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The short variant of the 7.25mm disposable trephine pairs the fine‑increment cutting diameter with a compact handle, suited to surgeons working at the smaller end of the keratoplasty range with a shorter grip. Single‑use sterile delivery preserves edge sharpness.
Features & Benefits
Short trephines balance ease of handling with precision during manual corneal punch. This 7.5mm model cuts smaller donor buttons for specialized cases�pediatric grafts, redo procedures, or selective endothelial transplants. The sterile single-use format ensures predictable blade sharpness throughout the graft harvest.
The short version of the 7mm disposable trephine carries the same cutting diameter as the long format on a compact handle, suited to surgeons preferring a shorter grip during the trephination stroke. The sharp circular blade delivers a clean full‑thickness cut.
The 8.5mm short disposable trephine carries one of the most commonly used keratoplasty diameters on a compact handle, suited to surgeons preferring a shorter grip during the trephination stroke. Single‑use sterile delivery removes reprocessing variability.
An 8mm short trephine bridges standard and reduced graft diameters, serving mixed workload ORs. The compact shaft supports precise manual control, while the sterile, individually packaged blade ensures sharp, repeatable corneal punch geometry. Stainless steel construction delivers reliable performance across keratoplasty and endothelial transplant workflows.
Individually sterilized in dedicated pouches, this 9.5mm short‑format trephine arrives ready for immediate surgical use without additional sterilization cycles. The sharp stainless steel cutting edge maintains precision during donor graft preparation, and single‑pouch dispensing streamlines sterile field setup. Disposable format eliminates blade variability between graft preparations.
The 9mm short trephine provides a small-to-mid graft diameter with improved anterior chamber control. Single-use construction maintains sharp cutting throughout the entire diameter, preventing the edge collapse and margin irregularity seen with reused instruments. Pre-sterilized pouch format supports rapid case deployment.
A 1.1mm angled sideport knife sized for slightly wider paracentesis access than the 1mm pattern. The expanded blade width accepts second instruments such as larger choppers while still producing a self‑sealing wound. Full handle geometry supports controlled fingertip rotation during entry.
This 1.1mm angled sideport knife creates the secondary paracentesis incision during phacoemulsification, suited to cases where a slightly wider sideport is wanted than the standard 1mm format. The single‑use sterile blade preserves first‑pass sharpness across the case.
The 1mm angled sideport knife creates the standard‑gauge secondary paracentesis incision during phacoemulsification, supporting access for the second instrument during chop and irrigation. Single‑use sterile preserves the sharp cutting edge.
Double‑ended Seibel nucleus choppers eliminate the need for mid‑case instrument exchange, with left and right cutting surfaces on opposite ends. The 0.5mm olive‑shaped tip and curved interior edge are replicated on each end, providing seamless transition when switching sides during divide‑and‑conquer nucleus fragmentation. Round knurled handle ensures consistent grip regardless of end orientation.
This Siepser endocap controller features a 0.5mm fine tip designed for controlled manipulation of capsular and intraocular structures. The round knurled handle enhances stability during delicate anterior segment maneuvers.
This translucent silicone bulb at 25mm diameter and 63mm overall length pairs with cannulas and irrigation lines for fluid handling at the back table or surgical field. The translucent silicone allows visual confirmation of fluid presence inside the bulb, and the medium size suits routine irrigation volumes.
This silicone eye conformer is a postoperative orbital implant placed after enucleation or evisceration to maintain socket volume and prepare for ocular prosthesis fitting. The 10-14mm size range accommodates standard adult orbital anatomy. The smooth silicone surface prevents adhesion formation while supporting long-term socket health during the postoperative phase.
This silicone eye conformer (15-17mm range) is designed for postoperative orbital socket volume maintenance following enucleation or evisceration. The smooth silicone surface promotes tissue adaptation, while the conformer's rounded geometry accommodates socket contours during the early postoperative period before prosthesis fitting.
This larger silicone eye conformer (18-22mm range) provides postoperative socket volume maintenance for adult patients following enucleation or evisceration. The conformer preserves orbital socket depth and contour during the healing phase, supporting subsequent prosthesis fitting and comfortable long-term wear.
