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Jameson calipers measure 0 to 80mm in 1mm increments and 0 to 3 inches in 1/16‑inch increments, sized for marking and verifying distances during strabismus, oculoplastic, and refractive surgery. Narrow flat 3mm tips reach reliably to the limbus or lid margin, and a thumbscrew locks the caliper at the measured setting. Dull finish suppresses reflection under microscope view.
Features & Benefits
The Jameson muscle forceps targets extraocular muscle manipulation during strabismus surgery, where scaled jaws with interlocking tooth geometry secure firm, atraumatic purchase. This adult-size, left-hand version features 12mm scaled jaws with 1mm teeth that mesh on one jaw into mating holes on the other�a precision pattern that locks muscle tissue without crushing. Angled shafts improve access to medial and lateral rectus in tight orbital fields.
Right‑oriented Jameson muscle forceps secure rectus muscle bellies during strabismus disinsertion and reinsertion. The 12mm scaled jaws calibrate suture placement from the muscle insertion, with 1mm teeth on one jaw fitting matched holes on the other to lock the muscle without slip. A serrated handle and slide lock hold the muscle hands‑free across the 100mm length while the surgeon places anchoring sutures.
This child-size left Jameson muscle forceps is configured for pediatric strabismus surgery where smaller jaw dimensions and delicate tissue handling are essential. The 1mm interlocking tooth pattern and 9mm scaled jaws provide secure extraocular muscle grasp without tissue crush. The angled geometry and serrated handle with slide-lock mechanism support controlled advancement.
Pediatric strabismus repair demands smaller, right-hand scaled forceps with proportional grasping geometry. This Jameson variant delivers 9mm scaled jaws with the same interlocking 1mm tooth pattern, designed for a child's smaller orbital anatomy and tissue volumes. Angled shafts remain essential for comfortable rectus muscle approach in confined pediatric fields.
Configured for broader adult rectus muscles, the large Jameson muscle hook places an 11mm tip‑to‑bend profile on a smooth flat handle for engaging and lifting the muscle belly during recess‑resect procedures. The 127mm overall length keeps fingertip orientation at the orbital rim, and the flat shank supports stable in‑hand rotation.
The large Jameson muscle hook places a broad working tip on a grooved handle for engaging adult rectus muscles during strabismus surgery. Longitudinal grooves give tactile orientation through the hook's working arc, and the 127mm overall length keeps the surgeon's fingertips clear of the orbital rim during muscle isolation.
The small Jameson muscle hook seats an 8mm tip‑to‑bend profile beneath narrower or pediatric rectus muscles during strabismus work. A smooth flat handle preserves two‑plane orientation, and the 127mm body keeps the surgeon's fingertips clear of the field while the hook engages.
The small Jameson muscle hook engages extraocular muscle bellies during strabismus surgery. Its slim shaft and rounded tip slide beneath the muscle insertion to lift it clear of the sclera for measurement, recession, or resection. A grooved handle improves grip during the controlled lifting maneuver, and the 127mm length suits standard pediatric and adult strabismus exposure.
The 23‑gauge Jensen capsule polisher carries a fully carbide-blasted curved tip for atraumatic abrasion of residual lens epithelial cells along the posterior capsule. At 27mm working length excluding the hub, it threads easily through standard phaco incisions. The textured carbide surface delivers consistent polishing without sharp edges.
The Jensen capsule polisher is engineered as a 23-gauge tip designed to gently polish posterior lens capsule epithelial cells before intraocular lens insertion. The half carbide-blasted tip provides controlled abrasion without perforation risk, making it suitable for both routine phacoemulsification and complex MICS cases. At 28mm length (excluding hub), the compact size enables precise control within confined anterior chamber spaces.
The Jensen capsule polisher features a 25-gauge straight curved shaft with a half-carbide blasted tip designed to gently polish the posterior capsule following cortex removal. The 28mm working length provides precise control during the delicate final polishing phase of phacoemulsification. Carbide blasting of the tip surface enhances grip on fibrous capsular tissue without traumatizing the capsular membrane.
This Jensen capsule polisher features a 25ga shaft with a fully carbide‑blasted tip and a compact 22mm working length to support controlled capsule surface refinement with enhanced micro‑tactile feedback.
The Jensen capsule polisher 27ga with polished finish delivers gentle posterior capsule cleanup during postoperative periods. The smooth, gently curved design enables atraumatic capsular surface smoothing with minimal trauma to posterior capsule layers.
