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The MacKool‑Inamura capsulorhexis forceps features cross‑action tips angled 45 degrees from the shaft with a 1.5mm width at the pivot point, enabling entry through incisions as small as 1.8mm. The 11mm bend‑to‑tip geometry and laser‑marked shaft (2.5mm/5mm) guide consistent capsulorhexis sizing. The long flat ergonomic handle reduces hand fatigue during delicate tissue manipulation.
Features & Benefits
The Maloney capsulorhexis forceps combines gently curved titanium jaws with ultra‑fine tips suited to precise continuous circular capsulorhexis in routine and microincision cases. The titanium construction offers reduced weight and corrosion resistance. The gentle curve and fine tips enable controlled capsular flap creation without tearing.
The Manhattan eye and ear suturing forceps features straight shafts with 1 × 2 fine teeth and serrated handle suited to standard anterior segment suturing across cataract and corneal procedures. The straight geometry enables clear visualization during knot placement, and the fine tooth pattern ensures consistent grip. Durable construction supports routine sterilization cycles.
Manhattan Eye and Ear suturing forceps are designed for precise knot tying in ophthalmic procedures. The 90-degree angled tips position the grasping surface in line with the instrument shaft, allowing direct visualization of the suture knot. The 1 × 2 tooth configuration provides secure and reliable grasp.
These Sinskey tying forceps feature curved delicate tapered smooth jaws with a three‑hole spring handle, supporting controlled suture guiding across curved scleral surfaces.
The Masket capsulorhexis forceps is built for extremely delicate anterior capsule manipulation during phacoemulsification. Its angled vaulted shanks and triangular grasping tips create a near‑tactile interface with capsular tissue, minimizing perforation risk during continuous curvilinear capsulorhexis. Stainless steel construction ensures durability during the precision work required at the capsular margin.
The Masket Utrata Capsulorhexis Forceps is specifically engineered for initiation and completion of the anterior capsular opening in cataract surgery. Its extremely delicate vaulted angled shafts and triangular grasping tips engage the anterior capsule edge with minimal trauma and slip resistance. The 11mm bend‑to‑tip geometry and three‑hole handle enable controlled, stable corneal curvature engagement during the critical rhexis maneuver.
Maumenee corneal Colibri forceps with 0.1mm ultra‑fine angled tips and 1×2 teeth set at 45 degrees deliver maximum sensitivity for anterior lens work. The cross‑action serrated handle and 5mm tying platform enable precision suturing in capsular and corneal procedures; the gentle curve improves access to peripheral zones.
Maumenee corneal Colibri forceps (90‑degree variant) pair 0.1mm ultra‑fine angled tips with 1×2 teeth set perpendicular to the shaft for rotational flexibility during tight anterior segment work. The cross‑action mechanism and 5mm tying platform optimize knot tying and suture placement in confined zones.
The Maumenee Corneal Forceps is a Colibri-style precision instrument designed specifically for delicate corneal and capsular manipulation during microsurgery. Its 0.12mm ultra‑fine tip with 1 × 2 teeth set at 90 degrees enables gentle tissue engagement without the slipping risk associated with flat-jaw designs. The cross‑action squeeze spring three‑hole handle provides biomechanical advantage for sustained microsurgical work, and the extra‑delicate profile minimizes tissue trauma.
The McCullough utility forceps combines serrated grasping surfaces with a right‑angle blade geometry suitable for retraction and tissue handling across general and ophthalmic fields. The serrated handle ensures positive grip control, and the straight 46mm shaft supports moderate‑depth work. Polished finish enhances durability.
These McCullough utility forceps combine serrated jaws with straight shafts for versatile tissue grasping. The 15mm smooth jaws deliver balanced grip on general tissue, and the 93mm compact length suits handling in confined fields.
