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The Seibel intralase flap lifter and PRK/LASIK retreatment spatula is engineered from titanium for durable, corrosion-resistant performance during femtosecond-assisted refractive procedures. The spatulated geometry permits atraumatic flap separation and lifting without epithelial disruption, while the rigid titanium structure maintains precision during repeat interventions.
Features & Benefits
Built on a titanium frame for lightweight balance, this Seibel nucleus chopper combines a primary chopping end with a safety quick-chop tip for divide-and-conquer or stop-and-chop techniques. The right-hand-dominant design positions cutting geometry for use in the surgeon's left hand. Titanium construction offers rigidity with corrosion resistance across many cataract cases.
The Seibel safety quick nucleus chopper features titanium construction and left‑hand dominant double‑ended geometry for bilateral phaco access. The quick‑strike mechanism and dual tips enable efficient nuclear subdivision across variable densities. Titanium mount combines rigidity with corrosion resistance for lasting clinical reliability.
This Seibel nucleus chopper is titanium with a 15mm bend‑to‑tip, 0.5mm olive tip, and curved inner cutting edge for controlled nucleus manipulation. The left‑hand dominant design supports right‑hand use in the capsular bag.
Engineered for left-hand-dominant surgeons working right-handed, this Seibel nucleus chopper features a 0.5mm olive-shaped tip and curved interior cutting edge designed to initiate clean fissure lines in the nucleus. The 15mm angled bend-to-tip and round knurled handle deliver controlled approach angles and superior ergonomic feedback. 119mm overall length suits contemporary anterior segment phaco geometry.
This Seibel nucleus chopper is titanium with a 15mm bend‑to‑tip, 0.5mm olive‑shaped tip, and curved inner cutting edge for controlled nucleus manipulation. The right‑hand dominant design supports left‑hand use during in‑bag chopping maneuvers.
This straight-shaft Seibel nucleus chopper is optimized for right-hand-dominant surgeons working left-handed, with a 0.5mm olive-shaped tip and interior cutting wedge. The straight geometry simplifies intraoperative handling during the critical nucleus division phase. Stainless steel construction and ambidextrous utility reduce inventory complexity in high-volume surgical settings.
Engineered for left-hand-dominant surgeons requiring right-hand use, this straight-shaft Seibel nucleus chopper maintains the signature 0.5mm olive tip and interior cutting wedge for controlled nucleus fissuring. The straight geometry and fine tip minimize posterior capsule contact risk during dense nucleus management. Stainless steel reusable construction supports efficient sterilization workflows in busy cataract centers.
The Seibel‑style ambidextrous chopper excels at efficient, safe nuclear fragmentation during phacoemulsification. Its curved interior cutting edge slices through lens nucleus with minimal ultrasonic energy, while the 0.5mm olive tip and oval shaft geometry provide precise contact and reduce posterior capsule stress. Straight design supports both right‑ and left‑handed surgeon preference, with 117mm overall length optimizing ergonomic reach.
Seibel style LASIK flap lifter is designed for safe corneal flap elevation and repositioning during LASIK and other refractive procedures. The integrated retreatment spatula provides dual functionality for flap lifting and subsequent retreatment access. Stainless steel construction supports reliable performance across many LASIK cases.
This right‑hand version of the double‑ended Seibel‑style chopper is built for left‑dominant cataract surgeons who chop with the right hand. The Seibel end carries a curved interior cutting edge with a 0.5mm olive tip set 15mm from the bend for traditional horizontal chopping, and the safety quick chopper opposite pairs a 0.5mm olive blade with a 1mm bend angled 10mm to tip for protected vertical chopping. The 140mm stainless body stands up to repeat reprocessing between cases.
The Seibel vertical safety quick chopper combines vertical chopping technique with an integrated safety mechanism that reduces the risk of posterior capsule rupture during nucleus fragmentation. Left‑hand dominant configuration allows the surgeon to chop from the optimal angle while the phaco handpiece manages nucleus removal. This design is particularly valuable in brunescent or hard cataracts.
This Seibel vertical safety quick chopper is titanium, double‑ended, right‑hand dominant with an angled Connor wand tip. The geometry supports controlled vertical chop vectors with reduced penetrative risk.
The Seibel Vertical Safety Quick Chopper employs a titanium vertical cutting geometry designed for controlled nuclear fragmentation with a vertical safety edge that protects posterior capsule integrity during chopping strokes. Left‑hand dominant design allows right‑hand use for surgeons who prefer cross‑handed technique, accommodating varied surgical preferences in modern phacoemulsification.
This compact serrefine clamps vessels, sutures, or tissue tags during ophthalmic and microsurgical procedures. The 10mm serrated jaws maintain steady purchase through spring tension alone, freeing the surgeon's hands. A 35mm overall length keeps the clamp out of the operative field while it holds.
