Your cart is empty!
These Sheets lens forceps incorporate angled slim jaws with a 10mm platform and a 73mm overall length for delicate lens manipulation. The low‑profile jaw design supports secure grasping in confined surgical spaces.
Features & Benefits
The Sheets‑McPherson tying forceps in 45‑degree angled configuration features 10.5mm tying platform suited to efficient IOL and corneal knot placement across varied incision positions. The angled shafts provide ergonomic surgeon access, and the broad tying surface distributes knot‑forming force evenly. Durable stainless steel supports routine sterilization.
This Shepard capsule polisher doubles as an anterior/posterior curette, with a 1.75mm ring tip that sweeps away residual lens cortex and epithelial cells from the capsular bag surface. The 10mm angled bend-to-tip and round handle provide optimal ergonomic access to both the anterior and posterior capsule in cases with cortical complexity or Soemmering-ring prophylaxis. 121mm overall length suits extended procedures.
The double-ended Shepard capsule polisher is designed for posterior capsule epithelial cell removal following nucleus and cortex extraction. Available in left and right orientations, this stainless‑steel instrument provides the atraumatic contact needed to protect the intact posterior capsule during capsulorhexis cleanup. The polishing geometry minimizes capsular puncture risk during cortical remnant removal.
This Shepard capsule-polishing curette features a 1.75mm ring with semi-sharp edges for controlled capsular surface polishing. The 10mm bend-to-tip angle improves approach geometry, while the round knurled handle enhances fingertip control.
Shepard incision irrigating cannulas wash debris from clear corneal cataract wounds at case end. The 27ga flattened 5mm angled tip enters the corneal incision lip and directs irrigation along the tunnel floor, hydrating the stromal lamellae for wound apposition. Compact 37mm length excluding hub matches anterior segment working depth.
The Shepard incision irrigating cannula is designed for precise fluid delivery at surgical incision sites during corneal grafting and refractive procedures. The 30g flattened blunt tip minimizes tissue trauma while delivering irrigation with directional control. The angled shaft supports ergonomic positioning.
The Shepard intraocular lens forceps fold and deliver foldable IOLs through small phaco incisions. A cross‑action design with 1.45 × 2mm serrated upper and lower jaws grips the optic securely without slippage, and a slide lock holds the lens compressed until release. The curved‑up shaft preserves the surgeon's view of the wound during insertion.
The Shepard IOL insertion forceps combines a curved 18mm shaft with a 1.91mm serrated cross-action grasping tip to deliver gentle, secure IOL handling throughout phacoemulsification and insertion sequences. Titanium construction and dull finish minimize glare and hand fatigue, while the flat serrated handle provides secure grip during precise manipulation. The 108mm working length supports comfortable reach to the bag or capsulotomy margin.
This blunt Shepard iris hook provides safe iris manipulation during anterior segment procedures. The blunt working edge protects the iris tissue from penetrating injury while enabling reliable retraction. Designed for both pupil stretching and posterior capsule protection during phacoemulsification.
Shepard iris hooks provide controlled manipulation of the iris margin during anterior segment surgery. The curved design and 1mm blunt tip allow gentle iris elevation and positioning without tissue trauma. The serrated flat handle ensures a secure grip during delicate iris work.
Safe iris positioning is the goal of the Shepard iris hook, a blunt straight instrument designed specifically for gentle retraction. Its 27mm straight shaft and 127mm overall length provide ample reach for superior or inferior iris sweep without tissue trauma. The flat smooth handle ensures stable retraction control across longer cases.
These Shepard lens holding forceps employ curved jaws with a 20mm mid‑screw‑to‑tip distance to support controlled grasping and stabilization of flexible IOLs. The extended reach accommodates deep‑set loading positions.
These Shepard lens holding forceps secure foldable IOLs during preparation and insertion, with curved jaws that capture the optic without crushing. A locking ratchet holds the lens steady through manipulation, and the serrated three‑hole handle provides oriented fingertip control. The 20mm mid‑screw‑to‑tip length matches the geometry of IOL injector loading.
The Shepard reversible speculum provides dual‑function retraction capability, permitting flexible conversion between temporal and nasal positioning intraoperatively. The reversible design minimizes instrument exchanges, reducing operative time and maintaining sterility during anterior segment procedures. Stainless steel construction supports reliable performance across varied surgical approaches.
