Your cart is empty!
This O'Gawa curved tying forceps variant features 5.5mm tying platforms with 0.3mm gap at platform heel, providing alternative curved configuration for ergonomic IOL and corneal knot placement. The curved shafts suit natural surgical positioning angles while the gap design minimizes suture trauma. Each variant supports efficient tying across routine cases.
Features & Benefits
The O'Gawa straight tying forceps features 5.5mm tying platform with 0.3mm gap at platform heel suited to efficient IOL and corneal knot placement with clear visualization. The straight shafts enable unobstructed view of knot formation, and the refined gap design minimizes suture trauma. The O'Gawa geometry enhances consistent tying across varied suture materials.
This O'Gawa‑Utrata capsulorhexis forceps features angled shafts optimized for clear corneal access during anterior capsular manipulation and continuous capsulorhexis. Titanium construction combines exceptional rigidity with superior corrosion resistance for lasting durability across many surgical cases. The round handle supports natural rotation and tactile feedback during the procedure.
The O'Gawa‑Utrata capsulorhexis forceps is engineered for controlled, circular continuous capsulorhexis during phacoemulsification. Its fine angled tips, 11.5mm angled shafts, and iris stop feature provide safe, repeatable anterior capsule grasping without perforating the membrane. The round handle and dull finish support secure handheld control, while the 100mm overall length facilitates optimal ergonomic positioning.
The fine O'Gawa‑Utrata capsulorhexis forceps provides secure grasping and controlled capsular incisions throughout continuous capsulorhexis. Angled shaft geometry improves approach angle and visualization during clear corneal capsulotomy. The round handle supports natural rotation and tactile feedback during the procedure.
The Ohji‑Tano trocar forceps integrate tungsten carbide serrated tips with a 25‑gauge angled shaft for precise vitreoretinal access and membrane grasping. The 15 degrees angle improves approach geometry during posterior segment membrane work, and the 6mm serrated TC‑coated tips provide reliable tissue grip without slipping. At 83mm with flat handle, the instrument balances control and reach.
These original Giannetti‑Dacamara MICS capsulorhexis forceps maintain titanium vaulted shanks and vertical vaulted delicate tips with a 2mm jaw opening. The round handle with vertical grooves improves directional stability through a 1.5mm incision.
The original Kraff Utrata capsulorhexis forceps is a straight‑shaft design engineered for controlled anterior capsule opening in phacoemulsification. At 102mm overall length, the geometry provides balanced reach and maneuverability within the anterior chamber. Stainless‑steel construction is built for reliable performance and lasting durability across repeat clinical use.
The Osher conjunctival fixation forceps features 45‑degree angled shafts with 0.3mm fine tips suited to conjunctival flap and tissue positioning during anterior segment plastic repair. The angled configuration provides ergonomic access to lateral conjunctival margins while maintaining surgical visibility. Fine tip geometry minimizes tissue trauma.
The Osher tying forceps are ultra‑delicate instruments engineered for handling the finest suture materials (10.0 and smaller) during ophthalmic wound closure. Its 0.12mm Elschnig‑pattern 1 × 2 teeth and delicate tying platform provide secure purchase without distorting or crushing fragile nylon or silk. The straight 106mm design supports fine tactile control during critical wound closure.
Osher haptic forceps grasp and reposition IOL haptics during lens placement and rotation. The 45 degrees angled tip reaches into the capsular bag from a temporal incision, and a delicate platform groove cradles the haptic without distortion. The 5mm and 10mm tip references guide depth as the surgeon engages the haptic shoulder.
The Osher superior rectus forceps provides curved geometry with 1 × 2 0.5mm fine teeth suited to gentle extraocular muscle grasping during advanced anterior segment and ophthalmic plastic work. The serrated handle ensures secure grip control, and the curved profile accommodates natural muscle topography. The fine tooth pattern minimizes muscle penetration.
The Osher tying forceps features curved shafts with 6.5mm tying platform and serrated handle suited to efficient IOL and corneal suture tying across anterior segment approaches. The curved geometry accommodates natural surgical access angles, and the broad platform distributes knot‑forming force. Durable construction supports routine sterilization cycles.
The Osher ultra‑fine tying forceps features curved shafts with 6.5mm tying platform and refined geometry suited to delicate monofilament tying in microincision cataract and refractive surgery. The exceptionally fine tip profile prevents suture trauma while the curved shafts provide ergonomic access. Lightweight construction supports prolonged precision work.
