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Hoffman-Ahmed horizontal scissors support precise dissection during 23ga minimally invasive cataract and glaucoma surgery. The straight shaft geometry maintains visualization through micro-incisions, while the horizontal cutting action enables controlled tissue separation in confined anterior chamber spaces. At 35mm length, the instrument delivers precision control without bulk.
Features & Benefits
These vertical scissors are engineered for precise IOL haptic transection during intraocular lens explantation and exchange procedures. The 23‑gauge straight shaft provides controlled passage through small incisions, while the vertical blade orientation enables clean cutting without subluxating the lens. Stainless‑steel construction is built for reliable performance and lasting durability across repeat cases.
Engineered for implantable collamer lens (ICL) positioning, this straight‑shaft MICS grasping forceps maintains precise control during phakic lens placement and centration. The 35mm working length supports small‑incision anterior chamber access, while the straight geometry provides predictable maneuverability. Stainless‑steel construction is built for reliable performance and lasting durability across repeat clinical use.
This 23‑gauge IOL holding forceps delivers controlled grasping of intraocular lenses during implantation and orientation within the capsular bag. The curved shaft geometry follows anterior chamber anatomy, while the fine 0.6mm tip minimizes contact marks on the optic. Stainless‑steel construction is built for reliable performance and lasting durability across repeat surgical use.
The Seibel capsulorhexis forceps is a 23‑gauge MICS instrument designed with etched rhexis marks spanning 1 to 6 millimeters for controlled anterior capsule opening. The curved shaft provides natural anterior chamber access in micro‑incision workflows, while the sharp tips and engraved sizing guides support reproducible circular opening creation. Stainless‑steel construction is built for reliable performance and lasting durability across repeat clinical use.
The MICS Seibel capsulorhexis forceps is purpose‑built for micro‑incision cataract surgery, combining a 23ga curved shaft with blunt grasping tips and etched rhexis marks from 1 to 6mm. The fine gauge and precise tip geometry enable controlled capsular rim engagement without corneal incision enlargement. Use with the DUO‑00 modular handle for stable bimanual capsulorhexis creation in MICS cases.
Designed for small‑incision cataract procedures, this trapezoid‑profile diamond knife tapers from 1.1‑1.4mm with a straight dop for controlled blade approach. The 0.17mm ultra‑thin blade and tapered geometry enable predictable wound architecture with minimal incision trauma. Titanium construction supports durable performance across many sterilization cycles.
The MICS trapezoidal diamond knife offers graduated incision widths from 1.8 to 2.4mm in a single blade, with laser-marked sizing bands for intuitive surgeon selection. Its tapered spear geometry and angled DOP preserve wound architecture across the stepping profile. The 0.17mm thickness and J-slot bayonet handle support precise, controlled entry with minimal tissue trauma.
Designed for micro‑incision cataract surgery (MICS), this trapezoid tapered CVD diamond knife offers preset laser guides at 1.8mm, 2.2mm, 2.4mm, and 2.75mm to mark incision width options. The 1.8mm starting width tapers smoothly to 2.75mm, enabling surgeons to choose their target incision size while maintaining ultra‑precision blade thickness (0.17mm). Black Gold Titanium J‑slot bayonet construction delivers both control and durability for repeated MICS cases requiring exacting corneal access.
The Minami "M" hook features a multi‑angled shaft and teardrop‑shaped tip designed for controlled iris manipulation and sector isolation during pupil‑stretching or iris‑repositioning maneuvers. The angled geometry supports visibility and precise tip placement. Round knurled handle delivers tactile control during delicate iris tissue handling.
The Minardi‑style angled phaco chopper delivers a 0.75mm sharp pointed tip at 10mm from the bend, optimizing nuclear engagement and subdivision geometry. Angled shaft positioning supports ergonomic hand angle during right‑eye procedures while maintaining optimal chamber view. Overall length of 108mm supports steady intracameral control.
The mini‑crescent design knife combines a 1.25mm blade with double‑beveled geometry for corneal incision in ophthalmic cataract and refractive procedures. The angled bevel profile ensures smooth wound entry that maintains anterior chamber integrity. Disposable format supports single‑use sterility across patient cases.
These mini-curved Westcott tenotomy scissors feature 4mm blunt tips optimized for fine conjunctival and episcleral dissection during muscle surgery or pterygium removal. The Vannas-style flat handle ensures precise control during careful superficial cutting. Their compact length supports exceptional visibility in delicate anterior-segment fields.
These left‑handed miniature corneal scissors feature a delicate blade profile with the lower blade extended 0.5mm beyond the upper, enabling fine unilateral cutting during corneal and limbal procedures. The 9mm blade length supports precision dissection in narrow surgical spaces, while the extended lower blade geometry ensures consistent contact and smooth cutting through tissue planes. Compact design balances maneuverability with control.
