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These Bonn suture forceps include delicate 1×2 teeth with integrated tying platforms and straight 20mm shafts. The long 110mm body enhances controlled reach for deep anterior chamber suturing and knot maneuvers.
Features & Benefits
These Bonn suture forceps feature delicate 1×2 teeth without tying platforms, producing a compact working profile for fine corneal and scleral bite placement. The three‑hole handle provides calibrated rotational control during micro‑suture manipulation.
These titanium Bonn suture forceps incorporate delicate 1×2 teeth, tying platforms, and straight 20mm shafts. The titanium alloy reduces instrument weight, improving micro‑tactile feedback during suture capture.
Bonn suturing forceps in the long model carry 0.12mm teeth and a 5mm tying platform behind the tips for combined grasp and knot construction in fine corneal and conjunctival closure. The serrated handle delivers consistent finger purchase, and the polished finish keeps the slender shafts visible during microsurgical use. Overall length is 96mm.
The Bonn suturing forceps features straight shafts with 0.12mm ultrafine teeth and 5mm tying platform suited to delicate corneal and IOL suturing. The straight geometry enables clear visualization during precise knot placement, and the ultrafine tooth pattern prevents slippage on fine monofilament. Refined design supports efficient closure across varied cataract approaches.
Bonn suturing forceps pair 0.12mm teeth with an integrated tying platform, letting the surgeon grasp the wound edge and tie the suture without instrument changes. The straight short‑model shafts and serrated handle keep the working profile compact for corneal and conjunctival suturing at 80mm overall. A workhorse in the cataract and corneal close.
The Bores corneal fixation forceps delivers exceptional precision with 0.12mm fine 1 × 2 teeth on each wide 6mm jaw. This geometry suits delicate keratoplasty fixation where standard forceps create unacceptable compression. The wide jaw profile distributes holding force across broader tissue width while minimizing punctate corneal trauma.
These Bores corneal fixation forceps feature straight shafts, two‑point fixation with 3mm tip separation, and 0.3mm 1×2 teeth. The dull‑finish three‑hole handle reduces glare and enhances grip during fixation maneuvers.
The Bores corneal fixation forceps stabilize the cornea during refractive surgery, corneal grafting, or anterior segment procedures requiring manual globe immobilization. The U‑shaped tips provide broad contact without focal dimpling, and the 108mm straight shaft enables horizontal or vertical approach. Titanium construction withstands high reprocessing loads while maintaining tip geometry across many cases.
The Botvin iris forceps is engineered for delicate iris manipulation during anterior segment procedures. Its 70mm length with bayonet-angled tips provides access across the anterior chamber, while the 1 × 2 delicate tooth pattern allows atraumatic grasping of iris tissue without crushing. The Colibri-style short handle offers natural finger control during precision iris positioning.
These delicate Bracken fixation forceps grasp the conjunctiva and sclera with a 0.7mm straight tip carrying a 1 × 2 tooth pattern. The interlocking teeth hold the tissue squarely during incision and suturing without dragging. A serrated 108mm handle delivers the steady pinch needed for limbal fixation, while the polished finish keeps the working end readable under the microscope.
These lightly curved Bracken iris forceps engage iris tissue and small membranes with delicate cross‑serrated tips that grip without crushing. The gentle curve follows the iris plane for atraumatic approach, and the matte finish reduces microscope glare during fine anterior segment work. A serrated handle supports controlled fingertip pressure across the 102mm length.
Refined for delicate corneal work, these Bracken‑Farkas forceps in the Neumann modification carry 1 × 2 teeth at a 0.12mm tip on straight Colibri shafts. A stabilization pin keeps the platforms aligned during fine tying, and the serrated handle supports oriented fingertip rotation during corneal and limbal suturing.
The Buratto LASIK flap forceps is engineered for corneal flap manipulation during refractive keratotomy. Its 0.8mm serrated disk‑shaped tips grasp and move flap edges with minimal trauma during ablation and repositioning. The curved shaft geometry adapts to corneal contour at 102mm working length, and stainless steel construction supports reliable performance across repeated cases.
These Buratto soft IOL inserting forceps feature extra‑delicate highly polished convex jaws engineered to reduce surface friction during lens delivery. The polished contour supports low‑resistance IOL advancement.
The Busin DSAEK forceps at 20 gauge is designed specifically for micro‑incision donor button insertion in conjunction with the Busin glide, enabling DSEK through smaller corneal wounds. The 20‑gauge tip minimizes wound trauma while accommodating standard graft sizing. Stainless steel construction supports reliable performance across many corneal grafts.
