Medical imaging specialist Adaptix Ltd (Adaptix) has announced an exclusive distribution agreement with Vertec Scientific Ltd UK (Vertec) to supply its latest Ortho 3D Imaging System (Adaptix Ortho350) into the UK market.
The agreement appoints Vertec as the official UK distributor for the Adaptix Orthopaedic 3D imaging system.
Representing a significant breakthrough in how X-ray images are captured, the Adaptix Ortho350 System provides orthopaedic surgeons with more-detailed, higher-resolution 3D images for better visibility into tissues and bone structures, resulting in more-accurate diagnoses at a lower dose and cost than traditional 3D imaging technologies.
Kate O’Reilly, Managing Director at Vertec, said:
“Vertec is delighted to be the exclusive UK distributor for the Adaptix Ortho350 system, and we will be working closely with Adaptix as we launch its clinical point-of-care imaging system in the UK market.
We are confident the Ortho350 is a game-changer, all set to improve patient pathways and reduce time to diagnosis for patients.”
Sarah Small, Chief Executive Officer at Adaptix, said:
“We are in an exciting phase as we launch our latest ortho product to the UK market.
We are delighted to announce this exclusive distribution partnership with Vertec, who have a great reputation, a strong presence, and are aligned with our values.
We look forward to working together during this exciting period of growth.”
Based in Oxfordshire, Adaptix is a medical imaging technology company reimagining the way X-rays are delivered.
Established by experts in radiation, medical devices, and tech transfer, the company began operations around 2014 at Harwell and expanded to Begbroke Science Park.
They have since grown to a team exceeding 50 people, including over a dozen PhDs, united by the goal of making advanced imaging more portable, affordable and accessible.
Their low-dose 3D systems offer the precision of traditional 2D X-rays without the need for large, fixed installations or high radiation exposure — opening the door to faster, more accurate diagnostics in settings where conventional imaging has been impractical or unavailable.
