Today, Robotrak's Mona® Adaptive Optics Retinal Imaging System was successfully installed at the University of Washington. Renowned adaptive optics imaging expert and Director of the University of Washington's Visual Research Center, Professor Ramkumar Sabesan, praised the system highly: “The Robotrak Mona® will revolutionize the entire adaptive optics world! We can’t wait to start using it for our research!”

This innovative product, developed in-house by Robotrak, has received exceptional recognition on its international debut, garnering the attention of top-tier teams in the Adaptive Optics (AO) field and finding its place at a world-leading vision research institute. This accomplishment once again demonstrates the unprecedented global competitiveness of Chinese-made medical innovations and marks a new milestone in Robotrak's journey toward realizing its vision of "rooted in China, expanding to the world."

The Sabesan Lab (Sablab), led by Professor Ramkumar Sabesan at the University of Washington’s Visual Research Center, is a world-renowned research institution. The team focuses on using non-invasive Adaptive Optics (AO) technology to capture images of human retinal cells, aiming to explore the mechanisms behind ocular diseases and provide imaging assessments for therapeutic interventions.

Before the launch of Mona, like most AO research teams, Sabesan’s team relied on lab-constructed adaptive optics platforms for their studies. Now, with the introduction of the Mona® Adaptive Optics Retinal Imaging System, the Sabesan team is set to conduct large-scale AO clinical research, rapidly advancing the system’s application to the clinical stage. In addition, Sablab, as an independent and authoritative third-party research institution, will compare and validate the consistency and accuracy of data collected by Mona® against their existing laboratory equipment.