The Calladine-Inamura capsulorhexis forceps is engineered for precision manipulation of the anterior lens capsule with an ergonomic round handle. The straight-shaft design provides direct approach to the capsular margin during cataract surgery. The fine tip geometry supports controlled, continuous capsulorhexis without tearing.
The Calladine‑Inamura capsulorhexis forceps in titanium is engineered for consistent capsular control during phacoemulsification. The round handle geometry allows secure finger positioning and controlled capsule engagement without fatigue. Titanium construction combines lightweight handling with corrosion resistance across many cases.
The capsule fragment forceps features vaulted 13mm shaft geometry with dual 2mm platforms and micro cup design suited to safe, atraumatic capsule fragment retrieval during advanced cataract surgery. The shallow cup geometry permits gentle engagement without crushing fragile capsular tissue. The dual platform design enables varied grasping angles.
This cross‑action capsulorhexis forceps features 11mm delicate shafts and sharp tips for controlled anterior capsule opening during cataract surgery. The titanium construction and delicate design minimize capsular trauma during the critical rhexis maneuver. The round handle and 120mm length support precise capsular control.
The capsulorhexis forceps in extra delicate pattern with angled geometry and vaulted serrated tips facilitate continuous rhexis in dense or brunescent cataracts where tissue compliance is reduced. The 13mm bend to tip improves access angle, and the angled shaft positions tips naturally along the capsular plane. Stainless‑steel construction maintains tip geometry across challenging cases.
These titanium capsulorhexis forceps incorporate extremely thin shanks with an 11mm tip‑to‑bend distance and cystotome‑shaped tips for precise capsular flap control. The geometry enables controlled tearing vectors during capsulorhexis creation.
This titanium capsulorhexis forceps delivers precision manipulation of the anterior lens capsule during cataract surgery. The flat angled jaws with cystotome-style tips enable safe engagement without capsular tearing. The vaulted 12mm bend-to-tip geometry and cross-action mechanism provide consistent control across nuclear densities, while the 121mm overall length supports stable handling.
The Utrata capsulorhexis forceps in this compact 84mm length with flat handle deliver precise rhexis control in confined anterior chamber access. Titanium construction ensures rigidity at the delicate tips while keeping overall weight minimal. The short profile suits high‑magnification work where long handles create unwanted vibration and fatigue.
The Carlson‑style DSEK forceps is engineered for controlled graft insertion and positioning during Descemet‑stripping endothelial keratoplasty. Its angled shafts and delicate smooth platform tips support atraumatic graft tissue handling without edge trauma. The 11mm working length and stops mechanism prevent overtraction of the corneal tissue.
This Castroviejo Colibri forceps delivers ultraprecision manipulation of corneal and capsular tissue during microincisional cataract surgery and corneal transplantation. The 0.12mm ultra-fine tips and 1 × 2 interlocking teeth provide micro-grasp without tissue compression, while the 6mm tying platform accommodates delicate suture work. The 45-degree angle optimizes visibility during anterior segment procedures.
The Castroviejo Colibri forceps carry 0.12mm 1 × 2 teeth set at 45 degrees with 90‑degree tooth angulation, designed for atraumatic corneal and limbal grasp during anterior segment work. The three‑hole handle gives stable finger placement, and the 105mm length keeps the tying motion close to the field.
The Castroviejo Colibri Forceps with 0.12mm tip represents the finest precision ophthalmic grasping instrument for delicate capsular and corneal work. Its titanium construction ensures rigidity without corrosion, while the 1 × 2 interlocking tooth set at 45 degrees engages tissue without slipping. The three‑hole handle and compact 106mm length support microsurgical precision during capsulorhexis, IOL positioning, and anterior segment manipulation.
The Castroviejo Colibri Forceps with 0.5mm tip provides slightly broader tissue engagement while maintaining the precision geometry essential for anterior segment surgery. Its titanium construction resists corrosion across repeated sterilization, while the 1 × 2 interlocking tooth set at 45 degrees ensures secure tissue purchase without occlusion. The three‑hole handle and 106mm length support controlled positioning during IOL insertion and capsular work.
This Castroviejo Colibri corneal forceps delivers ultrafine tissue engagement with a 0.12mm tip width and 1 × 2 tooth interlocking pattern. The 45‑degree tooth set supports precise iris and corneal surface grasping during fine anterior segment procedures. A wide serrated handle and polished finish provide stable, non-slip control during delicate microsurgical manipulation.