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The O'Gawa DSAEK forceps for donor button insertion features 12mm angled shafts with delicate 1mm paddle tips for controlled graft manipulation during Descemet stripping endothelial keratoplasty. The round knurled handle provides secure grip during the insertion sequence. The angled geometry optimizes anterior chamber access and graft positioning.
Features & Benefits
The O'Gawa lens dialer is engineered for controlled manipulation of intraocular lenses during implantation and alignment. Its angled shaft with collar-button tip allows fine rotational positioning of the IOL within the capsular bag. A round handle supports fingertip control during critical lens centering.
The O'Gawa mini dialer delivers ultra-precise nucleus positioning in cataract extraction with its 0.25mm tip and angled 11mm working distance. Titanium construction provides lightweight control, while the round handle and 121mm overall length support sustained manipulation during phacoemulsification sequences. The tapered tip enables gentle nuclear fragmentation and repositioning within the capsular bag.
The O'Gawa-style suture forceps in titanium delivers curved geometry optimized for fine wound closure work. Its 0.12mm ultrafine tip with 1 × 2-tooth pattern grips delicate sutures without deformation, while the 6mm tying platforms provide stable positioning. The round ergonomic handle supports prolonged, fatigue-free manipulation during intricate corneal and limbal closure.
These O'Gawa‑style suture forceps carry a 1 × 2 tooth pattern at a 0.12mm tip, paired with 6mm tying platforms for combined grasping and knot management during corneal and scleral closure. The straight shafts route directly to the wound, and a round handle balances at the fingertip for sustained microsurgical tying. Titanium construction adds rigidity and corrosion resistance over many sterilization cycles.
The O'Gawa curved tying forceps features 5.5mm tying platform with 0.3mm gap at platform heel, enabling smooth suture transition during efficient IOL and corneal knot placement. The curved shafts provide ergonomic access while the refined O'Gawa geometry enhances tying control. The gap design minimizes suture trauma during knot formation.
This O'Gawa curved tying forceps variant features 5.5mm tying platforms with 0.3mm gap at platform heel, providing alternative curved configuration for ergonomic IOL and corneal knot placement. The curved shafts suit natural surgical positioning angles while the gap design minimizes suture trauma. Each variant supports efficient tying across routine cases.
The O'Gawa straight tying forceps features 5.5mm tying platform with 0.3mm gap at platform heel suited to efficient IOL and corneal knot placement with clear visualization. The straight shafts enable unobstructed view of knot formation, and the refined gap design minimizes suture trauma. The O'Gawa geometry enhances consistent tying across varied suture materials.
This O'Gawa‑Utrata capsulorhexis forceps features angled shafts optimized for clear corneal access during anterior capsular manipulation and continuous capsulorhexis. Titanium construction combines exceptional rigidity with superior corrosion resistance for lasting durability across many surgical cases. The round handle supports natural rotation and tactile feedback during the procedure.
The O'Gawa‑Utrata capsulorhexis forceps is engineered for controlled, circular continuous capsulorhexis during phacoemulsification. Its fine angled tips, 11.5mm angled shafts, and iris stop feature provide safe, repeatable anterior capsule grasping without perforating the membrane. The round handle and dull finish support secure handheld control, while the 100mm overall length facilitates optimal ergonomic positioning.
The fine O'Gawa‑Utrata capsulorhexis forceps provides secure grasping and controlled capsular incisions throughout continuous capsulorhexis. Angled shaft geometry improves approach angle and visualization during clear corneal capsulotomy. The round handle supports natural rotation and tactile feedback during the procedure.
Synechiae separation requires atraumatic dissection, and the Obstbaum spatula is engineered for this critical task. Its 10mm tip?to?bend and flat smooth handle enable precise, controlled dissection along the angle recess and corneal surface. This reusable instrument supports careful synechiae lysis during complicated anterior segment cases.
The Ohji‑Tano trocar forceps integrate tungsten carbide serrated tips with a 25‑gauge angled shaft for precise vitreoretinal access and membrane grasping. The 15 degrees angle improves approach geometry during posterior segment membrane work, and the 6mm serrated TC‑coated tips provide reliable tissue grip without slipping. At 83mm with flat handle, the instrument balances control and reach.
This 25‑gauge curved olive‑tip capsule polishing cannula carries a 1mm sandblasted bulbous tip that abrades residual cortical material along the posterior capsule without scoring. The 28mm overall length suits standard phaco incision access, and single‑use sterile delivery removes reprocessing variability.
The Olk retinal pick features a delicate 0.5mm angled tip at 110 degrees, allowing precise elevation and manipulation of retinal tissue during vitreoretinal procedures. Its round knurled handle offers secure fingertip control during fine manipulation of posterior segment structures. At 124mm, the instrument provides balanced reach for vitreous cavity work while maintaining the tactile sensitivity required for retinal work.