Shepard tying forceps in the 45 degrees angled configuration support knot tying away from the operating field during cataract wound closure or IOL haptic positioning. The integrated tying platform provides a flat surface for suture rotation, and a wide serrated handle gives stable fingertip control across the 110mm length. Angled shafts keep the surgeon's hand clear of the corneal apex during knot rotation.
The Shepard tying forceps features 45‑degree angled straight shafts with 5mm bend‑to‑tip design suited to ergonomic IOL and suture tying in varied incision positions. The angled configuration provides natural surgeon positioning while the 5mm tying surface distributes knot‑forming force. Refined design supports efficient knot placement across routine and advanced cases.
The Shepard tying forceps delivers straight-shaft control for wound and IOL manipulation in anterior chamber surgery. Its 4mm tying platform and wide serrated handle enable secure suture grasping and positioning without excessive handle bulk. The extended 110mm length supports consistent reach and tactile control during closures.
The Shepard tying forceps in titanium feature angled 45-degree geometry with wide serrated handle and tying platform, delivering excellent control during phacoemulsification closure and anterior segment suturing. The titanium construction reduces intraoperative fatigue while providing corrosion resistance across repeated cases. The angled approach improves visibility at the surgical site without requiring repeated repositioning.
The Shepard‑Westcott tomahawk chopper features a distinctive hoe‑shaped cutting edge and right‑hand dominance, specifically engineered for horizontal nuclear chopping during phacoemulsification. The angled 10mm bend‑to‑tip geometry optimizes the working angle when approaching the nucleus in multiple quadrants. This pattern is effective for dense nuclear cataracts requiring maximum cutting leverage.
The 10.5mm short trephine provides a popular intermediate graft size with enhanced control for anterior segment work. Disposable construction ensures sharp, reproducible cutting throughout the full diameter, supporting smooth graft margin transition and predictable tissue alignment. Individually sterilized pouches simplify case preparation.
This 10mm short trephine delivers a mid-range graft diameter for corneal transplantation with improved maneuverability in confined anterior spaces. Single-use construction guarantees sharp, predictable cutting performance, while short blade geometry enhances control during precise marker placement and graft excision.
The 11.5mm short trephine addresses standard-to-large grafts with the control advantage of a shorter blade profile. Disposable construction maintains uniform cutting sharpness across the full diameter, preventing the blade degradation that occurs with multi-cycle reuse. Individually sterilized for immediate clinical use.
This 11mm short trephine delivers a standard graft diameter with the maneuverability advantage of a short blade for anterior segment access. Single-use design eliminates sharpness variables across the cutting stroke, ensuring consistent graft margins and smooth epithelial healing. Pre-sterilized pouch format supports rapid OR deployment.
This 12mm short trephine provides a larger graft diameter with the superior control of a shortened blade for anterior chamber work. Single-use construction guarantees sharp, reproducible cutting throughout the diameter, while the short length improves handling in tight surgical spaces.
This short 13mm disposable trephine is engineered for maximal donor tissue utilization in endothelial keratoplasty and anterior lamellar grafting procedures. The disposable single‑use format delivers consistent blade geometry and sharpness for each case, reducing the edge degradation seen in reusable instruments. At 13mm diameter, this trephine accommodates larger anterior segment pathology.
A 14mm short trephine supplied sterile for larger graft button preparation and recipient bed sizing in penetrating keratoplasty. The short handle provides the control necessary for precise positioning during graft shaping and insertion. Sterile single‑use format eliminates the edge degradation inherent in repeated sterilization, supporting consistent, sharp cutting geometry.
The 6.25mm short trephine provides a precise intermediate size for small corneal grafts and epithelial sampling. Single-use design prevents blade degradation across the cutting stroke, supporting smooth margin geometry and predictable tissue transitions. Individually sterilized pouches simplify surgical workflow.
This 6.5mm short trephine delivers small tissue cuts with precision blade geometry optimized for anterior segment access. Disposable construction guarantees sharp, consistent cutting throughout the full diameter, while the short blade length improves control during intricate marker placement and specimen removal.
This 6mm short trephine excises small tissue specimens and creates precise epithelial or stromal apertures in anterior segment procedures. The disposable format ensures consistent sharpness across each cut, while the compact blade length improves maneuverability in confined microsurgical fields. Sterile individual pouches support case-specific use.