English(EN) 🤖 ETH Zurich used magnetically-steered biohybrid microrobots to reconnect completely severed spinal cords in mice Researchers at ETH Zurich built what they're c

苏黎世联邦理工学院微型机器人成功重新连接小鼠断裂的脊髓

作者 PulseAugur 编辑部 · [1 个来源] · 2026-06-16 17:30

苏黎世联邦理工学院的研究人员开发了一种名为NPCbots的生物混合微型机器人，能够重新连接小鼠断裂的脊髓。这些机器人将神经祖细胞与磁性纳米颗粒结合，使其能够通过外部磁场引导，从而促进脊髓修复。 AI

排序理由研究出版物，详细介绍了一种用于脊髓修复的新型生物混合微型机器人。[lever_c_demoted from research: ic=1 ai=0.4]

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Mastodon — fosstodon.org TIER_1 English(EN) · [email protected] · 2026-06-16 17:30

🤖 ETH Zurich used magnetically-steered biohybrid microrobots to reconnect completely severed spinal cords in mice Researchers at ETH Zurich built what they're c

🤖 ETH Zurich used magnetically-steered biohybrid microrobots to reconnect completely severed spinal cords in mice Researchers at ETH Zurich built what they're calling NPCbots: tiny biohybrid microrobots that pair neural progenitor cells with magnetic nanoparticles. Steered by an …

报道来源 [1]

🤖 ETH Zurich used magnetically-steered biohybrid microrobots to reconnect completely severed spinal cords in mice Researchers at ETH Zurich built what they're c

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