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The Pierse fixation forceps combines a titanium body with tungsten carbide grooved teeth (1 × 1, 0.1mm) for secure corneal and scleral fixation. The 2.5mm tungsten carbide tying platform supports fine suturing without slipping, while its 80mm length and flat handle deliver precise control in confined surgical spaces.
Features & Benefits
The Pierse-style Colibri forceps in titanium combines angled 45-degree geometry with ultraprecise 2mm fine-tip length. Its notched teeth at 0.25mm spacing grip delicate sutures without crushing, while the 6mm tying platforms distribute clamping force. The flat square-grip handle and compact 84mm length enable controlled finger dexterity during fine wound closure.
The Pierse tissue forceps deliver fine manipulation with their 0.3mm straight tips during anterior segment microsurgery and corneal tissue handling. The 9mm wide flat handle provides secure, stable grasp in the palm, and at 109mm overall length, the instrument reaches deep into confined anterior chamber spaces. Stainless‑steel construction ensures reliable reprocessing across countless cataract and corneal cases.
The Pierse Colibri micro forceps delivers exceptional delicacy in curved configuration with 0.1mm fine tips optimized for iris tissue and anterior segment microsurgery. The lightness and precision of the Colibri pattern suit intricate maneuvers in narrow fields where standard forceps create excessive trauma.
The Pierse-Colibri forceps delivers ultra-fine tissue work for anterior segment dissection with its 0.11mm micro-tips and distinctive 1 × 1 Pierse-tooth pattern. The curved shafts and short flat handle provide ergonomic control during tight conjunctival and limbal work. The 75mm overall length supports delicate manipulation in confined operative spaces.
This pigtail probe carries 8mm curved pigtail loops on both ends with suture eyes just behind the blunt tips, designed for canalicular intubation during lacrimal duct repair after canalicular laceration. The pigtail curve follows the natural arc of the upper and lower canaliculi, and the suture eyes capture monofilament for retrograde threading. The round knurled handle gives steady fingertip control.
This Pisacano nucleus rotator features a flattened disk‑shaped horizontal tip for secure nucleus engagement. The 11mm tip‑to‑bend distance supports strong rotational torque, while the round knurled handle provides consistent control.
The Pisacano nucleus rotator features a distinctive flattened vertical disk-shaped tip that distributes force across a broad surface during nucleus rotation and positioning. The 11mm tip-to-bend distance and round knurled handle support stable, ergonomic control during divide-and-conquer phacoemulsification. Stainless steel construction ensures reliable performance across repeated cases.
Rounded outer blades and round shanks distinguish these plastic strabismus stitch scissors, with sharp tips that engage fine 6‑0 and 7‑0 sutures used in extraocular muscle reattachment. The straight profile cuts cleanly at the muscle insertion or conjunctival closure, and a two‑tone finish reduces operating microscope glare. Ring‑handle geometry and 115mm overall length give controlled scissor action throughout strabismus correction.
These Polack double corneal forceps use 0.12mm tapered tips with 1×2 teeth and a fixed 1mm inter‑tip spacing for consistent symmetric grasping. The short Colibri‑style handle improves access in narrow palpebral fissures while supporting peripheral corneal fold manipulation.
The Polack double corneal forceps is a specialized Colibri‑pattern instrument with two independent 2.75mm long tips separated by 1mm, enabling simultaneous bilateral tissue engagement. The 1 × 2 tooth pattern and serrated handle provide secure grip on delicate corneal and conjunctival edges. Compact 71mm length supports precise bimanual positioning.
These Pollack fixation forceps incorporate curved shafts and 1 × 2 double-prong teeth for secure donor cornea grasping during transplantation. Titanium material resists corrosion from repeat sterilization while maintaining reliable grasping geometry across multiple procedures.
The posterior capsule polisher uses a 23ga shaft to engage residual cortical debris on the posterior capsule following cortical aspiration. The textured working surface frosts away lens epithelial cells without scratching the capsular bag, supporting clear posterior capsule preparation prior to IOL placement.
The pre‑chopper forceps in titanium combines an angled 45‑degree geometry with arrow‑shaped tips and a 3 × 1mm flattened paddle area for controlled nucleus manipulation during phacoemulsification. The cross‑action shaft with 13.5mm bend‑to‑tip reaches challenging quadrants, while the round handle supports secure grip during chopping sequences. At 119mm, the forceps balances reach with hand control.
