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This Ahmed needle driver is designed for intraocular suturing during complex anterior and posterior segment repair, including capsular and corneal wound closure. The 23‑gauge straight shaft supports steady needle manipulation within the anterior chamber, while the fine tip geometry preserves visibility during delicate suture placement. Stainless‑steel construction is built for reliable performance and lasting durability across repeat clinical use.
Features & Benefits
Ahmed MICS tying forceps enables secure suture knot management in minimally invasive cataract surgery through 23ga micro-incisions. The curved shaft geometry accommodates anterior chamber angles while the compact 35mm length provides precise control in confined spaces. Design supports reliable knot placement across glaucoma implant procedures and other MICS applications.
The MICS Capsulorhexis Forceps is engineered for anterior capsular opening in microincision cataract surgery through 1.8mm-2.2mm incisions. Its titanium construction ensures durability while the 23ga curved shaft minimizes incision trauma and wound deformity. The micro grasping tips provide delicate capsular engagement without slipping, enabling controlled rhexis initiation and progression through ultra-small incisions.
The MICS capsulorhexis forceps integrate vaulted titanium shafts with blunt tips and cross‑action flat handle for mini‑incision cataract surgery. The vaulted geometry maintains ergonomic wrist position through a 1.8mm to 2.2mm incision, while the blunt tips prevent capsular nick during continuous rhexis initiation. Titanium construction provides durability across high‑volume MICS workflows.
This titanium MICS handle features a squeeze action mechanism engineered for compatibility with the DUO Series interchangeable tips. The modular design allows surgeons to select capsulorhexis, grasping, or IOL‑insertion tips while maintaining consistent hand ergonomics. Titanium construction provides lightweight rigidity and corrosion resistance for countless cases.
The Hoffman MICS Descemet-stripping forceps is designed for minimally invasive endothelial keratoplasty (DMEK/Descemet membrane endothelial keratoplasty) in MICS workflows. Its 23ga curved shaft with integrated 16mm hub-to-tip measurement optimizes working distance and tactile control when manipulating Descemet's membrane grafts through small incisions. For use with the DUO-00 handle system.
Engineered for implantable collamer lens (ICL) positioning, this straight‑shaft MICS grasping forceps maintains precise control during phakic lens placement and centration. The 35mm working length supports small‑incision anterior chamber access, while the straight geometry provides predictable maneuverability. Stainless‑steel construction is built for reliable performance and lasting durability across repeat clinical use.
This 23‑gauge IOL holding forceps delivers controlled grasping of intraocular lenses during implantation and orientation within the capsular bag. The curved shaft geometry follows anterior chamber anatomy, while the fine 0.6mm tip minimizes contact marks on the optic. Stainless‑steel construction is built for reliable performance and lasting durability across repeat surgical use.
The Seibel capsulorhexis forceps is a 23‑gauge MICS instrument designed with etched rhexis marks spanning 1 to 6 millimeters for controlled anterior capsule opening. The curved shaft provides natural anterior chamber access in micro‑incision workflows, while the sharp tips and engraved sizing guides support reproducible circular opening creation. Stainless‑steel construction is built for reliable performance and lasting durability across repeat clinical use.
The MICS Seibel capsulorhexis forceps is purpose‑built for micro‑incision cataract surgery, combining a 23ga curved shaft with blunt grasping tips and etched rhexis marks from 1 to 6mm. The fine gauge and precise tip geometry enable controlled capsular rim engagement without corneal incision enlargement. Use with the DUO‑00 modular handle for stable bimanual capsulorhexis creation in MICS cases.
The Monarch II loading forceps is designed for precise IOL cartridge manipulation and fold-free lens insertion during cataract surgery. Its three-hole handle geometry provides secure fingertip control during critically balanced loading motions. The serrated flat handle resists rotational slip, enabling surgeons to maintain consistent cartridge orientation through the incision.
These Moody fixation forceps carry 1 × 2 teeth on a 0.5mm left‑curved tip for securing globe or conjunctiva during cataract entry and counter‑traction. A thru‑handle click‑lock thumb release engages and disengages the hold without breaking microscope focus, and the three‑hole handle keeps the instrument light through long cases.
Moody fixation forceps grasp the conjunctiva and sclera with a 1 × 2 tooth pattern that holds without slipping during cataract entry, scleral suture passage, or globe stabilization. The right‑curved 0.5mm tips angle into the operative field, and the through‑handle click lock with thumb release lets the surgeon set and free the grip without breaking concentration. The serrated Castroviejo handle is 108mm overall.
The Moody fixation forceps secure the globe during strabismus surgery, with a curved‑right 0.5mm tip carrying 1 × 2 interlocking teeth that hold scleral and muscle insertion tissue cleanly. A thru‑handle click‑lock thumb release engages and disengages fixation between maneuvers, and the three‑hole handle lightens the instrument across sustained strabismus exposure.