The Olk angled retinal pick combines a 130-degree angulation with a dull 0.5mm tip for controlled vitreoretinal manipulation. During retinal detachment repair and epiretinal membrane peeling, the angled geometry provides optimal approach angles to the retinal surface without excessive shaft length. Stainless steel construction ensures lasting durability across repeat reprocessing.
Engineered for vitreoretinal membrane work, the Olk retinal pick presents a 0.5mm tip on a 150 degrees angled shaft that hooks beneath epiretinal membranes without engaging the underlying retinal surface. The steep angulation clears the trocar cannula while preserving a view of the macular contour. Dull finish on the 123mm length suppresses reflection during indirect‑lit vitrectomy.
The Olk retinal spatula is engineered for delicate retinal surface manipulation, gliosis tissue dissection, and membrane peeling during vitreoretinal surgery. Its 130‑degree angled geometry and 0.5mm triangular tip provide fine, controlled contact with retinal tissue, while the 4mm flat surface distributes pressure across wider tissue planes to minimize indentation artifact. Dull finish and knurled handle support extended surgical technique without fatigue.
Angled 150 degrees with a 0.5mm triangular tip and 4mm flat working surface, this Olk retinal spatula is shaped for posterior segment maneuvering during vitreoretinal work. The dull finish reduces glare under microscope illumination, and the round knurled handle gives stable rotational control. Overall length of 127mm supports steady reach across the globe.
The Ong speculum in small left configuration provides narrow‑field glaucoma exposure with minimal tissue trauma. The 13mm wide × 12.5mm deep blade geometry suits glaucoma surgery approaches where standard larger speculums obstruct necessary angles. The left orientation accommodates varied surgeon positions.
Built for nasal‑side glaucoma exposure on the right eye, this small Ong speculum opens the lids with 13mm wide × 12.5mm deep blades that hold the field steady during trabeculectomy or tube shunt work. The compact footprint clears the surgeon's working zone over the limbus without crowding the conjunctival flap. Its stainless construction holds spring tension across repeated cases.
This 16 × 16" ophthalmic aperture drape carries a 60mm aperture sized to expose the operative eye while preserving the sterile field across the face and surrounding tissue. The square format suits most ophthalmic OR layouts, and the 10‑per‑box configuration supports routine case stocking.
This ophthalmic aperture drape isolates the operative field during anterior segment and refractive procedures. The 50 × 30mm aperture accommodates standard eye preparation while the full 19 × 15 inch drape secures broader periorbital coverage. Individually sterilized units simplify field setup and maintain the sterile barrier throughout surgery.
This ophthalmic burr power handle accommodates compatible burr tips for controlled mechanical debridement. Its ergonomic grip enhances stability while the motor-drive interface enables smooth rotational operation.
These ophthalmic burrs are designed for debridement of corneal and scleral surfaces during ophthalmic procedures. Their precise abrasive heads support controlled removal of surface tissue, and each package contains five sterile units.
Ophthalmic drapes must isolate the surgical field while accommodating both superior and inferior periorbital anatomy. This incise drape measures 50.75 × 47.5 inches, providing expansive coverage for routine cataract and corneal procedures. The adhesive aperture maintains sterile barrier integrity while the individual sterile packaging supports predictable field setup across cases.
This 19‑gauge curved ophthalmic laser endoscope enables high‑resolution visualization of the posterior vitreous cavity and retinal surfaces during endodiode laser therapy or transscleral cyclophotocoagulation. The curved design navigates pars plana access during minimally invasive glaucoma or retinal procedures. Its reusable construction supports repeated clinical use.
This 19‑gauge curved ophthalmic laser endoscope is specifically compatible with the Iridex laser system for endodiode cyclophotocoagulation. The high‑resolution optical design provides clear real‑time visualization of ciliary process and retinal surfaces during laser ablation. Its robust construction supports reliable performance across multiple clinical cases.
This two‑piece refractive drape isolates the operative field during LASIK and PRK procedures with a configured 38 × 25mm aperture that accommodates standard corneal zones. The 16 × 10.5 inch dimensions support limbal‑to‑limbal positioning, and individually sterile pouches ensure clean field management case‑to‑case. The non‑adherent surface reduces irritation to exposed periocular tissue during extended excimer exposure.
This thin-blade orbital retractor-elevator serves periocular, lacrimal, and orbital wall surgery where malleable ribbon geometry protects underlying neurovascular structures from blunt trauma. Gentle S-curve accommodates anatomical orbital contours, while dual-ended 10mm and 14mm widths address varied tissue planes. Dull finish minimizes glare. Flexible design permits hand-contouring to orbital anatomy without deforming irreversibly.