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The DK tying forceps with 6mm tying platforms and curved shafts enables stable knot formation throughout cataract closure. The long flat ergonomic handle reduces hand stress during extended suturing, while the curved geometry naturally aligns the tips for tying plane work. At 115mm, the forceps reaches incision sites comfortably without excessive reach.
Features & Benefits
The DMEK forceps in titanium features cross‑action geometry with upward facing angled tips and serrated interlocking jaws for secure Descemet membrane graft manipulation. The 9.8mm tip‑to‑pivot distance and 1.5mm pivot width enable entry through smaller incisions, while the flat handle provides steady control during the delicate insertion sequence. Titanium construction ensures durability across many corneal grafts.
The Dodick Lens Folding Forceps is designed for IOL manipulation and insertion during cataract surgery. Its cup‑paddle shaped jaws create a secure cradle that gently engages the IOL optic during folding and insertion through the incision. The angled geometry enhances visualization of the IOL alignment, while the three‑hole handle and 113mm length provide balanced control during the critical final steps of implantation.
The double fixation forceps employs a dual-curved U-shaped head with double 1 × 2 teeth to stabilize both superior and inferior rectus muscles simultaneously during strabismus exposure. The newly designed secure lock prevents inadvertent slippage during muscle handling. Titanium construction and compact 111mm length support controlled bilateral muscle engagement.
The narrow tip profile of these Douglas cilia forceps lets the surgeon isolate single misdirected lashes for epilation. The straight jaws meet cleanly along the working edge, and the 89mm overall length sits comfortably between fingers during slit‑lamp or in‑office removal.
These delicate dressing forceps carry a strongly curved profile with serrated tips and a serrated handle for secure tactile feedback. The heavy curve allows the surgeon to retrieve gauze or fine packing from periorbital tissue without obstructing the field. A 100mm length keeps the working end in close range during seated microscope work.
Gently curved ophthalmic dressing forceps with delicate serrated tips for atraumatic handling of small gauze, sponges, and superficial tissue around the eye. The serrated handle gives a secure pinch, and the 100mm overall length suits periocular dressing work without crowding the field.
These curved heavy‑tip dressing forceps grip gauze, suture, and tougher tissue elements at the ocular field. Serrated tips and a gentle curve allow the surgeon to approach the field at an oblique angle, while the serrated handle and polished finish support a steady glare‑free grip across the 100mm length.
These dressing forceps are engineered for post-operative wound and dressing care in ophthalmic surgery. The delicate 11mm straight tips enable gentle tissue manipulation without trauma, while the serrations on both the jaws and handle provide secure grip on gauze, dressings, or conjunctival tissue. The polished stainless steel finish and compact 100mm length support both OR cleanup and clinic wound inspection.
Delicate 11mm serrated tips on these dressing forceps grip dressings, sponges, and superficial tissue without crush. The straight shafts give a direct line into the field, and the serrated handle with polished 100mm finish supports a steady thumb‑finger grip. Light spring action reduces hand fatigue across longer tasks.
Straight ophthalmic dressing forceps with heavy 12mm serrated tips for confident handling of gauze, sponges, and superficial tissue around the orbit. The serrated handle supports a steady pinch, and the heavier tip mass gives controlled purchase where delicate forceps would slip. Overall length is 100mm.
The DSEK Endothelial Grasping Forceps is engineered specifically for the critical graft insertion and positioning step in DSAEK and DMEK procedures. Its 23ga curved shaft conforms to incision geometry while the delicate end gripping platforms engage the corneal graft edge without damaging the endothelial monolayer. The 90‑degree offset between the jaws and handle enables the surgeon to position the graft and maintain pull‑through mechanics while maintaining clear visualization of the endothelial surface.
The Ehrhardt lid forceps feature a 14mm oval solid lower plate with straight 9mm serrated upper jaw and locking thumb screw, designed for secure eyelid clamping during lid margin surgery, blepharoplasty, and ectropion repair. The locking mechanism maintains consistent pressure throughout the procedure, preventing tissue slippage during surgical manipulation. The serrated upper jaw enhances grip on delicate lid tissue. This 90mm instrument supports controlled lid procedures.
The Elschnig fixation forceps features 1 × 2 Elschnig-style teeth on straight shafts with serrated narrow handle, designed for secure fixation of the rectus muscles during strabismus surgery and extraocular muscle manipulation. The distinctive Elschnig tooth pattern provides reliable purchase on muscular tissue without crushing, while the serrated handle supports excellent control during muscle isolation. This 111mm instrument is essential for extraocular muscle work.
