Your cart is empty!
The Kellan hydrodissection cannula features a curved 25ga shaft, 22mm long, designed to slide between the anterior capsule and lens cortex for a controlled hydrodissection wave. Its curvature aligns with the capsular periphery, helping the surgeon distribute fluid evenly during cortical cleaving.
Features & Benefits
A 25ga hydrodissection cannula with an 8mm tip, this disposable delivers balanced salt solution beneath the anterior capsule to cleave cortex from the capsular bag. The intermediate gauge offers a measured flow rate suitable for fluid wave propagation without overpressurization. The short tip length suits standard clear‑corneal phaco geometry.
This hydrodissection cannula, 27ga, incorporates an angled shaft with an 8mm bend‑to‑tip distance and a flattened 22mm tip length to support controlled hydrodissection. Supplied sterile in packages of ten.
This ultra‑fine hydrodissection cannula enables delicate cortical separation during nucleus delivery and hydrodissection refinement. The 30 gauge straight geometry with 8mm bend‑to‑tip and flat port creates minimal focal jetting, supporting smooth nucleus mobilization without capsular stress. Disposable single‑use sterility guarantees consistent blade edge throughout the surgical case.
This hydrodissection cannula is designed to deliver controlled fluid wave beneath the anterior lens capsule during cataract nucleus separation. The 25 gauge flat bend with 11mm bend‑to‑tip geometry allows precise positioning across the capsular plane while the angled configuration maintains fluid direction away from the endothelium. Sterile single‑use delivery ensures blade sharpness and case‑to‑case consistency.
With a flat‑bend geometry, this 27ga hydrodissection cannula keeps the shaft low against the iris plane while directing fluid behind the anterior capsule. The 11mm bend gives consistent reach to the capsular equator, and the fine gauge concentrates the hydro wave for efficient cortical cleaving.
This straight titanium I/A tip is paired with a silicone sleeve for sealed irrigation and aspiration during phacoemulsification, with a 0.3mm port and 45mm overall length. The straight shaft suits standard clear‑corneal entry, while the silicone sleeve protects the wound during cortex removal and posterior capsule polishing. Titanium construction supports reliable performance across repeated reprocessing cycles.
Male‑to‑female connection geometry enables rapid adapter securement between irrigation tubing and anterior chamber maintainer or infusion cannula. The plastic construction minimizes glare and thermal conductivity during prolonged surgical use. Sterile single‑use delivery ensures field‑ready performance without presterilization handling.
IOL glide sheets facilitate smooth, atraumatic intraocular lens delivery during cataract surgery. The 35 × 5mm surface with 2.5mm radius and 6mm thickness provides a conform surface that cradles and supports the IOL during insertion. The disposable format eliminates the need for tray sterilization, improving case preparation efficiency.
Tinted blue for in‑field visibility, this polypropylene iris retractor engages the pupil margin through a paracentesis port and holds it expanded during anterior segment surgery. The silicone stopper allows incremental tension adjustment, and the semi‑reusable construction permits limited reprocessing where local protocols allow. Six retractors per pack support four‑quadrant placement with spares.
This angled irrigating cystotome is engineered for precise anterior chamber fluid delivery during cataract and refractive surgery. The 25 gauge construction with 45 degrees angled tip and 3mm straight segment from bend provides controlled access through minimal incisions while maintaining stable tip positioning. The flat configuration directs fluid distribution across the cornea without turbulence.
This 25ga irrigating cystotome features a formed 16mm working length for controlled capsulotomy and anterior chamber fluid delivery during cataract surgery. The fine gauge enables precise cannulation of the anterior capsule with minimal trauma. Single‑use sterile format ensures consistent geometry and tool sharpness for each procedure.
This irrigating cystotome, 25ga, uses a formed 16mm length and is supplied sterile, one per package and ten per box, to support controlled capsulotomy entry with irrigation capability.
This 27‑gauge formed irrigating cystotome opens the anterior capsule with a pre‑bent cutting tip while simultaneously delivering BSS to maintain chamber depth during capsulotomy. The 16mm working length suits standard phaco incision access, and sterile single‑use delivery preserves the cutting edge.
Used to initiate the anterior capsulotomy, this 27ga irrigating cystotome features an angled tip and 16mm working length. The fine‑gauge lumen delivers balanced salt solution while the bent needle tip scores and tears the capsular bag. The angled approach clears the surgeon's view of the capsular flap.
