Optimo Medical AG is a 100% privatly held med-tech company in eye care. We are dedicated to design and develop, produce and distribute software applications for planning, simulation, visualization, and training of therapy.
Each day, more than 50’000 eyes are operated on around the globe and not two of them have the exact same characteristics. Each eye has an individual and unique shape and biomechanical behavior. At the same time, only fractions of a millimeter can determine if the surgery is a success, or irreparable harm is caused. Due to the very complex nature of the human cornea, restored vision for patient on one side, and medical and financial damage on the other, as an outcome, lie very close together.
Hence, one of the major challenges for the eye surgeon: Guessing how an individual eye might react to the necessary cuts into the cornea.
Optimeyes 1.0 replaces guessing by knowing. Our software simulates effects of physical interference planned for the individual eye, with a precision that outperforms conventional, non-personalized methods by far.
This has now been solved in the Optimeyes™ software. Optimizing the incision parameters to the individual cornea by accounting for age, preoperative astigmatism, central-, and paracentral curvature, full pachymetry, and corneal biomechanical characteristics is now possible. The OptimeyesTM arcuate keratotomy planning and optimization module features two different operation modes: Prediction and Optimization. Prediction calculates the post-surgery cornea, based on given AK parameters. Optimization calculates the optimal surgery parameters for the individual patient.
The Optimeyes team of Optimo Medical AG has many years of experience in corneal biomechanics, numerical simulation (FEM), and corneal topography. We are capable of providing senior level consulting services for surgeons, R&D engineers, and product managers.
For more information: www.optimo-medical.com / www.optimeyes.ch
Company’s Keywords:
biomechanische simulationen, entwicklung von medizinischer software, nummerischen simulationen
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