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This wide‑model temporal closed‑wire speculum exposes the eye through the temporal approach favored in phacoemulsification and refractive surgery. U‑shaped 21mm blades wrap the lid margin while the 40mm spread opens the palpebral fissure for unobstructed access. A compact 56mm frame keeps the instrument low against the orbit.
Features & Benefits
The temporal open wire speculum features a V-shaped end design with 15mm round blades optimized for superior exposure during temporal anterior segment approaches. Its compact 45mm length and 17mm spread provide optimal access while minimizing extra-ocular soft-tissue bulk. Stainless steel construction ensures lasting durability.
Built with a compact 40mm overall length and C‑shaped end, this temporal speculum uses open wire blades to provide atraumatic 16mm lid retraction with a 21mm spread. The open wire geometry keeps the lash line clear and minimizes pressure on the globe during anterior segment work.
Kratz‑style 12mm blades on this temporal speculum support eyelid retraction from a temporal approach, useful for clear corneal incision routes. The 15mm spread and 37mm frame keep the instrument compact while preserving working access to the anterior segment.
The Kratz temporal speculum positions eyelids for temporal surgical access with compact 5mm blade length and 15mm spread. Its narrow profile permits clear visualization of the temporal incision site while maintaining minimal eyelid trauma. Ideal for small‑incision cataract and corneal procedures approached temporally.
The Kratz‑type temporal speculum carries round‑profile blades with a V‑shaped end and an 11mm blade length, sized for retracting the eyelids during temporal‑approach anterior segment surgery. The V‑shaped end opens the lateral angle, and the round wire blades minimize lid trauma during sustained retraction.
Sold as a pair, the Tenant solid lid retractors deliver fixed lid elevation for ophthalmic exposure where a speculum is not preferred. The 14mm straight blade gently lifts the lid margin, and the 25mm overall length keeps the handle low‑profile in the operative field. Stainless‑steel construction supports repeat sterilization across routine ocular cases.
The Tennant nucleus manipulator features a ball tip on a gently curved shaft, bent 11mm from the handle, for controlled nucleus rotation during divide‑and‑conquer phacoemulsification. At 120mm overall length, the curved geometry accommodates anterior chamber anatomy. Round knurled handle ensures secure positioning throughout nucleus mobilization and segment management.
The Tennant tying forceps with curved geometry is designed for suture knot manipulation and iris/capsule repositioning during anterior segment procedures. The curved profile follows the natural hand arc, supporting smooth wrist rotation during fine tissue handling.
The Tennant tying forceps bring curved geometry to suture placement and knot tying during ophthalmic wound closure. The curved shaft follows the natural corneal and scleral contour, positioning the jaw tips intuitively along the suture line. Stainless‑steel construction ensures lasting reliability during repeated knot‑tying cycles across countless cataract and corneal closure cases.
Tennant tying forceps bring extra‑delicate 19mm curved shafts and a 6mm tying platform to fine ophthalmic suture work. The curved profile and platform geometry allow controlled wrapping and grasping of 10‑0 and finer sutures during corneal and scleral closure. A round handle with longitudinal serrations supports a steady rolling grip throughout knotting.
The Tennant tying forceps combines a curved jaw with 6mm tying platforms and an integrated guide pin to manage 9‑0 to 11‑0 sutures during corneal and limbal wound closure. The guide pin steers suture into the platform groove during knot tying, and the ergonomic fenestrated handle reduces instrument mass during long microsurgical sequences.
These Tennant tying forceps carry 19mm extra‑delicate straight shafts that taper into 6mm serrated tying platforms, supporting precise suture wraps at the cornea and limbus. The round handle is finished with longitudinal serrations that index against thumb and index finger, and the 102mm stainless‑steel frame keeps the platform under positive control during fine knot tying.
Designed for precise suture handling at 9‑0 through 11‑0 calibers, these straight Tennant tying forceps feature 6mm tying platforms and a guide pin that aligns the suture during each pass. The fenestrated ergonomic handle reduces fatigue across long microsurgical cases, and the 110mm overall length supports balanced fingertip control. Stainless steel construction holds up to routine reprocessing across cataract and corneal closure work.
The Tennant tying forceps combines a curved geometry with a 6mm tying platform and titanium construction for durable microsurgical knot work. The extra delicate 19mm shaft and longitudinal serrations on the round handle deliver both fine tactile feedback and secure grip during corneal and limbal closures. The curved profile adapts to chamber anatomy.
