XACT Robotics® Receives FDA Clearance for its ACE Xtend™ Remote Control Unit

First-of-its-kind capability allows users to robotically insert and steer instruments using the XACT ACE® Robotic System directly from the control room

XACT Robotics®, developer of the world's first and only comprehensive robotic system for interventional procedures, announced today that its ACE Xtend™ Remote Control Unit received U.S. Food and Drug Administration (FDA) clearance, allowing users to robotically insert and steer the XACT ACE® Robotic System remotely from the control room. The first-of-its-kind feature for CT-guided percutaneous procedures is designed to improve physician workflows while limiting physician and other users' exposure to radiation and reduce physical strain.


The XACT ACE Robotic System has already allowed users to make percutaneous procedures, such as ablations, drainages and biopsies, more accurate, consistent and efficient," said Shai Meltzer, CEO of XACT Robotics. "The addition of ACE Xtend has the potential to further increase efficiencies for the care team with a streamlined workflow that helps reduce the time in which physicians and other users are exposed to harmful radiation during standard procedures."

"Interventional radiology is among the medical specialties that are facing a physician shortage in the coming years and technologies that can improve their efficiencies are crucial," said Jeffrey Solomon, MD, Vice President of Medical Affairs at XACT. "By equipping different users with tools that can standardize the procedure and potentially shorten procedure times, we can maximize the number of patients they see and help to mitigate the gap between the patient population and the physician population."

The comprehensive XACT ACE Robotic System is the first and only technology that combines image-based planning and monitoring with patented S-Drive™ technology, which enables the system to quickly adapt from a linear to a non-linear trajectory with its robotic insertion and steering of instruments during interventional percutaneous procedures. It precisely delivers instruments to the designated targets with unparalleled accuracy, unmatched consistency, and unlimited efficiency.

The XACT ACE Robotic System has been proven to achieve unparalleled 1.7mm tip to target average accuracy upon first insertion based on data obtained from company clinical studies for biopsy procedures. By providing accurate and actionable results for medical diagnosis, the system aims to enhance early detection and improve patient outcomes.

About XACT Robotics®

Founded in 2013, XACT Robotics® is advancing the field of radiology with cutting edge technology that supports earlier patient diagnosis and treatment. The company's XACT ACE® Robotic System is the world's first and only comprehensive robotic system that integrates image-guided planning and monitoring with patented S-Drive™ technology to deliver various instruments to a desired target in the body with unparalleled accuracy, unmatched consistency, and unlimited efficiency. XACT Robotics is a privately held company with offices in Hingham, MA, USA and Caesarea, Israel.

The use of ACE Xtend™ is limited to IR control rooms that have a window with clear and complete vision of the patient and the complete robot mounted on the patient, or a video camera set-up in the radiology procedure room that provides the same vision.

ACE Xtend™ can only be used after the first checkpoint in the procedure is reached.

For more information and full system indication for use, visit www.xactrobotics.com.

Featured Product

Piab’s Kenos KCS Gripper

Piab's Kenos KCS Gripper

Piab's Kenos KCS gripper enables a collaborative robot to handle just about anything at any time. Combining Piab's proprietary air-driven COAX vacuum technology with an easily replaceable technical foam that molds itself around any surface or shape, the gripper can be used to safely grip, lift and handle any object. Standard interface (ISO) adapters enable the whole unit to be attached to any cobot type on the market with a body made in a lightweight 3D printed material. Approved by Universal Robots as a UR+ end effector.