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The Prince advancement forceps is engineered for extraocular muscle advancement and transposition procedures with 10.5mm rightward-angled jaws that secure the muscle without slipping. The four-tooth holes in the jaw tips provide positive purchase on the insertion site without crushing muscle tissue, while the easy-squeeze spring lock and quick thumb release facilitate efficient exchanges during strabismus surgery.
Features & Benefits
Puntenney tying forceps offer a 12mm curved tying platform for confident knot manipulation in ophthalmic suturing. The curved shafts angle toward the wound for natural wrist alignment during corneal and scleral closure, and the long platform supports controlled wrapping of fine sutures. A serrated handle keeps the pinch grip secure through repeated throws.
The Rappazzo intraocular foreign body forceps combines a lightweight squeeze‑handle design with secure grasping geometry for safe IOFB retrieval across posterior segment approaches. The ergonomic handle reduces fatigue during vitrectomy, and the tapered jaw profile permits passage through sclerotomy ports without enlargement.
The Rizzuti superior rectus forceps is designed for extraocular muscle isolation and grasping during horizontal and vertical strabismus surgery. Its 45-degree angled shafts position the tips perpendicular to the muscle insertion, while the 1 × 2 interlocking teeth secure firm hold without crushing delicate muscle tissue. The serrated cross-action handle supports controlled advancement.
Delicately pointed tips give these Rolf utility forceps a fine grasp on suture, drape edges, and small ophthalmic accessories at the field. The straight shaft and 108mm overall length keep the working tip clear of the surgeon's hand during precision handoffs. Light spring tension supports prolonged microsurgical use without finger fatigue.
This roller expressor forceps is designed for meibomian gland expression, delivering controlled mechanical pressure to clogged lipid glands along the eyelid margin. The straight stainless‑steel construction and roller tip geometry reduce tissue trauma while ensuring consistent expulsion of inspissated meibum. At 111mm overall length, the instrument provides comfortable reach and leverage for bilateral eyelid assessment.
The Rosenwasser (Melles) DSAEK stripper is engineered for precise separation and insertion of donor corneal grafts during Descemet's-stripping endothelial keratoplasty procedures. Its angled shaft with 11mm bend to tip and forward 90-degree orientation positions the sandblasted tip optimally within the anterior chamber while protecting the endothelial graft. The round knurled handle and 125mm length ensure stable graft manipulation.
These Rosenwasser donor lamella inserting forceps incorporate thin vaulted 12mm shafts for optimal lamellar placement. The three‑hole handle enhances micro‑control during donor tissue insertion.
This Rosenwasser endothelial stripper, also known as a Melles PLK scraper, features a 90-degree angled semi-sharp tip for controlled endothelial layer separation. The angled shaft improves approach geometry, while the round stainless-steel handle supports steady microsurgical control.
This Salz nucleus splitter is a titanium instrument with a short Colibri‑style handle and squeeze cross‑action design for controlled nuclear division. The geometry supports internal cracking maneuvers during cataract extraction.
The Salz nucleus splitter combines titanium construction with a squeeze cross‑action design to divide the crystalline lens nucleus during phacoemulsification. The short Colibri‑style handle provides ergonomic control and tactile feedback throughout the splitting maneuver. Its geometry supports safe nucleus manipulation in the capsular bag while preserving endothelial integrity.
The Sauer suturing forceps feature straight shafts with 1 × 2 teeth set at 45 degrees, wide serrated handle, and polished finish, enabling precise suture engagement during ophthalmic closure and lid procedures. The angled tooth pattern optimizes grip geometry for suture passage, while the wide handle distributes force evenly during knot formation. This 87mm instrument supports reliable closure across anterior segment work.
The Sauer suturing forceps features 1 × 2 fine teeth angled 90 degrees inward to provide secure, controlled purchase on suture material during corneal and conjunctival wound closure. The wide serrated handle reduces hand fatigue during extended closure procedures, while the straight shaft and polished finish support reliable performance across routine sterilization. The 87mm overall length enables precise hand positioning.
Designed for handling scleral plugs during vitreoretinal cases, these forceps feature small cupped recesses inside the jaw tips that seat the plug head securely without slippage. The cross‑action design closes the jaws when the handle is at rest, freeing the surgeon's pinch effort during plug placement and removal. A wide serrated handle and 106mm length support a stable approach to the scleral ports.
These Sheets lens forceps incorporate angled slim jaws with a 10mm platform and a 73mm overall length for delicate lens manipulation. The low‑profile jaw design supports secure grasping in confined surgical spaces.
