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CLASSIC - Inside The Brain Chip: How BCIs Could Restore Independence
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A thought can become action faster than a mouse click—imagine what that means for someone who can’t move their hands. We take you inside Neuralink’s fast-evolving brain computer interface, translating neural activity into cursor control and exploring how this tech could restore independence for people living with paralysis, ALS, and other neurological conditions. From our lived experience with disability, we unpack the promise, the limits, and the real-world milestones that matter.
We walk through the N1 implant and the R1 surgical robot: 1,024 electrodes on flexible threads placed with micrometer precision, a wireless implant powered under the scalp, and software that decodes intention into on-screen actions. Beyond movement, we dive into Operation Blindside—research aimed at delivering visual information directly to the brain by encoding the patterns the cortex understands, much like cochlear implants translate sound. That opens the door to visual restoration and, one day, augmented vision across spectra like infrared or ultraviolet, raising big questions about ethics, access, and design.
Trials are under way, with two human participants publicly noted and careful updates shared across blog posts and videos. We talk candidly about eligibility, costs, and why experimental procedures rely on study sponsorship, not insurance. We also share practical steps for getting involved through patient registries and advisory boards, and how remote metrics help researchers track function changes without constant clinic visits. For the disability community, the stakes are clear: credible progress toward autonomy, measured not by flashy demos but by everyday tasks becoming doable again.
If this conversation resonates, tap follow, share the episode with someone who could benefit, and leave a review to help more listeners find it. Got questions or a different view? Send us a note—we’re building this dialogue with you.
Support the show
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By Kevin & Palmi HenrySend us a text
A thought can become action faster than a mouse click—imagine what that means for someone who can’t move their hands. We take you inside Neuralink’s fast-evolving brain computer interface, translating neural activity into cursor control and exploring how this tech could restore independence for people living with paralysis, ALS, and other neurological conditions. From our lived experience with disability, we unpack the promise, the limits, and the real-world milestones that matter.
We walk through the N1 implant and the R1 surgical robot: 1,024 electrodes on flexible threads placed with micrometer precision, a wireless implant powered under the scalp, and software that decodes intention into on-screen actions. Beyond movement, we dive into Operation Blindside—research aimed at delivering visual information directly to the brain by encoding the patterns the cortex understands, much like cochlear implants translate sound. That opens the door to visual restoration and, one day, augmented vision across spectra like infrared or ultraviolet, raising big questions about ethics, access, and design.
Trials are under way, with two human participants publicly noted and careful updates shared across blog posts and videos. We talk candidly about eligibility, costs, and why experimental procedures rely on study sponsorship, not insurance. We also share practical steps for getting involved through patient registries and advisory boards, and how remote metrics help researchers track function changes without constant clinic visits. For the disability community, the stakes are clear: credible progress toward autonomy, measured not by flashy demos but by everyday tasks becoming doable again.
If this conversation resonates, tap follow, share the episode with someone who could benefit, and leave a review to help more listeners find it. Got questions or a different view? Send us a note—we’re building this dialogue with you.
Support the show