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The Koch phacoemulsification spatula enters cleanly through a side‑port stab incision with its distinctive duckbill geometry and broad, rounded tip. This design supports nucleus manipulation and fragment positioning without corneal pressure, essential in densely‑sclerotic cataract cases. The curved shaft and knurled handle enhance tactile feedback during delicate maneuvers.
Features & Benefits
The Koch spatula/Nagahara chopper is a double-ended instrument combining two distinct nucleus-fragmenting profiles for phacoemulsification. The Koch spatula end features a 0.8mm duckbill-shaped tip for gentle subcapsular dissection, while the Nagahara chopper end provides 1mm cutting edge at 60 degrees for controlled nuclear division. The 126mm shaft and round knurled handle support sustained grip during extended cases.
This double‑ended Lane femtosecond spatula includes a 3mm duck‑bill tip on a 10mm semi‑vaulted bend and an 8.5mm wide spatula with a flat inferior edge on a 0.4mm bend for femtosecond‑laser interface manipulation. The geometry supports controlled interface lifting, debris mobilization, and flap edge assessment during laser‑assisted corneal procedures.
This double‑ended Lindstrom PRK/LASIK spatula features a golf‑club end for PRK and a standard spatula for LASIK. The dual design supports epithelial removal and flap interface assessment.
This double‑ended Machat retreatment spatula includes a cylindrical, slightly pointed spatula with an 8mm bend and a 0.8mm wide spatula with a 1.2mm bend. The paired geometries support layered interface work during retreatment procedures.
The Machat/Sinskey double‑ended LASIK spatula pairs a delicate 0.4mm vaulted Intralase spatula on one end with a 45‑degree angled Sinskey tip on the other, both serving as essential tools for femtosecond LASIK flap creation and pocket dissection. The 0.4mm tip design minimizes stromal trauma during ultra‑fine dissection, while the 45‑degree bend on the Sinskey end aids in precise flap positioning. At 117mm with a round knurled handle, the instrument delivers control throughout refractive surgery.
This Maddox LASIK spatula is double‑ended, featuring a flat angled spatula on one side and an angled round spatula on the other. The contrasting tip geometries allow surgeons to transition between broad and fine LASIK flap manipulation without instrument exchange.
The Maloney double‑ended nucleus rotator pairs a flat spatula with a fork for versatile nucleus positioning and rotation during divide‑and‑conquer phacoemulsification. The spatula slides beneath the nucleus for support while the fork engages segments during crack initiation and rotation. Stainless steel construction ensures reliable durability across repeated reprocessing cycles.
This double‑ended Maloney nucleus rotator provides two working ends�one rounded, one pointed�for flexible nucleus positioning during phacoemulsification. The 0.5mm spatula tips allow precise, atraumatic contact with the nuclear surface, and the 12mm bend positions each end at the ideal working angle. At 135mm overall, the instrument balances reach with compact maneuverability.
This angled Maloney PRK spatula has a 5mm × 2mm semi‑sharp spatulated tip for epithelial manipulation. The profile supports controlled lamellar lifting during PRK surface preparation.
This double-ended Masket phaco spatula and Rosen phaco splitter includes a 12mm round disk-shaped spatula on one end and a splitting profile on the other. The longitudinal-grooved handle enhances controlled positioning during nucleus manipulation.
This double‑ended instrument combines a Masket 12mm round disk phaco spatula with a Rosen phaco splitter, giving the surgeon two complementary nuclear management tools on one shaft. The disk‑shaped spatula supports nuclear rotation and quadrant manipulation, while the splitter chops the nucleus along stress lines. A longitudinal grooved handle preserves rotational orientation.
The Maumenee-Barraquer vitreous sweep spatula's left-hand angled 10mm configuration supports posterior segment work during vitrectomy and complex cases. The smooth blade design enables atraumatic vitreous mobilization with minimal retinal surface trauma.
This right‑sided Maumenee‑Barraquer vitreous sweep spatula is engineered with a 10mm angled tip and right‑side indentation for controlled cortical cleanup and vitreous face elevation during cataract extraction. The gently curved blade and round knurled handle support steady, atraumatic sweeping motions. Polished stainless‑steel finish facilitates smooth dissection in the posterior capsule and vitreous interface.
This Moran LASIK enhancement spatula integrates a Fukasaku spatula on one end and a miniature Paton spatula on the other. A 12mm bend‑to‑tip angle supports enhanced reach, while the round knurled stainless‑steel handle provides firm tactile control during flap repositioning and epithelial lifting.
