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These micro ophthalmic scissors deliver fine, straight-line cutting for delicate tissue work during anterior segment procedures. The 12mm cutting blades provide direct visualization and control, while stainless-steel construction withstands repeated sterilization. At 150mm overall, they support precise hand positioning in confined operative spaces.
Features & Benefits
The 5mm micro blade tip angles the cutting edge for fine ophthalmic incision work, sized for paracentesis and small corneal entries. The angled geometry presents the cutting face cleanly to the corneal surface, and the sterile delivery preserves edge sharpness.
This micro Castroviejo needle holder combines titanium construction with diamond-dusted jaws for superior needle grip and lasting durability across hundreds of ophthalmic microsurgical cases. The 180mm length with locking mechanism supports extended reach during complex anterior segment closure, including eyelid and lacrimal repair work.
Hemostasis and selective vessel ablation in delicate anterior segment work demand ultra-fine cautery tips. This micro fine tip reaches 2000 degrees Fahrenheit (1093 degrees Celsius), enabling precise thermal sealing in corneal and episcleral surgery. The sterile, individually packaged format and tight thermal control support predictable hemostasis without collateral thermal injury.
This 23‑gauge MICS forceps pairs serrated jaws with a titanium squeeze handle for precise capsulorhexis and cortical manipulation in micro‑incision cataract surgery. The 0.6mm tip maintains fine tactile feedback during anterior chamber work. Titanium construction combines rigidity with corrosion resistance over many cases.
The Micro Graether collar button with 45-degree angled shaft and 10mm paddle provides precise anterior segment tissue manipulation. The angled configuration supports ergonomic access for varied surgical approaches during complex anterior procedures.
The micro‑handle Colibri forceps provide ultrafine, precision control for intraocular work and iris manipulation during phacoemulsification and anterior chamber surgery. The 0.12mm titanium tips with 1 × 2 teeth gently grasp delicate tissue without crushing. At 75mm, the short length improves control at high magnification during microscopic procedures.
This micro J-shaped cannula delivers controlled aqueous misdirection and fluid management during anterior segment surgery. The 25-gauge lumen accommodates fine infusion or aspiration, while the J-shaped hook (1.5mm long × 1.75mm wide) provides gentle positioning beneath the iris and across the anterior chamber.
Angled 15 degrees with a 5mm blade, this disposable micro knife is suited for controlled corneal and limbal entry. The screw‑in green tip allows fast intraoperative attachment to a compatible handle, supporting predictable incision geometry. Each knife is sold individually sterile with six per box for routine workflow.
This angled 15� micro knife with a 3mm blade and full handle provides controlled corneal entry for ophthalmic microsurgery. The sterile single‑use design supports reproducible incision formation.
Angled at 22.5 degrees with a 4mm screw‑in light‑blue tip, this micro knife creates secondary incisions in cataract and anterior segment work where a steeper blade angle than the 15‑degree variant is wanted. Single‑use sterile preserves the cutting edge.
This 30� angled micro knife uses a 3.5mm restricted‑depth blade with a full black handle for controlled anterior‑segment access. The sterile format supports consistent micro‑incision performance.
This Osher Malyugin collar button manipulator features a 10mm angled bend at the tip, allowing bimanual iris retraction and pupil dilation during cataract and intraocular lens surgery. The round knurled handle provides secure purchase and tactile feedback during delicate iris manipulation. At 118mm length, it reaches deep into the anterior chamber while maintaining surgeon control.
This angled microfinger is a left‑angled manipulation tool designed for delicate tissue retraction and iris manipulation in ophthalmic microsurgery. The angled configuration permits access to temporal and nasal quadrants of the anterior chamber with minimal handle intrusion into the operative field. Stainless steel construction ensures reliable performance and easy sterilization.
This microvascular needle holder without lock provides delicate needle purchase for corneal and conjunctival microsurgical closure. The standard curved geometry follows the natural hand arc, enabling fluid wrist motion during fine suturing. The absence of a locking mechanism permits rapid needle exchanges in fast-paced anterior segment cases.
This extended-length 140mm microvascular needle holder without lock accommodates deeper corneal and scleral suturing applications, including limbal keratoplasty and penetrating keratoplasty wound closure. The standard curve supports natural hand positioning while maintaining tactile control for fine stitch placement.
The Ahmed grasping forceps is a 23‑gauge curved MICS instrument designed for secure IOL manipulation and seating during cataract implantation. The 35mm length accommodates small‑incision workflows while the curved shaft geometry aligns with anterior chamber entry angles. Stainless‑steel construction supports reliable performance and lasting durability in repeat use.
Ahmed grasping forceps are engineered for secure IOL manipulation during 23ga minimally invasive phacoemulsification. The straight shaft geometry maintains anterior chamber access, while the delicate grasping tips enable stable IOL engagement without haptic deformation. Compact 35mm design supports precise positioning within micro‑incision constraints.
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.
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.
Built for micro‑incision cataract surgery, this 1.6mm 3D diamond knife features asymmetrical bevels that create a three‑plane self‑sealing wound. The angled approach and extended 6mm blade facilitate single‑hand entry through 1.6mm clear corneal incisions. Titanium mount ensures rigidity and corrosion resistance across many cases.
Engineered for micro‑incision clear corneal entry, this 1.8mm diamond knife combines a 90‑degree sharp‑sided spear with an angled J‑slot handle for single‑hand control. The 4mm blade length and titanium mount deliver precision and durability during MICS procedures. The geometry supports self‑sealing wound profiles with minimal postoperative astigmatism.
The MICS clear cornea diamond knife advances micro-incision surgery with a 2.2mm sharp-edged geometry optimized for 90-degree incision planes. Its angled DOP and J-slot bayonet handle preserve the surgeon's visual axis during entry and provide secure blade guidance. The 0.17mm profile resists wound gape while the 6mm blade length ensures sufficient cutting span.
This MICS diamond knife extends clear cornea technology to 2.4mm entry widths while maintaining a 4mm blade length for controlled single-pass incisions. The 90-degree sharp-sided spear creates a consistent wound plane with minimal stromal trauma, while angled J-slot geometry lets surgeons modulate approach angle without moving the patient. Black-gold titanium resists corrosion across many cases.
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.
This MICS Hoffman‑Ahmed horizontal scissors combines a 21ga curved shaft with precision cutting geometry for controlled dissection and membrane separation in micro‑incision cataract surgery. The 35mm compact working length and curved blade profile support access through small clear corneal incisions while maintaining visibility. The stainless‑steel construction provides reliable edge retention across repeated microdissection.
This MICS Hoffman‑Ahmed horizontal scissors is optimized for ultra‑fine dissection through 23ga micro‑incision ports during contemporary minimal‑incision cataract extraction. The curved 35mm blade profile accommodates tight anterior chamber anatomy while maintaining precise cutting control for membrane and tissue separation. Stainless‑steel construction ensures reliable edge sharpness across extended minimally‑invasive procedures.