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This DALK-type corneal dissecting spatula is engineered for deep anterior lamellar keratoplasty with its angled 12mm blade and blunt beveled tip. The blunt geometry prevents unintended penetration of the descemet's membrane while the 114mm overall length supports sustained control during stromal dissection. Stainless steel construction delivers reliable performance across repeat anterior lamellar procedures.
Features & Benefits
This Donnenfeld femto spatula features a 1mm long spear‑shaped flattened tip designed for precise lamellar dissection and flap manipulation. The round stainless handle provides stable tactile guidance during femtosecond‑assisted corneal procedures.
The Eippert femtosecond spatula is a double-ended instrument for flap manipulation and IOL positioning after femtosecond laser keratotomy. The 2mm angled end provides leverage for stromal flap elevation, while the 1mm straight end enables precise IOL alignment and central island management. The round handle supports control during delicate flap reorientation.
The Elschnig cyclodialysis spatula carries an 11 × 1.2mm angled tip with a gentle curve, sized to enter the supraciliary space and separate the ciliary body from the scleral spur. A serrated flat handle gives the surgeon a steady pinch grip across the 133mm length, and the polished finish reduces drag along tissue planes.
This angled Elschnig cyclodialysis spatula separates the ciliary body from the sclera during glaucoma procedures, breaking the ciliary-scleral attachment to reduce aqueous production. Its 1mm flat tip and angled shaft provide tactile control in the confined supraciliary space. The flat handle ensures stable positioning during deliberate separation.
This double‑ended femto spatula features two specialized profiles: an angled 2mm keratome‑shaped beveled tip with an 8mm bend‑to‑tip distance, and a vaulted 1mm Slade‑style spatula with a 10mm bend‑to‑tip distance. The round stainless‑steel handle provides stable, ergonomic guidance during femtosecond flap elevation and lamellar dissection.
The femtosecond spatula is purpose‑built for use alongside femtosecond laser platforms during LASIK flap creation, corneal inlay placement, and refractive procedures requiring precise stromal dissection. At 117mm, it reaches deeply into the laser‑created stromal pocket while its straight, flat profile allows atraumatic separation of lamellar planes. Stainless‑steel construction withstands the unique demands of refractive laser workflows.
The Fogla Trifacet DALK spatula is designed to dissect the corneal stroma during deep anterior lamellar keratoplasty. The blunt tip minimizes the risk of Descemet's membrane perforation during sensitive stromal separation. A straight 122mm shaft provides steady control in the corneal plane.
The Folden Femto dissector combines a 0.7mm pointed spatula on one end and a 1.2mm blunt spatula on the other, each angled 40 degrees for optimal stromal access during femtosecond laser‑assisted cataract surgery. Beveled edges on both tips minimize tissue drag during dissection and separation of FLACS planes. At 115mm with a round knurled handle, it provides controlled, atraumatic dissection throughout the case.
The Fukusaku LASIK spatula is engineered for precise corneal-flap manipulation during LASIK laser-in-situ keratomileusis procedures. The 0.5mm flat blade delivers minimal tissue trauma during flap creation, lifting, and repositioning. Round longitudinally grooved handle and 120mm length support secure two-hand flap control during refractive-surgery cases.
This Fukusaku LASIK spatula is engineered for controlled lamellar dissection during refractive surgery. The 1mm blade width delivers fine stromal separation with excellent surgical visibility, while the 10mm distal bend (bend-to-tip distance) allows ergonomic manipulation through standard LASIK access. The serrated handle provides secure tactile control during flap elevation.
The Gimbel nucleus spatula is angled 30 degrees with a 0.25mm round‑diameter tip and a 9mm bend‑to‑tip geometry, designed for nucleus rotation and manipulation during phacoemulsification. The fine round tip protects the capsular bag and posterior capsule while the angled shaft preserves the surgeon's working corridor, and the longitudinal grooved handle gives steady fingertip control.
The Girard synechiae spatula offers a fine 0.5mm working end designed to slip beneath posterior synechiae and lyse iris adhesions cleanly. The 10mm tip‑to‑bend geometry supports controlled sweeps along the iris plane within the anterior chamber. A knurled round handle provides the rotational feedback needed for safe adhesion lysis.
The Grove‑Fellman sclerostomy bleb revision spatula is engineered for delicate manipulation during glaucoma filtering bleb maintenance and internal ostium exploration. Titanium construction preserves fine edge geometry during repeated scleral contact, and the spatula profile allows atraumatic tissue elevation and bleb cavity evaluation. This specialized tool supports both immediate postoperative bleb assessments and later revision cases.
