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These angled Bergh cilia forceps reach beneath misdirected lashes for epilation along the lid margin. Pointed tips with serrated jaws grip individual cilia, and the outside bevel keeps the working face flat against the lid for clean extraction. The 89mm overall length seats comfortably between fingers for sustained slit‑lamp work.
Features & Benefits
The Berke ptosis forceps addresses eyelid reconstruction with multi-curved shafts and straight 20mm blades bearing longitudinal serrations. The 110mm length and standard curve geometry favor both upper and lower eyelid muscle or tissue grasping during ptosis repair or eyelid surgery. Slide-lock mechanism provides stable closure without drift during tissue positioning.
This double‑ended Berke‑Jaeger lid plate offers two curved working surfaces � a 23mm blade on one end and a 20mm blade on the other � to back the eyelid during chalazion and lid surgery. The curvature follows the contour of the everted lid for stable support. A dull finish reduces glare under operating lights.
The Berke‑Jaeger insulated lid plate provides curved blade geometry with 23mm/20mm dual sizes suited to blepharoplasty and ptosis repair. Electrical insulation permits safe cautery application during lid surgery without tissue arcing. The dull finish prevents light glare during detailed work, and the dual‑blade design provides surgical flexibility.
Berke-Jaeger lid plates are designed to provide firm support to the upper or lower eyelid during lid surgery and reconstruction. The curved 23mm blade conforms to lid contour and distributes force over adequate tissue surface. Laser black-chrome plating improves visibility and reduces reflection.
The Berke‑Jaeger pediatric lid plate provides proportionally scaled 10mm wide blade geometry suited to smaller eyelid anatomy in children. Curved design accommodates pediatric eyelid contours, and the dull finish minimizes light glare during precision work. Reusable stainless steel construction supports routine sterilization.
This double‑ended Berkeley marker provides both 4mm and 4.5mm corneal reference rings, enabling dynamic correction for variable astigmatism during IOL calculations and implantation. The smooth flat handle ensures precision marking without slipping. At 110mm, balanced length supports microscopic control and corneal contact stability.
The Berkeley double‑ended marker carries 5mm and 6mm etched circles on a smooth flat handle, used for marking intermediate optical zone diameters during refractive procedure planning. The double‑ended design covers two common zones in a single instrument, and the 111mm length suits standard refractive setup.
This Berkeley marker features dual 3.5mm and 3.75mm tips on a single handle to facilitate precise corneal marking for astigmatic correction during cataract and refractive surgery. The smooth flat handle ensures stable positioning against the corneal surface. At 110mm, optimal length supports single-handed marking without fatigue.
The Berkeley marker carries paired 3mm and 3.25mm reference rings on a single instrument, letting the surgeon choose between two closely spaced optical zone diameters during refractive marking. The smooth flat handle supports steady fingertip orientation through ink loading and contact. A 110mm body balances the dual‑ring head for clean impressions.
Stepped up to 4.5mm and 5mm, this Berkeley marker pairs two adjacent optical zone diameters for refractive cases requiring a wider treatment ring. The flat smooth handle keeps the head square to the cornea during ink transfer. A 110mm balanced body produces clean impressions on both passes.
The Berkeley marker with 4 and 4.25mm diameter options delivers dual-size optical axis marking for personalized refractive surgery and toric IOL procedures. The smooth flat handle and 110mm length provide optimal control during marking, while the matched pair of circle sizes supports flexible marking protocols. Stainless steel construction ensures durable reprocessing.
The Berkeley-Thornton optic zone marker is a precision tool for refractive surgery patient marking, providing dual-ended capability for both standard and customized optical zone diameters. The 4mm and 4.25mm ring ends deliver sharp contact marks on the corneal surface without tissue penetration, while the low-profile design minimizes distortion during surgical planning or topography.
Beyer pigtail probe is designed for suture guidance and secure fixation during ophthalmic procedures requiring precise tissue engagement. The 16mm diameter pigtail curve provides a wide loop platform for reliable suture placement, while the blunt end minimizes scleral trauma during manipulation. Suture eyes positioned just behind the blunt end facilitate secure knot management.
This bi‑manual aspirating unit incorporates a curved 21ga capsule‑polishing cannula with a single 0.3mm port for controlled polishing access.
