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Engineered for IOL haptic engagement, the Lester lens manipulator combines a straight shaft with a 0.2mm hourglass-shaped tip that catches the haptic without slippage. The round knurled handle supports rotational control, and the 115mm overall length keeps the tip balanced during anterior segment work.
Features & Benefits
Connor ball manipulators are precision instruments for gentle lens nucleus and cortex manipulation during phacoemulsification. The straight 115mm shaft and fingertip ball tip allow the surgeon to rotate or position the nucleus within the capsular bag without risk of zonular trauma. The direct access design maintains excellent visualization of anterior chamber anatomy.
A flattened tear‑drop paddle gives this Drysdale nucleus manipulator a generous contact surface for guiding the lens and IOL haptics within the capsular bag. The straight 114mm shaft passes through a corneal paracentesis with the paddle oriented for broad, atraumatic pressure against the optic. A round knurled handle keeps rotational placement predictable through the small range of motion typical of phaco quadrant work.
This angled Anis nucleus ball‑tip manipulator incorporates a 0.5mm spherical tip and an 11mm bend‑to‑tip design for controlled approach paths. The round knurled handle enhances tactile feedback during intraocular maneuvers.
This Connor wand ball manipulator pairs an angled shaft with a ball-tip working end for atraumatic IOL haptic engagement and nucleus rotation. The 115mm overall length keeps the tip balanced through small phaco incisions, and the rounded contact surface minimizes endothelial or capsular trauma.
This stainless‑steel Drysdale nucleus manipulator includes a 0.7mm tip and a 10mm tip‑to‑bend geometry for controlled rotational and lifting maneuvers. The round knurled handle provides secure tactile control during lens manipulation.
The Lester lens manipulator carries an angled shaft with a 0.2mm hourglass‑shape tip on a round knurled handle, sized for IOL positioning and capsular bag dialing during cataract surgery. The hourglass tip engages haptic eyelets cleanly, and the round knurled handle delivers steady fingertip rotation.
This titanium Anis ball‑tip manipulator features an angled distal tip with an elongated 0.6mm × 0.8mm ball profile for enhanced reach and gentle nucleus engagement. Titanium construction provides excellent balance and reduced hand fatigue.
On this Anis nucleus manipulator, a 0.5mm ball tip curves at the very end of an 11mm bend‑to‑tip, giving the surgeon an atraumatic point of contact for engaging and rotating the nucleus inside the capsular bag. The standard‑curve angled shaft seats through a clear corneal incision, and the round knurled handle keeps the 114mm instrument steady during quadrant manipulation. The polished ball geometry minimizes capsular snag during repositioning.
This Anis nucleus ball‑tip manipulator includes a straight 0.5mm spherical tip with a curved end for secure nucleus guidance. The round knurled handle provides enhanced tactile precision during cortical and nuclear manipulation.
The Barrett-style nucleus rotator combines a 0.65mm mushroom-shaped tip with a 10mm bend-to-tip angle, optimized for controlled lens manipulation. The 120mm handle length and angled geometry support stable maneuvers during nucleus segmentation and rotation within the capsular bag. Stainless steel construction provides durable performance across multiple sterilization cycles.
This Batlle ICL manipulator is titanium with an angled vaulted shaft and a round roughened tip for controlled phakic lens rotation and positioning. The handle design supports stable intraocular use.
Optimized for horizontal lens insertion, this Connor wand ball manipulator features a curved shaft geometry that naturally orients toward the capsular bag opening. The ball tip design provides atraumatic purchase on IOL optics during positioning maneuvers. 115mm overall length and curved approach angle minimize hand fatigue during lens centering and fixation steps.
Featuring a straight shaft with thicker custom design and ultra-fine 0.35mm ball tip, this Connor manipulator suits delicate IOL positioning in cases with compromised capsular integrity or posterior capsule issues. The enhanced shaft rigidity prevents unintended tip deflection, while the minimal tip diameter minimizes contact trauma. 115mm length and stainless steel reusable construction support refined surgical workflows.
The Connor Wand Ball Manipulator features a titanium angled shaft with a ball-tip geometry designed for safe nucleus rotation and positioning. The 114mm length and angled configuration support ergonomic maneuvering within the anterior chamber during divide-and-conquer and other phacoemulsification techniques. Titanium construction combines rigidity with corrosion resistance for lasting durability across multiple surgical cases.
