No manual registration, pins, clamps or arrays
AUSTIN, Texas–(BUSINESS WIRE)–VISIE Inc., the spatial computing company delivering the intelligence layer for surgical navigation and robotics, today announced a major technical milestone: the successful execution of all total knee arthroplasty (TKA) bone resections on cadaveric tissue, without the use of pins, clamps, arrays, or manual registration (Warning: Graphic details. See here for a video of the cadaver cuts.)
Unlike traditional navigation for robotic systems, VISIEโs proprietary scanning platform is completely non-invasive. It sees what a surgeon sees without bone-pinned trackers, clamps, or time-consuming registration steps that disrupt a surgeonโs workflow and increase the risk of fractures, infection and post-op pain.
This latest breakthrough marks the first demonstration of complete knee bone cuts powered solely by VISIEโs platform – an upgrade that integrates seamlessly with existing surgical navigation and robotic systems.
โVISIE doesnโt just improve surgical navigation, it rewrites the rules,โ said Dr. Brian Blackwood, Orthopedic Surgeon and Clinical Advisor. โThis spatial platform delivers the precision that we surgeons need, without pins, clamps, arrays, or compromise. It frees surgical navigation and robotics from the physical hardware weโve long accepted as necessary and ushers in a new era of anatomic intelligence in the OR.โ
Elevating, Not Replacing: A Universal Enabler
This milestone follows VISIEโs award-winning appearance at the 2025 American Academy of Orthopaedic Surgeons (AAOS) meeting, where it took top honors at OrthoPitch for its Continuous Anatomic Auto Tracking (CAATโข) system. CAAT delivers dynamic, real-time anatomical tracking, potentially including cartilage visualization and bone stock assessmentโwithout invasive markers or registration steps.
Challenge Met. Milestone Delivered.
After strong interest and even some skepticism from industry stakeholders, VISIEโs team turned its focus on delivering a proof of concept and successfully achieved this technical milestone in record time.
โEveryone was asking if we could track while cutting bone – so we built it and proved it,โ said Douglas Fairbanks, VISIE CEO. โThis isnโt just about a saw, itโs about redefining whatโs possible when vision replaces hardware like pins, clamps, and arrays.โ
Since AAOS, the VISIE team has successfully:
- Designed and built a custom robot with a saw-equipped end-effector
- Executed all five standard femoral cutsโanterior, posterior, anterior chamfer, posterior chamfer, and distalโplus the tibial cut
- Performed all resections on cadaveric tissue tracked entirely through VISIEโs spatial computing systemโno pins, clamps, arrays, or registration steps
Roadmap to Clinical Impact
With this milestone complete, VISIE is extending its pinless tracking technology to additional procedures. Early feasibility work is already underway in spine and cranial surgery, supporting VISIEโs vision of delivering the optical intelligence layer for the entire surgical ecosystem.
As surgical systems grow more complex, VISIE simplifies and amplifiesโproviding universal compatibility, less friction, and more capability.
About VISIE
VISIE Inc. is a 3D computer vision and spatial computing company enabling real-time, pinless tracking for orthopedic, neuro, cranial, and spine surgery. With a robust global IP portfolio and multiple innovation awards, VISIE enables surgical systems to see what the surgeon seesโin real time. VISIE: Making the unseen seenโand the impossible routine. For more information, follow us on: https://www.linkedin.com/company/visievision
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Gwendolyn Barge
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