![]() And we have to show that we comply with all these regulations.” ![]() There are all kinds of regulations, which are there for a good reason. “Our ambition will be to go to humans in the next say, two years, or maybe a little bit later, but it’s still going to be research. “I have to explain this is not a clinically approved device,” he says. In episode five of Tales from the Synapse, a podcast series with a focus on brain science, Roelfsema describes how he handles requests from people who are pinning their hopes on being able to see again. That is definitely a very important goal for me, to bring this to a patient.” “We also collaborate with neurosurgeons who can inform us how to really make this device and make it something that is going to be feasible for a neurosurgeon to really implant in the brain. ![]() “We are knowledgeable about how to put electrodes in the brain,” says Roelfsema, “but we collaborate with experts who know about how to make these electrodes so that they don't damage the brain tissue too much, also with people in artificial intelligence who can take camera images and translate them into brain stimulation patterns. To help achieve this goal, the lab partners with both neurosurgeons and artificial intelligence researchers. An applied goal of Pieter Roelfsema’s lab at the Netherlands Institute for Neuroscience in Amsterdam is to create a visual brain prosthesis aimed at people who have lost their sight. ![]()
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