The Hirschman iris lens spatula manipulates the iris and IOL through the cataract wound with a 10mm angled blade carrying tip‑side notches that engage haptic edges or iris tissue without sliding off. The round knurled handle resists rotation during the dial‑in, and the polished 125mm shaft maintains a smooth glide through the chamber.
This iris spatula is engineered for fine manipulation of iris tissue during anterior segment procedures. The 1mm wide malleable blade allows gentle iris depression and positioning during capsulotomy and IOL implantation. A serrated flat handle ensures secure grip control in wet field conditions.
The iris spatula with 2mm × 33mm sterling silver blade provides precise iris manipulation during anterior segment procedures. The round handle supports stable control while the wide blade geometry enables reliable iris mobilization and positioning.
This Jaffe lens spatula carries a 0.5mm flat tip on an angled shaft for nucleus manipulation and chopping support during phacoemulsification. The flat handle keeps the spatula oriented in two planes for predictable instrument feedback, while the angled shaft preserves the surgeon's view of the capsulorhexis margin.
This John Dexatome DMEK/DSAEK spatula features a strongly vaulted shaft with a 17mm bend‑to‑tip distance for controlled approach to the corneal plane. The curvature supports marking the cornea at 10mm during endothelial graft preparation and positioning.
Built for bimanual phacoemulsification, the Johnson spatula presents a 0.25 × 10mm straight working tip that supports the second hand during nuclear chopping and cortical manipulation. The slim profile passes through a sub‑1mm side‑port incision and stabilizes lens fragments while the phaco needle delivers ultrasound. A round knurled handle keeps rotational control consistent across the 117mm length.
The Kansas nucleotome bisection spatula is designed for rapid, controlled nuclear bisection during phacoemulsification. Its semi‑sharp blade cleaves the nucleus along structural planes while minimizing endothelial cell trauma, and the left‑handed configuration supports left‑handed surgeon preference. Round knurled handle and 114mm overall length provide comfortable, stable control during nucleus fragmentation.
The Kansas nucleus support spatula is engineered to stabilize the lens nucleus during phacoemulsification. The 3mm wide spatula provides adequate bearing surface for nuclear support while maintaining visibility. This right-hand configured tool delivers optimal control during nucleus sculpting and removal.
Kimura platinum spatulas use a 4 × 17.5mm flat platinum tip for collecting corneal and conjunctival scrapings during microbial or cytologic sampling. The platinum surface stays inert against culture media and flame‑sterilizes between specimens. A 34mm shaft and serrated flat handle keep the working tip steady during gentle scraping passes.
The Kimura platinum spatula delivers superior tissue-separation and lens manipulation with its 4 × 17.5mm platinum working blade mounted on a stainless steel shaft. The 34mm length and smooth flat handle provide excellent control during DSAEK, DMEK, and anterior capsular work. Platinum composition resists adhesion and offers superior visibility, while the polished finish minimizes glare.
This Knolle lens nucleus spatula is designed for anterior chamber nucleus management during phacoemulsification. Its flat-curved 1mm blade geometry accommodates depths within the anterior chamber, while the etched 7mm, 6mm, and 5mm marks guide blade positioning relative to the nucleus equator. The polished finish minimizes material adherence, supporting clean cortical-nucleus separation.
This Knolle lens nucleus spatula features a straight, malleable 0.5mm wide blade for gentle nucleus support and manipulation. The knurled handle improves tactile feedback during lens mobilization.
A slightly curved duckbill tip defines this Koch lens nucleus spatula, supporting sculpting and gentle nucleus manipulation in cataract surgery. The single-ended notch-free profile glides under the nucleus without catching capsular tissue, suiting divide-and-conquer or chop techniques.
The Koch lens nucleus spatula combines a single-ended design with a slightly curved geometry and duckbill tip for controlled nuclear manipulation during phacoemulsification. The gentle curve enhances visibility during nucleus positioning and rotation. Stainless steel construction provides lasting durability across many cataract cases.
The Koch nucleus spatula tapers to a duckbill‑shaped 1mm tip with notches that engage the nuclear surface during rotation and manipulation. A gentle curve aligns the working end with the capsular bag during phacoemulsification. The round knurled handle supplies the fine rotational feedback needed for controlled chop and split maneuvers.
Designed to enter a side‑port stab incision during phacoemulsification, the Koch spatula carries a broad duckbill tip that supports nucleus rotation and second‑instrument manipulation. The round knurled handle gives reliable rotational feedback, and the 117mm overall length keeps the working tip in clear microscope view.