This serrefine clamps small vessels, drapes, and tissue tags with a compact spring‑action grip. The 10mm serrated jaws hold securely without crushing, and the polished finish reduces tissue drag and reflectance. At 35mm overall, the clamp stays low in the field for ophthalmic and microsurgical use.
This set of six double‑ended Bowman lacrimal probes is constructed from stainless steel and provides graded diameters for sequential dilation of the lacrimal drainage system. The probe geometry supports controlled axial guidance during canalicular probing.
This seven‑step diamond knife offers surgeons calibrated depth presets at 0.30, 0.40, 0.50, 0.60, 0.80, and 1.0mm�plus a deep-cut 2.50mm step for selected procedures. The 3mm‑wide blade over 6mm length suits both anterior segment refractive work and precision entry incisions in corneal procedures. Black Titanium handle design provides durable fingerrest positioning across the full clinical range from limbal grooves to cataract access.
This seven‑step diamond knife features a straight 45‑degree single‑edge blade with calibrated depths of 0.2, 0.3, 0.4, 0.5, 0.6, 0.8, and 4mm. The 1mm × 0.17mm × 6mm blade profile supports ultra‑precise incisions, and the set includes a sterilization tray for secure handling.
This seven‑step preset diamond knife offers fixed depth control for reproducible incision depth with a single 45‑degree edge. Preset steps at 0.30, 0.40, 0.50, 0.60, 0.80, 1.0, and 2.50mm allow surgeons to select depth before insertion. Right‑hand design and small single footplate provide stable control during varied refractive and cataract procedures.
This trifacet diamond knife combines seven preset depth options with a three‑faceted blade geometry for optimized wound profiles across cataract and refractive procedures. Preset steps at 0.30, 0.40, 0.50, 0.60, 0.80, 1.0, and 2.50mm accommodate varied incision requirements. The 1 × 0.17 × 3mm trifacet blade ensures reproducible cutting with minimal trauma.
The Severin lacrimal cannula is a 25-gauge curved instrument designed for canalicular exploration and lacrimal duct probing during dacryocystorhinostomy and conjunctivorhinostomy. Its curved shaft follows the natural medial canthal anatomy and lacrimal canaliculus contour. The 25-gauge fine gauge minimizes tissue trauma during duct manipulation.
The Severin lacrimal cannula is a 26-gauge curved instrument designed for delicate canalicular work during lacrimal reconstruction and probing. Its curved geometry follows the natural anatomy of the lacrimal canaliculus and medial canthal region. The fine 26-gauge allows safe navigation through narrow ducts while maintaining visibility and tactile feedback.
This Shahinian lacrimal cannula uses a 23ga straight shaft with a blunt tapered tip and a side port for controlled irrigation. The polished finish supports low‑resistance passage within the canaliculus.
The Shahinian lacrimal cannula features a 23-gauge blunt-tapered tip with a side port, designed for controlled sub-lacrimal irrigation during dacryocystitis evaluation or nasolacrimal-duct probing. Its side port reduces concentrated irrigation pressure while the straight shaft provides stable anatomic access. The compact 28mm length supports precision work in the confined lacrimal sac environment.
This Shammas irrigating polisher/curette features a compact 25mm length and an irrigating lumen to support simultaneous polishing and fluid delivery during capsule surface refinement.
This Shapiro capsule polisher uses a 23ga curved shaft with two 0.3mm side ports and a carbide‑impregnated tip to support controlled polishing of the anterior or posterior capsule. The dual‑port geometry distributes fluid evenly during polishing maneuvers.
The Sharvelle nucleus splitter is purpose‑designed for bimanual nucleus segmentation during phacoemulsification, with its 45‑degree angled tip and Y‑shaped geometry optimizing the angle of approach to the nucleus. The ambidextrous 8mm bend‑to‑tip profile provides control during the critical moment when the nucleus is divided into quadrants in the anterior chamber. Stainless‑steel construction delivers reliable performance across repeated cases.
The Sheets irrigating vectus combines a 21-gauge thin-wall shaft with a 6 × 9mm loop and three strategically positioned irrigating ports (at 12, 9, and 3 o'clock positions) for comprehensive fluid management during anterior segment surgery and corneal work. Serrations on the vectus top prevent tissue slippage while irrigation flows, and the compact 32mm shaft-to-hub length supports excellent control during corneal and limbal procedures. This geometry is optimized for MICS and small-incision cataract work.
This Sheets irrigating vectus features a 20ga loop with three front‑opening ports and serrations for controlled irrigation and vectus‑style nucleus manipulation.