This formed irrigating cystotome delivers consistent irrigation during anterior segment procedures with a compact 22mm overall length. The 25 gauge bore provides fine fluid control while the pre‑formed shaft geometry allows reproducible positioning through small incisions. Stainless steel construction supports reliable sterile single‑use performance.
This 25ga small‑radius irrigating cystotome combines a fine cutting tip with a through‑lumen for simultaneous capsulotomy initiation and balanced irrigation. The 16mm working length suits standard phaco approaches, and the tight tip radius gives the surgeon close control when initiating the anterior capsule flap. Supplied sterile in single‑use packaging for case‑to‑case consistency.
This small‑radius irrigating cystotome features a 27ga lumen on a 16mm (5/8 inch) shaft with a tight tip bend, useful for initiating a precise capsulorhexis tear. The compact bend radius concentrates the cutting edge in a small footprint, supporting controlled propagation of the capsular flap. Continuous irrigation through the lumen maintains chamber depth.
This irrigating cystotome combines a straight fine‑lumen design with integrated fluid delivery for anterior capsule creation during cataract surgery. The 23ga gauge supports controlled aspiration and irrigation simultaneously, while the 16mm length (5/8") provides precise working depth. Single‑use sterility ensures consistent performance without dulling.
A 25ga irrigating cystotome with a straight 16mm (5/8 inch) shaft, this instrument scores and tears the anterior capsule under continuous balanced salt solution flow. The straight geometry suits standard phaco wound orientation, and the bent cystotome tip propagates a controlled tear during can‑opener or transition capsulotomy. The intermediate gauge offers steady flow.
This irrigating cystotome provides fine‑gauge fluid delivery for anterior capsule and hydrodissection work during cataract procedures. The 25ga ultra‑fine lumen reduces turbulence and supports precise fluid control, while the straight geometry ensures stable access. Sterile, single‑use format guarantees consistent performance.
An irrigating cystotome with a straight 27ga shaft and 16mm (5/8 inch) reach, this instrument prepares the anterior capsule for capsulorhexis or can‑opener capsulotomy. Balanced salt solution flows through the lumen while the bent tip scores and tears the capsule, maintaining chamber depth throughout the maneuver. The fine gauge limits stroma disruption at the entry wound.
This 24ga irrigating vectis combines a 5mm‑wide loop with three 0.3mm diameter ports for nucleus expression and controlled irrigation during cataract delivery. The triple‑port arrangement diffuses fluid uniformly behind the lens, while the broad loop supports the nucleus during anterior chamber removal. Stainless steel tubing maintains the formed loop geometry through manipulation.
Shaped into a J‑curve, this 25ga cannula reaches subincisional and peripheral capsular zones that straight cannulas cannot. The 22mm shaft provides full reach across the anterior chamber, and the tight return curve permits irrigation or viscoelastic delivery behind the iris with controlled flow.
A J‑shape cannula with a 27ga lumen on a 22mm (7/8 inch) straight shaft, this disposable delivers viscoelastic or balanced salt solution into hard‑to‑reach chamber regions. The J bend redirects flow laterally while the fine gauge limits turbulence near delicate intraocular structures. The slim profile fits through standard side‑port incisions.
This Kellan‑pattern hydrodelineation needle facilitates subepithelial hydrofissure initiation during nucleus manipulation and cortical separation. The 25 gauge design enables precise positioning within the subcapular space while the eponymous geometry supports smooth hydrofissure advancement. Sterile single‑use delivery maintains predictable blade sharpness for every case.
The Kellan hydrodelineation needle delivers balanced salt solution into the cortex to separate the epinucleus from the endonucleus during cataract surgery. Its 27ga curved 22mm shaft reaches past the capsulorhexis edge for controlled fluid wave propagation along the cortical cleavage plane, supporting cleaner nuclear segmentation.
The Kellan hydrodissection cannula combines a 27ga lumen with a curved shaft on a 22mm (7/8 inch) working length, directing a precise fluid wave beneath the anterior capsule. The curvature follows the capsular contour to deliver balanced salt solution at the equator, supporting clean cortical cleavage. The fine gauge minimizes wound distortion and chamber turbulence.
The Knapp lens spoon with 5mm wide spoon-shaped tip and solid middle support provides atraumatic lens engagement and removal. The solid middle construction minimizes flexing during nuclear manipulation while the smooth spoon design protects posterior capsule.
Tapered from a 19ga hub down to a 23ga tip, this straight lacrimal cannula irrigates the canalicular and nasolacrimal system through the punctum. The tapered transition steps the lumen down for atraumatic punctal entry while the larger proximal bore supports adequate flow. The smooth blunt tip avoids canalicular wall trauma.