Xfloater Project

If you'd like, I can find the of their clinical trials or look for similar research projects like Pulsemedica or VDM Research.

: Initial results showed successful floater degradation with minimal mechanical stress in lab settings.

These lasers use much shorter pulse widths (quadrillionths of a second) than traditional nanosecond YAG lasers, resulting in less mechanical stress and heat damage to surrounding tissue. OCT Guidance: The project integrates Optical Coherence Tomography (OCT) xfloater project

: High precision allows the laser to treat floaters located closer to the retina, which is currently too dangerous for standard YAG lasers . Project Timeline and Collaboration

: The project aims to integrate high-resolution OCT to automate the localization and tracking of floaters in 3D. This allows for precise targeting, especially for floaters located deeper in the eye, closer to the retina. If you'd like, I can find the of

: By using ultrashort laser pulses, the "safety distance" required between the floater and the retina can be reduced compared to traditional methods. Project Partners and Support

(placing availability potentially around 2030) before the technology receives CE certification and is ready for clinical application. Alternatives and Related Research : By using ultrashort laser pulses, the "safety

was born not just from a desire for better vision, but from the need for a safer scalpel—one made of light. The Visionary Goal