This 18mm silicone orbital implant supports veterinary enucleation and orbital reconstruction in larger companion animals. The 18mm diameter suits mid to large species, and the silicone shell maintains orbital volume after globe removal for cosmetic continuity. Non‑sterile packaging permits sterilization within the veterinary practice.
This 10mm black silicone eye sphere serves as a veterinary orbital implant placed after enucleation or evisceration to maintain socket volume. The smooth spherical profile distributes pressure evenly within the orbit and integrates with surrounding tissue planes. Silicone construction is biocompatible, conformable, and well suited to single‑patient orbital use.
This 12mm black silicone eye sphere serves as an ocular implant for veterinary enucleation and orbital reconstruction in companion animals. The 12mm diameter suits small to mid‑size species, and the black silicone provides cosmetic continuity in the orbit after globe removal. Non‑sterile packaging permits sterilization within the veterinary practice.
This 13mm silicone eye sphere serves as a practice model for surgical technique development and resident training in ophthalmic procedures. The black silicone surface mimics tissue appearance while the compact size supports training in fine manipulation. Single-use sterile configuration ensures consistent training environment case to case.
This 14mm black silicone orbital implant serves as a veterinary ocular implant for enucleation and orbital reconstruction in companion animals. The 14mm diameter suits mid‑size species, and the black silicone provides cosmetic continuity in the orbit after globe removal. Non‑sterile packaging permits sterilization within the veterinary practice.
This 15mm black silicone orbital implant serves as a veterinary ocular implant for enucleation and orbital reconstruction in companion animals. The 15mm diameter suits mid to large species, and the black silicone provides cosmetic continuity in the orbit after globe removal. Non‑sterile packaging permits sterilization within the veterinary practice.
This 16mm black silicone orbital implant serves as a veterinary ocular implant for enucleation and orbital reconstruction in larger companion animals. The 16mm diameter suits larger species, and the black silicone provides cosmetic continuity in the orbit after globe removal. Non‑sterile packaging permits sterilization within the veterinary practice.
This 17mm black silicone orbital implant serves as a veterinary ocular implant for enucleation and orbital reconstruction in companion animals. The 17mm diameter suits mid to large species, and the black silicone provides cosmetic continuity in the orbit after globe removal. Non‑sterile packaging permits sterilization within the veterinary practice.
This 18mm black silicone eye sphere is shaped for orbital implantation in veterinary enucleation cases, restoring orbital volume and contour after globe removal. The silicone surface conforms to surrounding tissue, and the matte black color blends with the periorbital area in patients with darkly pigmented coats.
This 19mm black silicone eye sphere is intended for veterinary orbital implantation following enucleation, restoring socket volume and supporting symmetric facial contour. The pigmented silicone offers a cosmetically neutral appearance through eyelid tissue. Smooth surface finish minimizes irritation against surrounding orbital structures during healing.
Sized at 20mm, this black silicone eye sphere functions as a veterinary orbital implant after enucleation or evisceration, restoring volume in the larger socket. The continuous spherical contour avoids pressure points against the orbital lining, while the silicone material conforms gently as the surrounding tissue settles. Single‑patient use keeps each implant clean from pouch to socket.
This 21mm black silicone orbital implant serves as a veterinary ocular implant for enucleation and orbital reconstruction in larger companion animals. The 21mm diameter suits larger species, and the black silicone provides cosmetic continuity in the orbit after globe removal. Non‑sterile packaging permits sterilization within the veterinary practice.
This 22mm black silicone orbital implant serves as a veterinary ocular implant for enucleation and orbital reconstruction in larger companion animals. The 22mm diameter suits larger species, and the black silicone provides cosmetic continuity in the orbit after globe removal. Non‑sterile packaging permits sterilization within the veterinary practice.
The 23mm silicone eye sphere extends training to larger anterior segment procedures including LASIK flap creation and refractive surgery dissection techniques. Black silicone composition provides realistic resistance and tactile feedback. Single-use sterile packaging supports consistent training environments across multiple resident cases.