This pre-chopper is engineered specifically for hard nucleus management during phacoemulsification. The cross-action handle and 45-degree angle optimize the approach geometry needed to initiate efficient nucleus divisions in dense cataracts. Maximum opening of 3mm allows controlled depth of penetration into the anterior chamber without capsular trauma.
This pre‑op toric in‑line reference marker uses bilateral marking patterns with blades at 0�, 90�, and 180� for toric reference placement. The symmetric layout assists with consistent pre‑operative axis documentation prior to cataract surgery.
This stainless steel pre‑op toric reference marker features a half‑circle head with points at 0�, 90�, and 180� and a 70� angled head for corneal approach. The geometry supports stable external marking for reference axis establishment.
The Pre-Op Toric Reference Marker consists of a titanium half-circle with three marking points for preoperative axis notation in toric IOL planning. The round handle supports comfortable grip during marking sessions, while the titanium construction ensures the marker retains its geometry across multiple cases. This reusable reference supports consistent axis documentation.
The medium premature infant self‑retaining retractor carries round wire blades sized at 5mm for neonatal ophthalmic examination, scaling the small variant up for slightly larger infant anatomy. The round wire blades minimize lid trauma during sustained exposure.
This premature infant self-retaining retractor is designed for controlled lid retraction in neonatal ophthalmic examinations. Its small frame and corrected 40mm length support gentle positioning while maintaining a stable operative field without manual assistance.
This premature infant self‑retaining retractor features round wire blades 5mm long for delicate pediatric ophthalmic exposure. The compact 38mm overall length supports hand positioning in miniature orbital anatomy, and the sterile single‑pouch format meets pediatric case setup requirements.
This premature solid blade speculum features a V-shaped end geometry designed for safe eyelid retraction in small pediatric eyes. The 10mm blade length and 16.5mm maximum spread enable stable positioning without excessive pressure on delicate periorbital tissue. The compact 28mm overall length and straight design support easy insertion and visualization.
This preset limbal relaxing incision (LRI) diamond knife is calibrated for 500‑micron depth, mounted on an aluminum handle with a truncated lance blade. The fixed depth setting ensures reproducible incision penetration during astigmatism correction procedures. The 69mm overall length and aluminum construction provide lightweight, corrosion‑resistant handling.
This preset LRI diamond knife is factory‑calibrated to 550 microns for one‑step arcuate corneal incisions that address mild‑to‑moderate astigmatism. The truncated lance blade delivers sharp, reproducible entry at the corneal‑limbal junction without variable depth adjustment. The 69mm aluminum handle provides lightweight control during precise limbal wound creation.
This straight diamond knife brings precision to corneal and limbal incisions in cataract and refractive surgery. Three angled facets create reproducible incision geometry with consistent entry profiles. The titanium‑mounted blade combines rigidity with corrosion resistance over repeated clinical use.
The preset trifacet diamond knife combines titanium construction with a push‑pen handle design and 0.3mm preset depth for consistent incision geometry in ophthalmic surgery. The 0.7 × 0.17 × 4mm blade dimensions deliver ultra‑fine anterior chamber entry, while the trifacet profile ensures reproducible wound architecture. The straight dop and titanium body ensure rigidity and corrosion resistance for sustained use across many cases.
The Price DSAEK hook in stainless steel features a 0.25mm blunt angled‑up tip mounted on an 11mm angled shaft for controlled graft positioning during Descemet stripping endothelial keratoplasty. The round handle provides secure grip during the delicate insertion sequence. The blunt tip design minimizes risk of endothelial cell trauma while supporting reliable graft manipulation.
The Price DSAEK hook is engineered for gentle positioning and placement of Descemet's membrane grafts during endothelial keratoplasty procedures. Its titanium construction and angled 11mm shaft conform to anterior chamber geometry, while the 0.25mm blunt angled tip minimizes graft tearing during manipulation. The round handle provides ergonomic control during critical graft insertion and positioning.
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.
The Probst refractive cannula is engineered for controlled fluid delivery during limbal relaxing incision (LRI) creation and other refractive procedures. Its 7mm angled tip and 27ga gauge provide precise irrigation and visualization in the limbal and corneal transition zone. Fine-gauge tubing minimizes incision enlargement while the angled geometry improves approach accuracy.