The Tennant Tying Forceps is engineered for IOL positioning and loop tying during cataract implantation. Its titanium construction resists corrosion and maintains rigidity, while the extra‑delicate 19mm shaft navigates the anterior chamber with minimal bulk. The 6mm tying platform enables secure knot placement without excessive tissue compression, and the longitudinal serrated round handle supports sustained bimanual control during the final steps of IOL fixation.
This left-handed tenotomy scissors is engineered for southpaw surgeons performing muscle and capsular dissection during strabismus repair. The curved geometry follows the natural hand arc, while the ring handle design supports secure fingertip control during precise anterior segment and extraocular muscle work.
The Terry DSAEK scraper supports stripping and positioning of Descemet's membrane during DSAEK preparation. An 11mm working length from bend to sharp tip combines with 90-degree angled geometry to access the graft-host interface at the optimal angle for membrane separation. Round handle balances reach and control. Dull finish reduces glare in the illuminated anterior chamber.
This left‑sided third eyelid wire speculum retracts the nictitating membrane during veterinary ocular examination and surgery. The 10mm wire blades deliver atraumatic exposure of the conjunctival surface beneath the third eyelid, and the 18mm spread holds a stable working window for the procedure.
Configured for the left eye, this third eyelid wire speculum retracts the nictitating membrane during veterinary ocular examination and surgery. The 14mm blades and 18mm spread hold the third eyelid clear of the cornea without compressing the globe. The lightweight wire profile keeps the field uncluttered for microscope and slit‑lamp access.
Mirroring its left‑sided counterpart, this right‑sided third eyelid wire speculum lifts the nictitating membrane during veterinary ocular work. The 10mm wire blades and 18mm spread expose the conjunctival surface beneath the third eyelid for cleaning, biopsy, or surgical access.
Built for the right eye, this third eyelid wire speculum lifts the nictitating membrane away from the cornea during veterinary ophthalmic procedures. The 14mm blades and 18mm spread maintain steady exposure for examination, foreign body removal, or surface surgery. The thin wire construction stays low in the operative field.
This Thorlakson LASIK flap lifter combines a modified Sinskey hook on one end with a bi‑convex spatula on the other. The 12mm bend‑to‑tip vaulted configuration provides enhanced reach beneath the LASIK flap, while the long knurled stainless handle improves tactile stability.
The Thorlakson femtosecond aspirating speculum is engineered to accommodate the suction ring of the Ziemer Femto LDV laser, with 12mm rounded blades, a 25mm spread, and an adjustable Lieberman‑type mechanism. The rounded blade profile clears the docking interface, and the integrated aspiration channel removes fluid from the corneal surface during femtosecond bed creation.
Engineered to accommodate the suction ring of the Femto LDV laser, this Thorlakson‑style speculum features 11mm rounded blades and an adjustable Lieberman‑type mechanism. The contoured blade geometry clears the docking interface while maintaining stable lid retraction throughout flap creation. Thumb‑screw adjustment lets the surgeon fine‑tune tension as the suction ring engages.
The Thornton corneal press ruler is designed to measure and mark limbal relaxing incisions with precision geometry. Its curved marking blade lays out 2mm line intervals at 1mm apart, measuring up to 10mm, supporting accurate axis alignment for LRI treatment. The knurled handle and dull finish reduce glare during corneal contact.
The Thornton diamond knife holder elevates and stabilizes the diamond blade during handling, improving visualization and reducing inadvertent blade contact with instrument trays or gloved hands. The anodized aluminum construction is lightweight and corrosion‑resistant, supporting safe repeated blade storage and retrieval. Designed to protect blade integrity during case setup.
This Thornton fixation ring stabilizes the globe during refractive marking, LRI (Limbal Relaxing Incisions), and keratorefractive procedures. Twelve fixation teeth around the 16mm solid ring engage the conjunctiva for a firm, evenly distributed hold, and twelve corresponding marks on the upper face identify tooth position to guide axis alignment. The flat handle keeps the surgeon's view clear of the cornea.
The Thornton fixation ring features a swivel mounting mechanism on a 13 × 11mm C‑style ring with 10‑degree degree markings etched around its circumference. The flat handle permits easy rotation for toric IOL axis alignment during implantation. This instrument is essential for precise capsular fixation and axis control in toric and premium IOL cases.
This Thornton fixation ring in titanium supports secure corneal stabilization during refractive procedures. The C-style geometry provides optimal contact for smooth suction without tissue compression or corneal scarring during extended ablation procedures.