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This Nichamin‑Nomogram LRI marker is designed for precise axis and arc marking during limbal relaxing incision planning. The 0 to 180 degrees etched head supports meridian alignment, and the 40, 60, and 80 degrees arc markings correspond to Nichamin‑nomogram incision ranges for graded astigmatic correction. The titanium body maintains lightweight rigidity through repeated sterilization.
Features & Benefits
The Lu LASIK Corneal Marker is designed to demarcate the optical zone and visual axis during laser refractive surgery planning. Its eccentric concentric design�2.5mm inner diameter, 11.5mm outer diameter�creates a target ring that guides centration during corneal marking. The flat smooth handle ensures steady single‑point contact on the corneal surface, and the 108mm total length provides adequate working distance during setup.
The McDonald laser optical zone marker is double‑ended with 6.5mm and 7mm cross‑hair etched circles, used to mark the optical zone on the cornea before excimer or femtosecond refractive ablation. The cross‑hairs center the ablation pattern on the visual axis, and the double‑ended design covers two common optical zone diameters in a single instrument.
This Mendez corneal marker incorporates a smooth flat handle and a 4mm inner‑diameter reference ring for precise arcuate or axis marking. The 110mm length facilitates accurate centration on the visual axis.
This stainless steel Nuijts‑Solomon toric IOL axis marker has a 50mm optical zone and lateral blades designed for use with a beveled Mendez degree gauge. The design facilitates toric IOL axis transfer from pre‑operative reference marks.
O'Connor scleral depressor-marker serves dual functions during ophthalmic examination and surgery. The 3mm teardrop‑shaped depressor end provides broad scleral contact for gentle indentation and localization, while the 1.5mm Gass marker end enables precise marking of surgical landmarks. Serrated flat handle and polished finish support secure grip and clean intraoperative handling.
This Osher-Neumann corneal marker with 6-line radial pattern provides streamlined reference marking for astigmatism axis positioning. The precision etched markings support consistent surgical alignment throughout the procedure with minimal anterior surface complexity.
This Osher-Neumann corneal marker with 12-line radial pattern provides comprehensive reference lines for precise astigmatism axis alignment. The increased line count supports varied axis marking strategies while maintaining distinct, visible etch marks throughout the surgical procedure.
This Osher-Neumann corneal marker with 16-line radial pattern delivers maximum reference marking precision for astigmatism axis alignment. The comprehensive line array supports detailed surgical planning and consistent intraoperative axis positioning with distinct, visible etch marks.
This Pettigrove PRK scraper's double-ended design provides efficient epithelial removal from either end during photorefractive keratectomy. Stainless steel construction ensures reliable edge retention for consistent scraping performance across multiple cases.
This pre‑op toric in‑line reference marker uses bilateral marking patterns with blades at 0�, 90�, and 180� for toric reference placement. The symmetric layout assists with consistent pre‑operative axis documentation prior to cataract surgery.
This stainless steel pre‑op toric reference marker features a half‑circle head with points at 0�, 90�, and 180� and a 70� angled head for corneal approach. The geometry supports stable external marking for reference axis establishment.
The Pre-Op Toric Reference Marker consists of a titanium half-circle with three marking points for preoperative axis notation in toric IOL planning. The round handle supports comfortable grip during marking sessions, while the titanium construction ensures the marker retains its geometry across multiple cases. This reusable reference supports consistent axis documentation.
This single‑use Schocket scleral depressor pairs a 6mm wide rounded marking bar with a 2.5mm teardrop depressor tip for scleral indentation and surface marking during indirect ophthalmoscopy and peripheral retinal exams. The double‑ended format and pocket clip suit fast‑turnover clinic use, and the serrated handle gives a secure rolling grip. Disposable construction supports clean case‑to‑case workflow.
This certified Reposable Schocket scleral depressor pairs a 2.5mm teardrop tip with a rounded end and 6mm‑wide marker bar for both indentation during indirect ophthalmoscopy and surface marking. The serrated handle with pocket clip improves grip and tray return, and the build is validated through 30 sterilization cycles.
This low‑profile Thornton optical zone marker is scaled to 3mm with reduced ring height of 1.5mm for precise marking in dense cataracts and corneal topography procedures. The compact beveled tip and streamlined profile minimize obstruction of the surgical field. A knurled handle and dull finish support secure grip and reduced glare during extended refractive marking.
This low‑profile Thornton optical zone marker is configured with an 8mm diameter and 1.5mm ring height for larger refractive zones while maintaining minimal field obstruction. The streamlined design and beveled tip adapt easily to irregular corneal topography during complex keratoplasty and refractive cataract work. Dull finish and knurled handle ensure stable control.
The Thornton radial marker features eight precisely angled blades arranged in radial pattern on the lowest profile geometry available, permitting simultaneous marking of multiple meridians for toric IOL and LRI planning. The parallax‑free design eliminates perspective distortion during marking, ensuring accurate axis reference registration. Stainless steel construction maintains sharp marking edges across repeated procedures.
The Thornton radial marker features eight blades on a low‑profile titanium handle with a stainless steel head to mark radial keratotomy (RK) incision sites or corneal topography patterns. The titanium handle combines strength with corrosion resistance during repeated sterilization. Its eight‑blade geometry supports accurate incision planning in refractive surgery.
The Toric axis marker is a titanium‑constructed precision instrument featuring two side blades positioned around an 11.6mm outer diameter with a 4mm central reference point. The low‑profile design maintains excellent surgical visualization while creating reference markings for toric IOL axis alignment and LRI placement. At 95mm, the round handle permits controlled, pressure‑free marking during surgery.
The Toric Axis Marker uses two rotating titanium blades to measure corneal astigmatism from zero to 180 degrees in ten-degree increments, with labels every thirty degrees. The extra-thin head mounted at zero degrees and perforated every ninety degrees enables visualization beneath the marker during axis confirmation. The 40-degree angled shaft (115mm) facilitates access to steep corneal meridians during toric planning.
This titanium intra‑operative toric axis marker includes two 2mm blades with 180� cutouts and 10� markings mounted at a 90� orientation. The layout supports alignment of intra‑operative axis markings during toric IOL placement.
The toric IOL marker combines rotatable and fixed external rings with alignment teeth to enable precise intraoperative toric IOL axis alignment. The internal rotatable ring with 2 teeth and external ring with 2 teeth simplify marker orientation and IOL positioning. Its titanium construction and round handle support stable, controlled IOL alignment during implantation.
The Whitehouse gravity axis marker (11‑14mm) uses gravitational alignment to mark the vertical meridian for toric IOL axis alignment during cataract surgery. The stainless steel construction delivers reliable performance across repeated surgical use. Its simple gravity‑based design eliminates electronic drift and supports intuitive intraoperative alignment.
Titanium construction distinguishes the Whitman axis marker as a precision toric IOL alignment tool. An anterior astigmatic dial (marked in degrees) meets two radial posterior blades that correspond to the dial axis, ensuring surgeon and instrument alignment without mental conversion. Handle mounts in a 180-degree position, improving ergonomic access to the anterior chamber from varied surgical angles.