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Cataract Surgery

Multifunctional Ophthalmic Surgical Device for Capsulorhexis and Other Microsurgeries

Our innovative ophthalmic surgical device is designed to enhance the precision and efficiency of capsulorhexis and various microsurgical procedures. This device is available in three configurations: mechanical, electromotor, and laser, each tailored to meet the diverse needs of ophthalmology practitioners.


1. Mechanical Capsulorhexis Device
The mechanical capsulorhexis device is portable, precise, and optimized for fast performance. It offers accurate and consistent cutting for all ophthalmology groups. This multipurpose surgical device introduces a new technique for:

  • Capsulorhexis during cataract surgery

  • Cutting eye tissue in various microsurgeries

Key Features:

  • Material Options: The device can be constructed from metal, polymer, or other materials, allowing for complete or partial disposability.

  • Precision Cutting: It is designed for cutting tissue that requires meticulous surface modifications and precise application methods.

  • Versatility: Capable of cutting tissue with any diameter and adaptable for use in corneal endothelial keratoplasty (DMEK) and trabeculectomy for glaucoma patients.

  • Enhanced Performance: The device increases the speed and accuracy of surgeries while minimizing the risk of complications associated with eye microsurgery.


2. Electromotor Capsulorhexis Device
The electromotor capsulorhexis device combines rechargeable and portable capabilities with an accurate cutting style for rapid performance. It ensures precise circular and regular cutting for all ophthalmology groups. This controllable electromechanical motor device introduces a new technique for:

  • Micro-cutting of sensitive eye tissue

  • Capsulorhexis during cataract and other microsurgeries

Key Features:

  • Material Versatility: Like its mechanical counterpart, it can be made of metal, polymer, or other materials and can be fully or partially disposable.

  • Controlled Accuracy: It provides controllable accuracy and speed, enabling surgeons to adapt to varying surgical requirements.

  • Multi-Diameter Cutting: Suitable for cutting tissue of any diameter, including applications in corneal endothelial keratoplasty (penetrating keratoplasty, DMEK) and trabeculectomy.

  • Surgical Efficiency: Increases surgical speed and accuracy, significantly reducing the risk of complications in microsurgical procedures.


3. Laser Capsulorhexis Device
Our laser capsulorhexis device is designed to utilize advanced laser technology for precise and efficient capsulorhexis. This innovative approach enhances the surgeon’s ability to perform intricate procedures with minimal trauma to surrounding tissues.

Key Features:

  • Precision Laser Cutting: Utilizes focused laser energy to create clean and accurate cuts, optimizing surgical outcomes.

  • Versatility: Suitable for various ophthalmic applications, including cataract surgery and other microsurgical interventions.

  • Reduced Recovery Time: The laser’s precision minimizes collateral damage, potentially leading to faster recovery times for patients.


Conclusion

Our multifunctional ophthalmic surgical devices represent a significant advancement in cataract surgery and microsurgery. By combining innovative design with cutting-edge technology, we aim to improve surgical outcomes, enhance patient safety, and empower ophthalmologists to deliver the highest quality care.