The Sheets‑McPherson tying forceps in 45‑degree angled configuration features 10.5mm tying platform suited to efficient IOL and corneal knot placement across varied incision positions. The angled shafts provide ergonomic surgeon access, and the broad tying surface distributes knot‑forming force evenly. Durable stainless steel supports routine sterilization.
The Shepard intraocular lens forceps fold and deliver foldable IOLs through small phaco incisions. A cross‑action design with 1.45 × 2mm serrated upper and lower jaws grips the optic securely without slippage, and a slide lock holds the lens compressed until release. The curved‑up shaft preserves the surgeon's view of the wound during insertion.
The Shepard IOL insertion forceps combines a curved 18mm shaft with a 1.91mm serrated cross-action grasping tip to deliver gentle, secure IOL handling throughout phacoemulsification and insertion sequences. Titanium construction and dull finish minimize glare and hand fatigue, while the flat serrated handle provides secure grip during precise manipulation. The 108mm working length supports comfortable reach to the bag or capsulotomy margin.
These Shepard lens holding forceps employ curved jaws with a 20mm mid‑screw‑to‑tip distance to support controlled grasping and stabilization of flexible IOLs. The extended reach accommodates deep‑set loading positions.
These Shepard lens holding forceps secure foldable IOLs during preparation and insertion, with curved jaws that capture the optic without crushing. A locking ratchet holds the lens steady through manipulation, and the serrated three‑hole handle provides oriented fingertip control. The 20mm mid‑screw‑to‑tip length matches the geometry of IOL injector loading.
Shepard tying forceps in the 45 degrees angled configuration support knot tying away from the operating field during cataract wound closure or IOL haptic positioning. The integrated tying platform provides a flat surface for suture rotation, and a wide serrated handle gives stable fingertip control across the 110mm length. Angled shafts keep the surgeon's hand clear of the corneal apex during knot rotation.
The Shepard tying forceps features 45‑degree angled straight shafts with 5mm bend‑to‑tip design suited to ergonomic IOL and suture tying in varied incision positions. The angled configuration provides natural surgeon positioning while the 5mm tying surface distributes knot‑forming force. Refined design supports efficient knot placement across routine and advanced cases.
The Shepard tying forceps delivers straight-shaft control for wound and IOL manipulation in anterior chamber surgery. Its 4mm tying platform and wide serrated handle enable secure suture grasping and positioning without excessive handle bulk. The extended 110mm length supports consistent reach and tactile control during closures.
The Shepard tying forceps in titanium feature angled 45-degree geometry with wide serrated handle and tying platform, delivering excellent control during phacoemulsification closure and anterior segment suturing. The titanium construction reduces intraoperative fatigue while providing corrosion resistance across repeated cases. The angled approach improves visibility at the surgical site without requiring repeated repositioning.
This Silverstein‑Utrata capsulorhexis forceps balances fine tip precision with ergonomic handle design for comfortable extended procedures. Angled shaft geometry improves approach angle and visualization during clear corneal capsulotomy. The flat handle delivers ergonomic stability for extended procedures.
These Sinskey T‑shaped lens holding forceps use curved jaws with a 15mm mid‑screw‑to‑tip distance to provide secure stabilization of soft lenses. The T‑shaped frame improves in‑hand rotational control during loading maneuvers.
The Sinskey straight tying forceps feature a fine 7mm tying platform with cross-action jaws, flat wide smooth handle, and dull finish, providing ergonomic comfort and reliable suture management during extended suturing procedures. The straight geometry offers direct access without obstruction, while the wide smooth handle accommodates various grip styles. This 111mm instrument supports stable control during complex wound closure.
These Jaffe tying forceps incorporate straight 23mm shafts and a three‑hole handle for controlled linear suture placement. The 100mm length improves microsurgical reach.
The Smile lenticule removal forceps in titanium features 4mm long serrated jaws angled 30 degrees with a 9mm tip‑to‑bend geometry for precise contact and control during refractive lenticule extraction. The long flat handle improves ergonomics during the delicate mobilization sequence, while serrated jaws prevent tissue slippage. At 115mm overall length, the forceps reaches the operative field comfortably.
The Snellen entropion forceps isolates and stabilizes the inverted eyelid margin during entropion repair. A 28mm-wide solid lower plate clamps against an open upper plate perforated with a locking thumbscrew, creating the controlled tissue apposition needed for tarsal strip or repair fixation. Left-hand geometry suits anterior approach, and the serrated handle maintains grip throughout manipulation.