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The Troutman Colibri suture forceps combines ultrafine 0.12mm tip geometry with precision tying platforms set at 45 degrees. Its 1 × 2-tooth pattern grips delicate sutures without crushing, while the ergonomic fenestrated handle distributes hand pressure evenly during prolonged wound closure. The 110mm length supports consistent suture manipulation from limbus to sclera.
Features & Benefits
These Troutman superior rectus forceps feature an angled shaft with 1×2 teeth engineered for controlled engagement of the superior rectus muscle. The angled profile improves posterior access while minimizing unintended scleral traction.
Troutman tying forceps handle ophthalmic suture tying with slightly curved 10mm jaws that follow the wound contour, picking up 10‑0 nylon without skating off the suture. The serrated cross‑action handle holds the tie under steady spring tension while the surgeon throws the knot, and the polished 118mm shaft glides smoothly through the wound.
The Troutman‑Barraquer Colibri forceps in titanium offers ultraprecise tip geometry at 0.12mm with 1 × 2 tooth configuration for delicate anterior segment grasping. The 6mm tying platforms support secure knot manipulation, while the short flat ergonomic E‑range handle reduces hand fatigue during fine work. At 90mm overall length, the forceps balances reach with control.
The Troutman‑Barraquer colibri forceps delivers ultra‑fine 0.3mm tips for delicate anterior segment grasping during corneal and limbal procedures. Titanium construction provides a lightweight, corrosion‑resistant platform for precise manipulation during keratoplasty and refractive surgery. The minimal weight and responsive feedback support controlled lid and conjunctival dissection.
Troutman‑Barraquer corneal fixation Colibri forceps use a 0.5mm angled tip with 1×2 teeth set at 45 degrees for secure scleral engagement during keratoplasty. The serrated handle and compact 72mm profile enhance maneuverability in dense tissue scenarios.
The 0.5mm Troutman-Barraquer utility forceps accommodates more robust corneal and anterior chamber tissue when finer tips risk slippage or inadequate control. Interlocking 1 × 2 teeth mount at a 45-degree angle for enhanced mechanical advantage and tissue purchase during wound edge alignment or graft fixation. A 6mm tying platform assists suture placement without releasing tissue hold. Stainless steel and compact 70mm length support microsurgical precision.
Titanium construction elevates the Troutman-Barraquer corneal utility forceps to a new durability standard while preserving 0.12mm tip fineness essential for phaco wound repair and capsular edge manipulation. Colibri-style geometry remains atraumatic, while titanium rigidity reduces hand fatigue during extended microsurgical closure sequences. 1 × 2 interlocking teeth maintain secure edge purchase without tissue crush.
This mid-range Troutman-Barraquer variant offers 0.3mm fine tips in titanium, bridging the ultra-fine 0.12mm and fuller 0.4mm geometries. A 6mm tying platform supports light suture manipulation during anterior segment closure or capsular repair, while titanium construction delivers superior durability and corrosion resistance. Colibri-style profile and 1 × 2 interlocking teeth remain standard for atraumatic tissue purchase.
The tying forceps features straight heavy shaft construction with 7mm tying surfaces suited to robust knot formation and suture tension control during advanced anterior segment surgery. The heavy shaft provides exceptional rigidity during repetitive tying motions, and the broad surfaces distribute knot‑forming force. Serrated wide handle ensures secure grip control.
This titanium tying forceps combines aerospace-grade material durability with precision suturing geometry. Its 0.3mm ultrafine tip and 1 × 2-tooth pattern deliver delicate suture control, while the 6mm tying platforms support secure grip on fine sutures. The square-grip flat handle and straight shaft enable wrist-neutral positioning during extended wound closure procedures.
This angled 45-degree titanium tying forceps delivers specialized approach control for sutures in difficult anterior chamber locations. The 6mm tying platforms support knot advancement while the 10mm distance from bend-to-tip enables access beyond standard angled instruments. The compact 83mm overall length and flat square-grip handle suit confined surgical spaces.
This titanium tying forceps combines angled 45-degree geometry with a 12mm working span from bend to tip, delivering extended reach and precise leverage during complex wound closure. The 6mm tying platforms and square-grip flat handle support stable suture manipulation, while the compact 82mm length aids maneuverability in tight surgical fields.
This angled titanium tying forceps with 45-degree inclination enables ergonomic suture manipulation in anterior segment closures. The 7mm working distance from bend to tip supports access to peripheral and paracental closure sites, while the 6mm platforms and flat square grip deliver reliable knot placement. Lightweight titanium construction ensures comfort during extended case sequences.
