Product Overview

The 554036 LASEK Alcohol Well series represents a line of hyper-precision ophthalmic microsurgical wells characterized by their low-profile cylindrical design, micro-polished tissue-sealing margins, and a balanced stabilizing handle. Engineered to operate with absolute predictability during Laser-Assisted Sub-Epithelial Keratectomy (LASEK) and advanced corneal de-epithelialization procedures, this instrument is designed to hold the alcohol solution precisely over the target treatment zone. Forged from high-tensile surgical steel, the fine-edged basal rim establishes a fluid-tight mechanical seal against the cornea upon application of light manual counter-traction. This prevents any peripheral leakage of alcohol, fully protecting the surrounding limbal stem cells and conjunctiva from chemical exposure.

Key Features

• Fluid-Tight Basal Edge Architecture: Features a meticulously hand-finished, perfectly flat circular rim. This specialized micro-profile conforms flawlessly to the anterior corneal curvature, creating a secure chemical barrier that prevents localized alcohol migration or leakage.

• Low-Profile Containment Cylinder: The well wall is engineered with an optimized height-to-width ratio, providing a stable volumetric chamber for the solution while minimizing structural volume to ensure an unobstructed line of sight under the surgical microscope.

• Integrated Rigid Stabilizing Handle: Designed with a premium handle integrated directly into the well body. This tactile platform eliminates micro-tremors, prevents lateral tilting or shifting during the chemical exposure window, and translates delicate alignment feedback to the surgeon’s fingertips.

• Glance-Free Satin Finish: Hand-beveled with an anti-reflective satin coating that dampens the intense illumination of the surgical laser and microscope lights, eliminating visual glare and maximizing procedural clarity.

• Surgical-Grade Resilience: Manufactured from premium, hardened stainless steel. It is built to maintain its hyper-precise circular geometry, flat sealing borders, and structural rigidity through thousands of high-heat sterilization cycles.