A reverse-curved spatula tip distinguishes the Neuhann nucleus divider, allowing the surgeon to slip beneath the nucleus and lift or divide segments without engaging posterior structures. The single-ended longitudinal handle gives a consistent reference for tip orientation through small incisions.
Synechiae separation requires atraumatic dissection, and the Obstbaum spatula is engineered for this critical task. Its 10mm tip?to?bend and flat smooth handle enable precise, controlled dissection along the angle recess and corneal surface. This reusable instrument supports careful synechiae lysis during complicated anterior segment cases.
The Olk retinal spatula is engineered for delicate retinal surface manipulation, gliosis tissue dissection, and membrane peeling during vitreoretinal surgery. Its 130‑degree angled geometry and 0.5mm triangular tip provide fine, controlled contact with retinal tissue, while the 4mm flat surface distributes pressure across wider tissue planes to minimize indentation artifact. Dull finish and knurled handle support extended surgical technique without fatigue.
Angled 150 degrees with a 0.5mm triangular tip and 4mm flat working surface, this Olk retinal spatula is shaped for posterior segment maneuvering during vitreoretinal work. The dull finish reduces glare under microscope illumination, and the round knurled handle gives stable rotational control. Overall length of 127mm supports steady reach across the globe.
Paton spatulas address two distinct intraoperative needs through a double‑ended design. One end offers a 6 × 15mm thin blade with three grooves for corneal graft transfer, while the opposite end provides a narrower 2 × 31mm blade with a 7mm angled tip for finer manipulation. The serrated flat handle keeps the instrument oriented during transitions between ends.
The Rosenwasser corneal trisector spatula is a specialized instrument for DALK-type anterior lamellar keratoplasty with its distinctive blunt crescent flat-beveled tip and 0.9mm micro-dimension. The angled shaft enhances visibility of the stromal dissection plane while the blunt geometry safeguards the descemet's membrane. The 114mm overall length supports precise control during three-plane stromal separation.
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.
The Sinskey nucleus spatula features a narrow 31mm straight blade and round knurled handle, providing precise control during nucleus rotation, sculpting, and mobilization within the capsular bag. The polished finish reduces drag on anterior capsule and cortex, supporting clean manipulation of the cataractous lens. This 124mm instrument is indispensable for phacoemulsification nucleus management.
The Slade femtosecond spatula is designed to open main sideport incisions created by femtosecond laser-assisted cataract surgery (FLACS). Its vaulted shaft and flattened tip provide precise, atraumatic spreading without corneal endothelium trauma during flap or sideport enlargement. The specialized geometry supports controlled access from initial laser-defined corneal architecture.
This Slade retreatment spatula uses semi‑sharp edges and a flat handle to support flap lifting and epithelial separation during retreatment procedures. The spatula geometry provides controlled interface access for mechanical elevation without excessive tissue distortion.
The Slade flap spatula's angled vaulted design with 13mm round tip supports gentle LASIK or PRK flap manipulation and repositioning. The round tip geometry minimizes epithelial trauma while the vaulted design protects underlying stroma during corneal procedures.
Purpose‑built for LASEK flap handling, the Sloane epithelial flap repositor carries a gently curved spatula tip with beveled smooth edges to lift and reseat the loosened epithelium without tearing. The curvature follows the corneal contour, allowing the surgeon to slide under the flap edge and reposition it cleanly after ablation.
This double-ended femtosecond spatula combines two distinct working profiles in one instrument for FLACS workflows. One end presents a 0.8mm angled tip for unfolding floppy IOL haptics and decentered optics; the other offers a 0.8mm straight blade for stromal manipulation and epithelial work. Grooved round handle ensures secure grip during precise anterior segment maneuvers.
The Nagahara nucleus spatula is engineered for safe lens-nucleus mobilization during phacoemulsification and manual small-incision cataract surgery. The angled geometry with 11mm bend-to-tip creates optimal mechanical advantage for nuclear rotation and wedging. Flat-edge design prevents capsule trauma, while stainless steel construction enables lasting performance.
The Thornton phacoemulsification spatula is uniquely designed as a short-handled instrument for side-port stab incision work during microincision cataract surgery, featuring a malleable 0.5mm sterling-silver tip that adapts to individual surgeon preference and wound geometry. The serrated round handle provides secure grip control through tight lateral ports, while the 86mm length is optimized for MICS approaches. Its flexibility supports both nucleus sculpting and cortical cleanup in confined spaces.