This extra-delicate tying forceps is engineered for fragile wound edges and fine suture work in advanced cataract and refractive surgery. The curved profile and flat square handle minimize hand fatigue during extended microsurgical cases. Six-millimeter tying platforms position the instrument for efficient two-hand knot placement without requiring forceps-tip manipulation.
This extended-length titanium tying forceps provides reach for posterior corneal and scleral suture placement. Six-millimeter tying platforms deliver broad knot-anchoring surface while the flat square-grip handle and straight shaft enable consistent force distribution. The 115mm length facilitates access to deep surgical fields.
This titanium tying forceps with 6mm tying platforms delivers straight-shaft knot control in corneal and scleral suturing. The flat square-grip handle and compact 85mm length suit detailed anterior segment work while the broad platform surface supports secure knot advancement without tissue damage.
This curved titanium tying forceps with 6mm platforms delivers reliable knot work in the anterior chamber and cataract closure. The standard curve geometry enhances visibility and reaches deeper tissue planes, while the flat square grip and 85mm length provide compact control. Titanium composition minimizes hand fatigue during extended suturing sequences.
The University of Kansas Colibri forceps features 2 × 2 interlocking teeth set at 45 degrees, creating a secure and symmetric grasp ideal for corneal and limbal tissue manipulation. The ultra‑fine 0.12mm tip profile combined with the 7mm tying platform enables precise control during capsulorhexis, IOL placement, and fine suturing at the limbus. The serrated handle provides reliable grip without slipping during prolonged phaco and anterior segment procedures.
University of Kansas corneal Colibri forceps integrate 0.25mm angled tips with 2×2 teeth set at 45 degrees and a 7mm tying platform for multi‑purpose wound construction. The serrated handle and 110mm length provide controlled reach during complex corneal grafting and suture management.
Built for foreign‑body removal from the conjunctiva and adjacent ocular surface, this utility splinter forceps presents sharp straight tips that engage hair, cilia, or shallow splinters with controlled precision. The 89mm shaft sits comfortably between thumb and index finger, supporting the fine pinch action needed to lift small particles without crushing them. Reusable across the clinic workflow, the stainless construction tolerates routine sterilization.
The Utrata capsulorhexis forceps feature 12mm angled shafts with fine angled tips, iris stop, and thin flat handle, designed for precise anterior capsular flap creation and continuous curvilinear capsulorhexis during phacoemulsification. The fine tip geometry enables controlled capsular engagement, while the iris stop prevents posterior displacement during the flap creation. This 83mm instrument is essential for modern cataract surgery.
These Utrata capsulorhexis forceps deliver the controlled tearing motion that defines a continuous curvilinear capsulorhexis. The 12mm angled shafts approach the anterior capsule through the main wound while the fine angled tips grip the capsular flap with the light, definite hold a clean rhexis requires. The iris stop limits forward travel to protect the iris, and the short flat handle gives the surgeon fingertip feedback through every tear.
This final Utrata capsulorhexis forceps variant features extremely fine tips with 12mm angled geometry from bend to tip suited to delicate capsular flap creation in advanced microincision cases. The refined tip profile prevents capsular shredding while the angled configuration permits improved visibility and ergonomic control throughout the capsulorhexis maneuver.
These titanium Utrata capsulorhexis forceps incorporate extremely thin shafts with six laser lines at 1mm increments, an 11mm bend‑to‑tip distance, and triangular grasping tips. The round handle provides fine rotational feel.
This Utrata-pattern capsulorhexis forceps combines extra-delicate serrated tips with a vaulted shaft geometry designed to maintain anterior-chamber depth during capsulorhexis creation. The 13.5mm angled tip-to-bend distance supports stable entry through the phaco incision while the flat serrated handle provides secure fingertip purchase during continuous-curvilinear-capsulorhexis creation. The delicate tip pattern minimizes anterior-capsule tearing.
The fine 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 flat handle delivers ergonomic stability for extended procedures.
The Utrata capsulorhexis forceps features fine angled tips with 12mm angled shafts suited to ergonomic capsule flap creation during routine cataract surgery. The iridium coating on the working tips enhances durability across repeated cases. The angled geometry permits improved visibility during precise continuous circular capsulorhexis without instrument repositioning.
The Utrata reverse‑tip capsulorhexis forceps modify the standard Utrata pattern to approach the capsule from alternate angles during anterior segment work. The reverse tip geometry improves access in tight quadrants or when standard orientation becomes constrained. Stainless‑steel construction supports reliable reprocessing in high‑volume surgical environments.
This Utrata capsulorhexis forceps delivers precision control for continuous curvilinear capsulorhexis during cataract surgery. The titanium construction ensures durability across repeated sterilization cycles and provides reliable edge retention through extensive clinical use.