These Packo conjunctival forceps feature a 7mm angled segment to the tip and a 1.2mm tip diameter for atraumatic conjunctival handling. The angled construction supports precise grasping during conjunctival mobilization and repositioning.
The Paton suture forceps combines straight shafts with extra‑delicate sharp pointed tips suited to fine suture passage and corneal graft closure. The sharp point profile enables precise needle engagement during tied‑and‑buried knot placement. The straight geometry maintains clear visualization throughout suturing sequences.
The Paufique suturing forceps features straight shafts with tips angled 90 degrees inward, creating a distinctive geometry suited to precise IOL and suture manipulation in narrow anterior chamber spaces. The right‑angle tip configuration accommodates varied knot‑tying positions. Fine tip profile ensures consistent suture grip without crushing.
These Perl corneal Colibri forceps incorporate 0.8mm tips with 1×2 Colibri‑pattern teeth, configured for right‑hand use to match dominant‑hand rotational tendencies. The geometry supports precise corneal edge engagement and suture placement.
These Perone LASIK forceps use a 1.2mm ring tip for controlled flap edge handling during lamellar corneal procedures. The compact length supports precise grasping in the LASIK interface plane.
These Pierce corneal forceps utilize extremely fine 0.1mm 1×1 teeth for controlled, minimal‑footprint grasping of the corneal surface. The straight alignment enhances centration accuracy during micro‑elevation of superficial layers.
Pierce suture forceps deliver millimetric precision for wound closure and suture manipulation in anterior segment work. The 0.25mm notched tip grips individual suture segments without crushing, while the 6mm tying platforms enable two-hand knot tying geometry. Titanium construction is built for reliable performance and lasting durability across repeat clinical use.
The Pierce suture forceps delivers titanium precision for knot placement and corneal suture management following cataract or corneal surgery. The curved tip and 0.25mm notched end engage suture material without crushing monofilament strands. Six-millimeter tying platforms support knot advancement while the flat square-grip handle and 114mm length enable ergonomic tensioning.
The Pierse fixation forceps combines a titanium body with tungsten carbide grooved teeth (1 × 1, 0.1mm) for secure corneal and scleral fixation. The 2.5mm tungsten carbide tying platform supports fine suturing without slipping, while its 80mm length and flat handle deliver precise control in confined surgical spaces.
The Pierse-style Colibri forceps in titanium combines angled 45-degree geometry with ultraprecise 2mm fine-tip length. Its notched teeth at 0.25mm spacing grip delicate sutures without crushing, while the 6mm tying platforms distribute clamping force. The flat square-grip handle and compact 84mm length enable controlled finger dexterity during fine wound closure.
The Pierse tissue forceps deliver fine manipulation with their 0.3mm straight tips during anterior segment microsurgery and corneal tissue handling. The 9mm wide flat handle provides secure, stable grasp in the palm, and at 109mm overall length, the instrument reaches deep into confined anterior chamber spaces. Stainless‑steel construction ensures reliable reprocessing across countless cataract and corneal cases.
The Pierse Colibri micro forceps delivers exceptional delicacy in curved configuration with 0.1mm fine tips optimized for iris tissue and anterior segment microsurgery. The lightness and precision of the Colibri pattern suit intricate maneuvers in narrow fields where standard forceps create excessive trauma.
The Pierse-Colibri forceps delivers ultra-fine tissue work for anterior segment dissection with its 0.11mm micro-tips and distinctive 1 × 1 Pierse-tooth pattern. The curved shafts and short flat handle provide ergonomic control during tight conjunctival and limbal work. The 75mm overall length supports delicate manipulation in confined operative spaces.
These Polack double corneal forceps use 0.12mm tapered tips with 1×2 teeth and a fixed 1mm inter‑tip spacing for consistent symmetric grasping. The short Colibri‑style handle improves access in narrow palpebral fissures while supporting peripheral corneal fold manipulation.
The Polack double corneal forceps is a specialized Colibri‑pattern instrument with two independent 2.75mm long tips separated by 1mm, enabling simultaneous bilateral tissue engagement. The 1 × 2 tooth pattern and serrated handle provide secure grip on delicate corneal and conjunctival edges. Compact 71mm length supports precise bimanual positioning.
These Pollack fixation forceps incorporate curved shafts and 1 × 2 double-prong teeth for secure donor cornea grasping during transplantation. Titanium material resists corrosion from repeat sterilization while maintaining reliable grasping geometry across multiple procedures.