Retinal Imaging Systems
Advanced retinal imaging systems take high-fidelity photos of the retina using light waves, digital sensors and sophisticated processing. Fundus cameras capture wide-field images while scanning laser ophthalmoscopes get closer views of cellular structures. Both aid in early disease detection, monitoring and computer-assisted diagnosis.
Newer adaptive optics technology corrects for imperfections in the eye's optics. It improves resolution over 20 times compared to standard imaging. Doctors can visualize tiny pathogenic changes that signal underlying conditions. These detailed views also help evaluate new treatments and improve understanding of disease mechanisms.
Refractive Surgery Lasers
Laser refractive surgery revolutionized vision correction starting in the 1990s. Now newer generation lasers continue advancing the field. Femtosecond lasers create ultra-precise incisions for LASIK procedures with minimal biological impact. This improves safety and predictability. New personalization also uses wavefront data to custom-shape corrections.
Other technologies employ "all-laser" or "bladeless" methods. For example, small-incision lenticule extraction (SMILE) relies solely on an infrared laser to sculpt the cornea. Such procedures are quicker, touch-free and reduce postoperative pain. Companies continue innovating new laser platforms for refractive treatments with improved outcomes.
Cataract Surgery Systems
Ophthalmology Diagnostics And Surgical Devices Manual cataract surgery is being replaced by computer-guided techniques, significantly boosting success rates and functional vision recovery. Advanced phacoemulsification devices pulverize the clouded lens using ultrasound energy, controlled intraoperatively via a digital interface.
Newer systems incorporate optical coherence tomography and other technologies. Intraoperative OCT enables real-time visualization of cutting planes and residual tissue. Some combine microscope views with OCT for immersive "three-dimensional" guidance. Pre-programmed software also enhances control and standardization. The long term aim is making cataract removal completely "no touch" using robotics.
Lens Implants
Implanted multifocal and extended depth of focus lenses are bringing freedom from glasses after cataract procedures. By sorting light to different retinal regions, these restore functional near, intermediate and far vision simultaneously.
Newer premium lenses go further, offering more advanced light distribution algorithms for a wider range of activities without compromises. Tinted options also help filter blue light exposure. Researchers work to develop "accommodating" implants that dynamically refocus like youthful lenses, restoring lost flexibility over time.
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