This bi‑manual aspirating unit uses a curved 21ga cannula with a single 0.3mm port and a gold titanium handpiece to support higher‑flow aspiration.
This bi‑manual aspirating unit features a curved 21ga cannula with a single 0.4mm port to support increased aspiration flow through a gold titanium handpiece.
This bi‑manual aspirating unit features a curved 23ga cannula with a single 0.3mm port and a gold titanium handpiece for controlled aspiration during bi‑manual lens removal.
This bi‑manual aspirating cannula tip is a 23ga curved design with a single 0.3mm aspiration port, engineered for selective cortical lens material removal in micro‑incision cataract surgery. The curved 21mm tip geometry conforms to anterior chamber anatomy while the fine gauge and single port permit responsive surgeon‑controlled aspiration flow. Reusable stainless‑steel construction supports extended MICS protocols.
This Rosenwasser irrigating DSEK scrape/endothelial stripper uses a 20ga angled 90‑degree shaft with a blue titanium handle and a 12mm bend‑to‑tip distance to support controlled endothelial scraping.
The bi-manual handpiece is a 21ga curved instrument with a 0.3mm single aspiration port designed for coordinated two-handed cataract and cortical manipulation. Its standard curve geometry aligns with anterior chamber anatomy while the fine aspiration port enables controlled cortical material removal without excessive chamber turbulence. The curved shaft maintains excellent visibility while supporting precise coordinated movements.
The bi-manual handpiece delivers coordinated irrigation-aspiration with one 21ga curved handpiece providing both 0.5mm dual-port irrigation and aspiration. The blue color-coded body ensures quick clinical identification, while the curved geometry supports ergonomic hand positioning during anterior chamber surgery. This design enables surgeons to manage fluid flow with one hand, preserving visibility and bimanual capability.
This bi‑manual handpiece is engineered for multi-function anterior segment surgery using 23ga micro‑incision techniques. The curved geometry accommodates diverse surgical angles, while the 0.3mm single‑port aspiration design with gold capsule-polisher coating enables efficient cortical cleanup without corneal decentration. The micro‑incision platform preserves anterior chamber anatomy and reduces postoperative astigmatism.
This 23ga curved bi‑manual handpiece features a single 0.3mm aspiration port and gold‑colored finish for surgeon‑controlled cortical aspiration during micro‑incision cataract surgery. The curved shaft conforms to anterior chamber anatomy while the fine gauge port delivers precise aspiration response. The handpiece design facilitates ergonomic bimanual manipulation of cortical material.
This 23ga curved bi‑manual handpiece is configured for irrigation with a dual 0.4mm port design and blue color identification for hydrating the anterior chamber during phacoemulsification. The curved geometry accommodates micro‑incision access while the dual‑port irrigation design maintains anterior chamber stability throughout cortical removal phases. The blue coloration distinguishes it from aspiration handpieces.
This bi‑manual handpiece delivers irrigating function with 23ga micro‑incision precision. The straight geometry and 0.4mm dual‑port irrigating design support balanced anterior chamber infusion during phacoemulsification and cortical aspiration. The blue color-coded system enables clear identification and handoff during multi-function MICS procedures.
This bi‑manual irrigating unit uses a blue titanium handpiece with a curved 21ga tip and dual 0.5mm ports for increased irrigation flow in bi‑manual anterior segment procedures.
This bi‑manual irrigating unit features a blue titanium handpiece and a curved 23ga tip with dual 0.3mm ports to support balanced sub‑incisional irrigation during lens manipulation.
This bimanual DSEK Terry irrigating scraper is designed for controlled Descemet‑stripping endothelial keratoplasty support during graft manipulation. The hole‑shaped scraper faces upward, while the 0.4mm posterior port delivers simultaneous irrigation. Blue titanium handle provides lightweight, corrosion‑resistant control during multi‑step graft positioning.
The Binkhorst hooked cannula facilitates anterior-chamber fluid management and IOL positioning during phacoemulsification and implantation. Its 22-gauge straight shaft features a 2.5mm J‑shaped hook at the tip that securely engages the anterior capsule edge during nucleus evacuation and lens positioning. The 32mm overall length excludes hub assembly for compact handling.