This Connor wand ball manipulator is titanium with a curved shaft and 115mm overall length for controlled anterior chamber navigation. The spherical tip supports gentle lens and tissue manipulation.
This straight-shaft Connor Wand Ball Manipulator delivers the same ball-tip safety profile as its angled variant, optimized for surgeons preferring direct anterior-posterior approach geometry. The titanium construction and 114mm working length support precise nucleus manipulation during rotation and segmentation. Straightforward geometry reduces resistance within the capsular bag during dense nucleus cases.
The Connor Wand provides stable, atraumatic nucleus positioning during phacoemulsification through its 6mm titanium ball tip and angled shaft geometry. This manipulator excels during divide-and-conquer and nucleofractis techniques, offering precise rotational control of dense nuclei within the capsular bag. Titanium construction combines rigidity with corrosion resistance for durable reprocessing across repeated cases.
This Drysdale nucleus manipulator and capsule polisher features a flattened paddle tip with a large teardrop‑shaped surface for broad nucleus support and polishing. The round knurled handle provides stable control during intraocular lens manipulation and cortical clean‑up.
The Drysdale nucleus manipulator carries a flattened paddle tip in a teardrop shape that presents a large surface area against the nucleus during phacoemulsification. The straight shaft suits direct in‑line manipulation, and the broad tip distributes contact force without indenting the nuclear surface.
The Drysdale nucleus manipulator with round knurled handle and flattened design provides stable, ergonomic nuclear control. The distinctive handle geometry minimizes hand fatigue during extended phacoemulsification procedures while supporting precise nuclear positioning.
This titanium Drysdale nucleus manipulator features a 0.7mm fine tip and a 10mm tip‑to‑bend configuration for refined intraocular work. The round knurled handle ensures superior handling precision in demanding microsurgical procedures.
Engineered for ICL and toric lens insertion, the Filutowski-Connor wand manipulator with its 0.6mm ball tip and angled shaft provides atraumatic positioning of complex intraocular lenses. The non-tapered shaft design ensures consistent contact geometry throughout the insertion maneuver. 115mm overall length and angled approach suit modern small-incision IOL implantation.
This 0.7mm-tip variant of the Filutowski-Connor wand manipulator suits toric and phakic IOL positioning with slightly increased surface contact compared to the 0.6mm version. The angled shaft and non-tapered design deliver consistent mechanical stability during the critical orientation phase of lens insertion. Stainless steel construction and 115mm length integrate into standard anterior segment workflows.
The 0.8mm ball-tip variant of the Filutowski-Connor wand manipulator maximizes contact area for larger or more rigid IOL designs while maintaining atraumatic surface geometry. The angled non-tapered shaft provides mechanical leverage during insertion maneuvers in dense capsular conditions. Stainless steel reusable format supports efficient case scheduling in high-volume cataract surgery centers.
This 0.95mm-tip Filutowski-Connor manipulator provides maximum contact surface for oversized or rigid IOL platforms while preserving the smooth ball geometry that prevents lens coating abrasion. The angled non-tapered design maintains alignment during insertion in cases with tight capsular rhexes or fibrotic capsules. 115mm overall length suits contemporary phaco handpiece reach and ergonomics.
The Goldberg sideport nucleus splitter/manipulator is a single‑ended instrument designed for controlled nuclear fragmentation and hemisection during phacoemulsification, particularly in dense cataracts. The splitter blade geometry permits precise bisection of the nucleus along predetermined planes, reducing phaco time and energy requirements. Stainless steel construction ensures durable performance through repeated casework.
The Graether sideport manipulator is an angled ophthalmic tool designed for corneal topography and anterior segment positioning during phacoemulsification. Its 10mm tip provides tactile feedback and controlled pressure on the lens nucleus during rotation and repositioning without direct endothelial contact. The angled geometry preserves the surgeon's visual axis throughout the procedure.
This Grayson nucleus manipulator provides direct control during lens division and rotation in divide‑and‑conquer phacoemulsification. The flattened paddle tip with a defined internal edge supports stable nucleus manipulation and controlled chopping maneuvers. Its straight shaft and round handle deliver balanced ergonomic performance for precision nucleus management.
Optimized for left-handed surgeons, this Inamura nucleus divider/manipulator combines chopping and supporting functions in a single instrument. The hybrid design simplifies instrument exchanges during phacoemulsification while supporting controlled nucleus disassembly. Stainless steel reusable construction suits integration into standard sterilization trays.