[{"data":1,"prerenderedAt":-1},["ShallowReactive",2],{"news-6815-EN":3},{"images":4,"pk":7,"body":8,"tags":9,"permalink":10,"published":11,"posted":12,"title":13,"news_id":14,"summary":15,"tile_image":6,"ex_news":16,"pinned":16,"ex_artist":16},[5],{"filename":6},"blog_6815_639045177882773687.jpg","news","\u003Cp>Based in the US, Alex was commissioned by \u003Cem data-start=\"210\" data-end=\"229\">Artificial Organs\u003C\u002Fem> to depict emerging research into cortical visual prostheses, a technology probing how direct brain stimulation might restore sight.\u003C\u002Fp>\r\n\u003Cp>Alex simplified the brain’s complex wiring and the device’s circuits into a clean, easy-to-follow illustration that make the science understandable.\u003C\u002Fp>\r\n\u003Cp>By making the invisible visible, Alex helps the science feel tangible, while keeping accuracy and detail intact.\u003C\u002Fp>","#editorial#futuristic#medical#science#tactile#medical illustration#alex webber#","\u002Fnews\u002F6815\u002Fneural_sight","2026-01-20T13:00:00","2026-01-20T13:00:00#6815","Neural Sight",6815,"Translating brain-to-vision research, \u003Ca href=\"\u002FAlexWebber\">Alex Webber\u003C\u002Fa> illustrates the future of neural interfaces.",false]