The McPherson suture forceps features 45-degree angled geometry with 0.3mm micro-tips and 1 × 2 interlocking teeth for corneal and anterior capsule tying. The 6mm tying platforms and 10mm bend-to-tip distance optimize ergonomic suture positioning, while the three-hole handle design delivers secure fingerhold without cramping. This instrument supports fine interrupted and continuous closure techniques.
The McPherson suture forceps are angled 45 degrees with ultra‑fine 0.4mm tips and a 1 × 2 interlocking tooth pattern for secure suture manipulation during corneal and limbal wound closure. The tying platforms support reliable knot tying, and the lightweight three‑hole handle reduces overall instrument mass for sustained microsurgical control. The 7mm bend‑to‑tip geometry provides clean access at the operative site.
McPherson corneal-suturing forceps are precision instruments for fine suture placement and knot tying at the limbus and cornea. The 1 × 2 interlocking tooth pattern engages sutures securely without slipping. A 45-degree angle optimizes visualization and access to corneal tissue.
These McPherson suturing‑corneal forceps combine 1 × 2 teeth with a 5mm tying platform, allowing the surgeon to grasp corneal tissue and tie suture without changing instruments. The serrated handle gives controlled finger purchase during knot rotation, and the compact 86mm length keeps the tying motion close to the field.
These McPherson tying forceps use 0.4mm straight tips with 1×2 teeth oriented at 90�, paired with a tying platform for secure knot advancement. The three‑hole handle increases rotational precision during delicate suture work.
McPherson tying forceps anchor 10‑0 and 9‑0 monofilament suture during corneal and scleral wound closure. The 18mm straight shafts and 5mm tying platforms give the surgeon a clean surface to wrap and pull throws without abrading fine suture. The three‑hole handle reduces mass at the fingertip for sustained microsurgical tying.
Angled McPherson tying forceps with 5mm platforms, sized for cataract and corneal suture tying through a side‑approach. The angled shafts clear the surgeon's line of sight to the knot, and a three‑hole handle reduces mass while giving consistent spring tension over long cases. Overall length is 105mm.
The McPherson tying forceps in straight configuration features 8mm tying platform and serrated handle suited to efficient IOL and corneal knot placement. The straight geometry supports clear visualization of knot formation, and the broad platform distributes tying force evenly. Durable stainless steel construction supports routine sterilization cycles.
The McPherson tying forceps is a precision micro-ophthalmic instrument featuring 0.3mm fine tips and 6mm titanium carbide tying platforms. Its 45-degree angled geometry provides optimal positioning for delicate knot management during cataract and corneal procedures. The flat 6mm wide handle supports stable, controlled micro-movements.
The McPherson titanium angled tying forceps combines lightweight, corrosion‑resistant titanium construction with a compact 4mm tying platform for ultra‑fine corneal and scleral wound closure. Its angled geometry provides excellent visualization of the operative field, while the serrated handle supports secure grip without hand fatigue. The 82mm overall length permits precise movements in confined anterior chamber spaces.
These titanium McPherson tying forceps are angled and include 5mm tying platforms for secure knot support. The three‑hole handle and 105mm overall length enhance rotational and axial control.
The McPherson tying forceps features 7.5mm tying platforms�broad flat working surfaces that stabilize sutures during knot formation. The angled shaft at 105mm length positions the platforms optimally for wound closure at the cornea and limbus. Titanium construction provides rigidity and corrosion resistance through repeated sterilization cycles.
The titanium McPherson tying forceps combines straight configuration with 4mm tying platform and reduced weight compared to stainless steel. The compact platform suits microincision cataract surgery approaches, while titanium construction offers corrosion resistance. Lightweight design supports efficient tying without hand fatigue during extended cases.
The Mendez LASIK forceps features a spatulated jaw configuration and smooth tips optimized for delicate corneal flap manipulation during refractive procedures. The vaulted shaft geometry elevates the tip area away from the incision site, reducing pressure on adjacent stromal tissue. Stainless steel construction provides the reliability required for controlled flap folding and repositioning.
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‑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.
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.