy optic nerve and a developed visual cortex.
The future of bionic eyes
Second Sight, the California-based company who invented the Argus II plans to add more electrodes to future models. This will make them capable of rendering sharper and clearer vision for those who are completely blind as a result of certain eye diseases.
Second sight is now testing the brain implant, which aims to restore vision in more people. This brain implant doesn’t require you to have a working eye. Rather than implanting directly into the eye, electrodes are embedded in the visual cortex of the brain. The visual cortex is sent footage by a video camera attached to glasses.
Other researchers are already in the process of testing other devices with more electrodes, and there is the possibility that newer appliances may even produce colour vision.
The advancement of technology in the future could give bionic eyes the potential to correct most forms of vision loss.
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