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    "story_id": "mp-2026-07-14-005",
    "source_story_id": "tmp-story-intracorporeal-printed-wireless-implants",
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    "headline": "The Implant Would Be Printed After the Incision",
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    "dek": "An NSF-backed Ohio State project aims to build patient-specific wireless devices inside the body through a keyhole opening.",
    "summary": "An NSF-backed Ohio State project aims to build patient-specific wireless devices inside the body through a keyhole opening.",
    "body_text": "Ohio State researchers are developing a robotic probe that could print and assemble wireless medical implants through a small incision. A new $492,146 National Science Foundation award supports work on conductive and dielectric materials, sub-millimeter features, multilayer devices, and the integration of components that cannot be printed. The proposed approach could allow larger antennas or battery-free structures without a large surgical opening. It remains a research program with ambitious performance targets, not a demonstrated clinical procedure.",
    "why_it_matters": "An NSF-backed Ohio State project aims to build patient-specific wireless devices inside the body through a keyhole opening.",
    "limitations": [
      "A new $492,146 National Science Foundation award supports work on conductive and dielectric materials, sub-millimeter features, multilayer devices, and the integration of components that cannot be printed.",
      "It remains a research program with ambitious performance targets, not a demonstrated clinical procedure."
    ],
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    "first_published_at": "2026-07-14T09:00:00.000-04:00",
    "modified_at": "2026-07-14T09:00:00.000-04:00",
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        "text": "An NSF-backed Ohio State project aims to build patient-specific wireless devices inside the body through a keyhole opening.",
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        "qualification": "A new $492,146 National Science Foundation award supports work on conductive and dielectric materials, sub-millimeter features, multilayer devices, and the integration of components that cannot be printed."
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    "tags": [
      "biomedical engineering",
      "3D printing",
      "wireless implants",
      "robotics"
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  "sources": [
    {
      "source_id": "source-2026-07-14-005",
      "title": "Ohio State: Wireless medical implants built inside the body",
      "publisher": "Ohio State",
      "url": "https://mae.osu.edu/news/2026/07/new-technology-could-allow-wireless-medical-implants-be-built-inside-body",
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      "published_at": "2026-07-12T20:00:00.000-04:00",
      "accessed_at": "2026-07-14T08:30:28.235-04:00",
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    "title": "The Implant Would Be Printed After the Incision",
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