The Ernest‑McDonald IOL inserting forceps is engineered for safe intraocular lens placement during cataract surgery. The angled cross‑action design provides mechanical advantage for controlled lens advancement through a small incision into the capsular bag. The three‑hole handle ensures stable grip during this critical insertion phase.
These Ernest McDonald lens inserting forceps use a balanced jaw profile configured for secure engagement of soft intraocular lenses during insertion. The jaw geometry provides consistent surface contact while allowing controlled guidance through micro‑incision pathways.
The Faulkner lens folding forceps is purpose‑designed for soft IOL compression and positioning during implantation. The serrated handle improves grip security during the sustained pressure required to fold a hydrophobic acrylic or silicone lens. At 110mm with a 12mm tip‑to‑bend distance, the instrument balances reach with fine control.
These angled Faulkner lens holding forceps incorporate round smooth jaws designed for stabilizing soft IOLs during folding or loading. The angled approach enhances access to injector cartridges while minimizing lens deformation.
These Fechtner conjunctiva forceps present an upward‑curved shaft and delicate ring‑shaped tips engineered to distribute force around fragile conjunctival membranes. The three‑hole handle enhances rotational control during dissection or tissue advancement.
Fechtner‑style conjunctiva forceps feature very delicate ring‑shaped tips that surround tissue rather than pinch it, distributing grip across the ring perimeter to minimize conjunctival trauma. The three‑hole handle reduces mass for sustained fine work, and the straight shafts keep the closure under direct microscope view.
These fine jewelers forceps provide precision grasping for delicate ophthalmic instruments, sutures, and tissue fragments during anterior-segment surgery. The sharp tips and straight shafts enable secure engagement without slipping. Anti-magnetic construction protects sensitive instruments from metal contamination. At 120mm, optimal length balances reach and microscopic control.
The fine tying forceps in curved configuration features delicate curved shafts with tying surfaces and serrated wide handle suited to precision IOL and corneal knot placement. The curved geometry accommodates natural surgical positioning, and the refined tip profile prevents suture trauma. Lightweight construction supports extended use without hand fatigue.
The Fine-Castroviejo suturing forceps (wide-handle variant) pair an ultrafine 0.12mm tooth with straight shafts, 5mm tying platform, and wide serrated handle for balanced control during precision ophthalmic suturing. This configuration is particularly effective for posterior capsule suturing, limbal grafting, and complex anterior chamber reconstruction where both fine tip control and hand stability are essential. The 110mm length supports versatile access.
The fine‑Castroviejo suturing forceps features ultrafine 0.22mm teeth and 5.5mm tying platform suited to delicate monofilament suturing in microincision cataract surgery. The exceptionally fine tooth pattern prevents slippage on thin sutures without any crushing trauma. Lightweight construction supports prolonged precision work during extended cases.
This fine‑Castroviejo variant features identical 0.22mm ultrafine teeth and 5.5mm tying platform as the preceding model, providing alternative hand preference or case‑by‑case selection flexibility. The exceptional fineness prevents suture slippage in delicate monofilament work. Each instrument supports precise knot placement during advanced microsurgery.
This large double‑pronged fixation hook anchors the globe or conjunctival tissue with two sharp tines during strabismus, retinal, or scleral work. The smooth flat handle delivers a stable pinch grip across the 120mm length, and the sharp prongs hold without slippage once seated.
This small double‑pronged fixation hook engages and stabilizes the conjunctiva and sclera during posterior-segment or limbal procedures. The sharp prongs provide secure fixation without tissue slipping, while the smooth flat handle offers ergonomic stability during precise scleral manipulation. At 120mm, length supports controlled dissection and retraction.
These Florakis �Reverse Utrata� endothelial DSAEK forceps incorporate extremely thin shafts angled 11mm from bend to tip. The reversed triangular grasping tips provide controlled engagement for delicate endothelial tissues.
Florakis titanium endothelial DSAEK forceps deliver precision grasping for Descemet's stripping automated endothelial keratoplasty without graft endothelial cell loss. The unique reversed triangular tip geometry minimizes contact area and trauma to the graft tissue, while the angled long, extremely thin shaft provides excellent visibility and access. Titanium construction ensures rigidity and corrosion resistance across many corneal transplant cases.
This titanium tying forceps feature ultrafine 0.12mm straight tips with delicate serrated teeth for secure knot grasping during microscopic anterior segment surgery. The fine gauge reduces jaw mass at the working end, improving control and responsiveness. Short handle design suits high‑magnification work in confined anterior chamber and capsular spaces.