At CustomLens AI, our mission is to achieve universal spectacle freedom post-cataract surgery. Despite advancements, over 20 million patients still require glasses post-surgery, with premium intraocular lens (IOL) utilization at only 15%. Our goal is to increase this adoption to over 50% within the next five years, advancing the pursuit of widespread spectacle independence. Surgeons face significant challenges in selecting the ideal IOL from myriad options and accurately calculating personalized corrections, impeding the widespread adoption of refractive cataract surgery. This often necessitates post-surgery glasses. Additionally, setting clear patient expectations regarding vision outcomes without glasses is crucial.
CustomLens AI seeks to streamline surgical planning and vision outcome predictions, encouraging more surgeons to embrace refractive cataract surgery. This approach aligns with the interests of patients, surgeons, and the industry, offering unparalleled value across the sector. Utilizing powerful and unique CustomLens and PANFOCAL algorithms,CustomLens Ai automates the process of achieving excellence vision outcomes by providing tailored surgical plans for individualized, spectacle-free vision and detailed multidimensional functional vision predictions. This innovative combination of traditional and AI methods leverages the only known functional vision outcomes dataset, continually refining predictions based on surgical outcomes, fostering a cycle of continuous improvement. The CustomLens AI-assisted platform is designed for user-friendliness, automation, and scalability.
It generates precise, personalized surgical prescriptions to achieve superior spectacle-free vision. A key feature of our platform is its adaptability, allowing for customized levels of automation to create bespoke surgical plans, referred to as “Surgical Prescriptions.” Each Surgical Prescription includes comprehensive details necessary for surgery: IOL model, spherical, toric, and presbyopic powers, optimal placement of the Toric IOL and incision meridian, and recommended anesthesia. It also highlights any unusual eye aspects relevant for the surgeon. Our innovation offers a 95% probability in predicting multidimensional functional vision outcomes. The PANFOCAL algorithm provides detailed visual acuity forecasts across various distances and lighting conditions, along with objective task assessments and patient perceptions.
This simplicity and efficiency lead to a scalable tool for personalized lens surgery, ensuring remarkable outcomes and generating substantial value for patients, surgeons, and the industry.