These right‑handed miniature corneal scissors feature a delicate blade profile with 0.5mm lower blade extension, providing fine unilateral cutting control during anterior segment procedures. The 9mm blade length permits precision dissection in narrow limbal and conjunctival fields, while the extended lower blade maintains consistent cutting edge contact throughout the cut. Miniature geometry supports dexterous control in confined surgical spaces.
This #69 miniature disposable blade delivers full radius geometry with a double‑edge profile for versatile intraocular incision work during cataract and vitreo‑retinal procedures. The double cutting edge extends utility across varied anatomic approaches. Sterile single‑use packaging ensures consistent blade geometry and sharpness.
This Miyajima adjustable aspirating speculum is designed for patients with small palpebral fissures using a compact retraction profile for controlled exposure. The adjustable tension and aspiration channel help maintain visualization during anterior segment procedures in narrower ocular anatomy.
The Miyoshi aspirating speculum combines a fixed speculum frame with integrated aspiration capability for conjunctival and corneal work. This dual-purpose design allows the surgeon to maintain field visibility while clearing blood and epithelial debris in a single instrument. The adjustable closure supports accommodation of varying eyelid anatomy.
This Miyoshi Z‑LASIK nasal speculum incorporates 11mm round open-wire blades aligned parallel at 25mm for stable corneal and nasal access. The upward nasal-bridge angle enhances approach alignment, while the corrected 76mm length provides compact, ergonomic control.
This modified Alfonso-style speculum is engineered for compact refractive and phacoemulsification procedures where minimal instrument footprint is critical. The 6mm solid blades and 27mm spread accommodate delicate periocular tissue while maintaining clear access to the anterior segment. The 45mm overall length supports microincisional approaches.
The Monarch II loading forceps is designed for precise IOL cartridge manipulation and fold-free lens insertion during cataract surgery. Its three-hole handle geometry provides secure fingertip control during critically balanced loading motions. The serrated flat handle resists rotational slip, enabling surgeons to maintain consistent cartridge orientation through the incision.
This monopolar electrosurgical cable connects bovine‑compatible generators to ophthalmic instruments with standardized pin connectors for predictable current delivery. The straight configuration supports unobstructed lead routing in confined ophthalmic fields. Reusable construction and compatible connector interfaces simplify equipment integration and charger accessibility in multi‑generator OR environments.
These Moody fixation forceps carry 1 × 2 teeth on a 0.5mm left‑curved tip for securing globe or conjunctiva during cataract entry and counter‑traction. A thru‑handle click‑lock thumb release engages and disengages the hold without breaking microscope focus, and the three‑hole handle keeps the instrument light through long cases.
Moody fixation forceps grasp the conjunctiva and sclera with a 1 × 2 tooth pattern that holds without slipping during cataract entry, scleral suture passage, or globe stabilization. The right‑curved 0.5mm tips angle into the operative field, and the through‑handle click lock with thumb release lets the surgeon set and free the grip without breaking concentration. The serrated Castroviejo handle is 108mm overall.
The Moody fixation forceps secure the globe during strabismus surgery, with a curved‑right 0.5mm tip carrying 1 × 2 interlocking teeth that hold scleral and muscle insertion tissue cleanly. A thru‑handle click‑lock thumb release engages and disengages fixation between maneuvers, and the three‑hole handle lightens the instrument across sustained strabismus exposure.
The Moody fixation forceps features a standard curve with 2 × 3 interlocking teeth to provide secure corneal and episcleral fixation during ocular surgery. The curved shafts conform to the anatomical contours of the eye surface, enhancing stability. Its 104mm length and flat handle support precise anterior segment work.
This Moran LASIK enhancement spatula integrates a Fukasaku spatula on one end and a miniature Paton spatula on the other. A 12mm bend‑to‑tip angle supports enhanced reach, while the round knurled stainless‑steel handle provides firm tactile control during flap repositioning and epithelial lifting.
This Morrison aspirating cannula features a 23ga shaft angled at 45 degrees with a 7mm tip‑to‑bend distance and a polished finish to support controlled aspiration in confined chamber spaces.
The Mueller-Putterman muscle clamp is a stainless steel instrument designed for precise eyelid muscle repositioning during ptosis repair using the Fasanella procedure. The 22mm wide concaved jaw head holds tissues firmly while the 3 pins per jaw and 4 interlocking grooves distribute gripping force evenly. At 95mm overall length, the instrument provides stable control during delicate eyelid elevation.
Muldoon lacrimal dilators open the punctum and proximal canaliculus through a medium 27mm taper with a straight distal end. The tapered shaft enlarges the lumen progressively as the surgeon advances, easing entry of subsequent probes or intubation sets. A round knurled handle rotates smoothly between the fingers during dilation.