The Moody fixation forceps features a standard curve with 2 × 3 interlocking teeth to provide secure corneal and episcleral fixation during ocular surgery. The curved shafts conform to the anatomical contours of the eye surface, enhancing stability. Its 104mm length and flat handle support precise anterior segment work.
These Nevyas custom MICS Utrata forceps use cystotome‑style tips with laser reference lines at 5.5mm, 6mm, and 6.5mm. The ultra‑delicate jaws open to 1.75mm and sit on an angled shaft with an 11mm bend for precision capsulotomy control.
The Nevyas-style Utrata capsulorhexis forceps delivers ultra-delicate control during anterior capsule manipulation. Its angled 102mm shaft with extremely thin construction and 11mm bend-to-tip geometry allows smooth positioning through small clear corneal incisions. The small sharp cystotome tips engage the capsule with minimal trauma, while the three-hole handle ensures stable fingertip control throughout continuous curvilinear capsulorhexis.
Nordan Colibri forceps feature ultra‑precision 0.12mm angled tips with 1×2 teeth and integrated alignment pin for exacting corneal suture placement. The flattened round knurled handle balances control with minimal hand pressure, optimal for extended microsurgical cases.
Nordan special Colibri forceps carry 0.12mm 1 × 2 teeth in the Colibri offset pattern for fixation at the corneal wound edge without obstructing the surgeon's view through the microscope. A round knurled handle without side flats preserves continuous rotational grip, and an alignment pin keeps the tip teeth in register during closure. The 104mm overall length suits cataract and corneal wound suturing.
The Nordan-style Colibri forceps delivers micro-precision grasping for delicate capsulorhexis and lens manipulation with its 0.12mm tapered tips and 6mm tying platforms. Titanium construction provides lightweight handling without sacrificing rigidity, while the round flat grip and 115mm length support sustained control during extended anterior chamber work.
The Nugent utility forceps features 10mm crisscross serrated jaws in 45‑degree angled configuration suited to tissue grasping and dressing manipulation in varied surgical fields. The broad jaw width distributes holding force across substantial tissue surface, while the angled shaft provides ergonomic access. Durable construction supports routine reprocessing.
These Nugent utility forceps carry 10mm smooth jaws on shafts angled 45 degrees, lifting and positioning tissue or sutures without point pressure. The angled shaft profile clears the surgeon's line of sight to the cornea, and the 110mm overall length keeps fingertip control at the orbital rim.
The O'Brien fixation forceps combines straight shafts with 1 × 2 Elschnig‑style tooth pattern suited to capsule and tissue fixation across varied cataract approaches. The precise tooth geometry prevents slippage and crushing, and the straight configuration enables stable control during bimanual surgery. Durable construction supports routine sterilization cycles.
The O'Connor‑Elschnig fixation forceps combine heavy Elschnig teeth with a slide‑style lock to stabilize the globe during strabismus and extraocular work. Straight shafts give a direct line of approach, and the serrated flat handle delivers controlled purchase across repeated fixation maneuvers.
The O'Gawa Castroviejo tying forceps features a 6mm tying platform with straight shafts optimized for fine monofilament and nylon passage during anterior segment closure. The broad platform distributes knot‑tying force across stable contact, while the refined Castroviejo geometry ensures consistent suture manipulation. Fine tip configuration minimizes mucosal trauma.
O'Gawa Colibri forceps deliver ultra‑fine 0.12mm angled tips with 1×2 Colibri‑pattern teeth for precision corneal edge stabilization. The alignment pin integrates rotational reference, supporting microsurgical suturing in confined anterior chamber spaces at 106mm length.
The O'Gawa DSAEK forceps for donor button insertion features 12mm angled shafts with delicate 1mm paddle tips for controlled graft manipulation during Descemet stripping endothelial keratoplasty. The round knurled handle provides secure grip during the insertion sequence. The angled geometry optimizes anterior chamber access and graft positioning.
The O'Gawa-style suture forceps in titanium delivers curved geometry optimized for fine wound closure work. Its 0.12mm ultrafine tip with 1 × 2-tooth pattern grips delicate sutures without deformation, while the 6mm tying platforms provide stable positioning. The round ergonomic handle supports prolonged, fatigue-free manipulation during intricate corneal and limbal closure.
These O'Gawa‑style suture forceps carry a 1 × 2 tooth pattern at a 0.12mm tip, paired with 6mm tying platforms for combined grasping and knot management during corneal and scleral closure. The straight shafts route directly to the wound, and a round handle balances at the fingertip for sustained microsurgical tying. Titanium construction adds rigidity and corrosion resistance over many sterilization cycles.
The O'Gawa curved tying forceps features 5.5mm tying platform with 0.3mm gap at platform heel, enabling smooth suture transition during efficient IOL and corneal knot placement. The curved shafts provide ergonomic access while the refined O'Gawa geometry enhances tying control. The gap design minimizes suture trauma during knot formation.