Conducting studies to prove the efficacy of the new technique. The LZH has even conducted surveys for patients to report their experiences, providing data on how floaters affect daily life. The Role of Patient Data (2025/2026)
The essentially marries the low motion of a spar with the logistical ease of a semi-submersible.
(like new pharmacology trials) Find information on patient eligibility for these studies
The is a medical research initiative focused on developing a safer, laser-based treatment for vitreous opacities, commonly known as eye floaters. Managed by the Laser Zentrum Hannover e.V. (LZH) and backed by the German Research Association for Fine Mechanics, Optics and Medical Technology (F.O.M.), this industrial collective research project aims to revolutionize ophthalmic care. By replacing outdated surgical methods and improving current laser technology, the project addresses a long-ignored medical condition affecting millions of people worldwide. The Medical Core: Understanding Eye Floaters xfloater project
: Conventional Nd:YAG lasers use high-energy pulses to break apart floaters. However, the high energy can trigger shockwaves, risking damage to surrounding eye structures. How the XFloater Project Works
: While often dismissed as benign, clinically significant floaters—a condition known as vision-degrading myodesopsia (VDM) —can severely impair daily activities like reading or driving.
The XFloater project is an innovative concept that involves designing and building floating cities that can accommodate thousands of people. These self-sustaining structures will be equipped with cutting-edge technology, renewable energy sources, and advanced infrastructure to support a high quality of life for its inhabitants. Conducting studies to prove the efficacy of the
On a much smaller, yet profoundly personal scale, another project called "XFloater" is addressing a different kind of "float." , known poetically as "mouches volantes" (flying flies), are a common age-related condition where microscopic collagen fibers clump together in the vitreous humor of the eye, casting shadows on the retina. While often harmless, these drifting spots, threads, and cobwebs can become a significant source of visual disturbance, reducing quality of life for millions of people worldwide.
The world has ~80% of its offshore wind potential in waters deeper than 60 meters. Without floating wind, nations like Japan, the US West Coast, Norway, and Portugal cannot scale renewable energy.
The primary goal is to improve upon existing YAG laser vitreolysis, which carries risks such as cataracts or glaucoma if used too close to the lens or retina. XFloater utilizes to significantly reduce the energy required for floater degradation, ideally allowing for treatment much closer to sensitive structures in the eye. Key Technical Innovations (like new pharmacology trials) Find information on patient
The is a highly innovative German research initiative aimed at radically optimizing laser vitreolysis to safely destroy vision-degrading eye floaters. Funded by the Forschungsvereinigung Feinmechanik, Optik und Medizintechnik e.V. (F.O.M.) and supported by the German industry association SPECTARIS , the project represents a massive collaborative push in ophthalmic laser technologies. It unites world-class medical institutions like the Hannover Medical School (MHH) and the Augenklinik am Neumarkt with specialized industrial partners, including Laser Zentrum Hannover e.V. (LZH) and its spin-offs, Rowiak GmbH and neoLase GmbH.
Clear vision – project for safer laser treatment of floaters started