These titanium #5 jeweler forceps deliver super‑fine pointed tips in straight configuration for maximum visibility during intricate anterior segment work. Titanium construction offers corrosion resistance and reduced weight compared to stainless steel, supporting prolonged use without hand fatigue. The narrow 0.08mm tip profile suits fine suture passage and IOL‑haptic positioning.
These titanium jeweler forceps feature a raised 6mm platform and diamond‑dusted working edges for enhanced grip during delicate IOL and capsular manipulation. The 0.2mm sharp pointed tips deliver precision grasping in confined anterior chamber spaces. The diamond surface provides superior holding power without tissue trauma.
Angled 90 degrees with 5mm from tip to bend, these #5 jeweler forceps deliver extra-fine pointed tips for retrieving sutures, foreign bodies, and small particles in ophthalmic microsurgery. The 110mm shaft and dull finish reduce glare under the operating microscope. Spring tension allows precise tactile closure on minute targets.
Extra fine jeweler‑type forceps offer pointed tips and narrowed straight shafts for handling sutures, fine tissue, and intraocular debris. The extra delicate tip pattern resolves single fibers without crushing surrounding tissue. A serrated handle and dull finish reduce slippage and glare during sustained microsurgical work.
This #5 angle jewelers forceps provides exceptional finesse in 45‑degree angled configuration with 0.1 × 0.6mm extra‑fine tips. The angle suits approach to occluded puncta and fine orbital work. The jeweler‑grade precision and lightweight construction minimize hand fatigue during extended microsurgery.
These curved #7 jeweler forceps taper to a fine 0.17mm point for precision handling of microsurgical sutures, capsule fragments, and small foreign bodies. The curve clears the line of sight during placement under the microscope. A smooth flat handle distributes fingertip pressure evenly through delicate grasping work.
These jeweler forceps combine a 0.3mm precision tip with a tying platform for delicate anterior segment microsurgery. The straight configuration and flat handle provide stable control during IOL positioning and capsular suturing. Their fine geometry facilitates handling of intraocular lenses and delicate tissue manipulation in confined anterior chamber spaces.
These titanium #4 jeweler's forceps incorporate delicate straight tips with a flat handle and a 115mm overall length, supporting precise micro‑grasping for delicate ophthalmic tasks.
This John Dexatome DMEK/DSAEK spatula features a strongly vaulted shaft with a 17mm bend‑to‑tip distance for controlled approach to the corneal plane. The curvature supports marking the cornea at 10mm during endothelial graft preparation and positioning.
The John DXEK inserting forceps is engineered specifically for donor graft positioning during Descemet stripping automated endothelial keratoplasty. The 30-degree angled tip and ultra-thin 0.46mm width allow atraumatic graft manipulation within the anterior chamber without endothelial cell trauma. The angled geometry improves visibility during graft insertion through the corneal incision.
This John DXEK/DSAEK Descemet stripper incorporates a strongly vaulted shaft with a 15mm bend‑to‑tip configuration for controlled posterior lamellar engagement. The working end supports precise stripping of Descemet membrane during endothelial keratoplasty.
Built for bimanual phacoemulsification, the Johnson spatula presents a 0.25 × 10mm straight working tip that supports the second hand during nuclear chopping and cortical manipulation. The slim profile passes through a sub‑1mm side‑port incision and stabilizes lens fragments while the phaco needle delivers ultrasound. A round knurled handle keeps rotational control consistent across the 117mm length.
The Jones‑Inamura capsulorhexis forceps in its E‑range variant features cross‑action tips at 45 degrees with a 1.5mm width at the pivot box for entry through 1.8mm incisions. The pointed serrated interlocking tips and 11mm tip‑to‑pivot geometry ensure reliable capsule engagement, while 1mm markings from tip to 6mm guide precise sizing. The flat handle provides superior ergonomics during extended procedures.
The Jones‑Inamura capsulorhexis forceps features a round ergonomic handle that supports stable finger placement during anterior capsule engagement. The Jones‑Inamura tip geometry is designed for controlled capsulorhexis tear propagation across both routine and complex cataract cases. The handle accommodates variable hand sizes and extended case time.
The Jones‑Inamura capsulorhexis forceps in stainless steel delivers reliable performance for precise capsular manipulation during phacoemulsification. The round handle provides secure grip and tactile control when engaging and tearing the anterior lens capsule. The forceps supports reproducible capsulorhexis architecture across routine and challenging cases.
The Josephberg-Besser scleral depressor provides double-ended functionality for scleral examination, indirect ophthalmoscopy, and retinal mapping. Each broad spoon-shaped end conforms gently to scleral surface contours, allowing the examiner to rotate and depress peripheral retina while maintaining visual access. The straight configuration supports predictable manipulation during diagnostic work.