Redefining Neurovascular Access
with Robotic Navigation

The Problem

Navigation in Complex Vasculature

Brain's blood vessels are difficult to navigate because of their complex and tortuous anatomy. Difficult target access leads to delayed treatment and poor clinical outcomes for stroke patients, and tortuous anatomy increases the risk of procedural complications, such as vessel perforation or dissection.

Our Solution

Magnetic Steering & Navigation

Our magnetically steerable soft-robotic guidewire enables faster, safer, and easier access to hard-to-reach targets in the brain's vasculature, reducing procedural time and complications to improve patient outcomes while reducing the cost of neuroendovascular care.

Our Technology

Reach the Unreachable

TM

After years of research and development at MIT, we introduce our neurovascular robotic system to revolutionize endovascular treatments of strokes and brain aneurysms. Our system enables physicians to reach previously untreatable areas of the brain, shortens procedure times for improved outcomes, and minimizes unsafe maneuvers that can lead to devastating hemorrhagic complications.  

Our Team

Yoonho Kim, Ph.D.
President & CEO
Inventor and technical lead MIT Technology Review Innovator Under 35 (2022)
Miki Rosenberg
Chief Development Officer
Formerly VP of R&D and VP Strategic Technologies at Medtronic Surgical Robotics
Aman B. Patel, M.D.
Chief Medical Officer
Director of Endovascular Neurosurgery at Harvard/MGH with +22 years of practice
Jeffrey M. Arnold
Executive Chairman
Formerly serial CEO with multi-exits, now strategic advisors, director, and angel investor
Xuanhe Zhao, Ph.D.
Scientific Advisor
Co-inventor and advisor Professor of Mechanical Engineering at MIT
Built by Engineers and Physicians from

Publications

1)  Y. Kim et al., “Printing ferromagnetic domains for untethered fast-transforming softmaterials,” Nature 558, 2018
2)  Y Kim et al., “Ferromagnetic soft continuum robots,” Science Robotics 4, eaax7329, 2019
3)  Y. Kim et al., “Telerobotic neurovascular interventions with magnetic manipulation,” Science Robotics 7, eabg9907, 2022

Join us in

Shaping the Future of Neurointervention

Our mission is to make life-saving endovascular procedures faster, safer, and more accessible for every patient through robotic technology. Validated by leading neurointerventional physicians, our platform has demonstrated the potential to dramatically reduce procedure times while improving consistency across physicians and patient anatomies.

As we prepare our first clinical system and enter our next phase of growth, we are assembling a world-class team to help redefine the future of neurovascular intervention. Together, we will set a new standard for endovascular care and bring transformative technology to physicians and patients around the world.

See Open Roles

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