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Adson tissue forceps in the delicate cross‑serrated 1 × 2 tooth variant at 121mm pair tooth purchase with a cross‑serrated grip surface for atraumatic handling of fine skin and connective tissue. The delicate profile preserves tactile feedback through fingertip work.
Features & Benefits
The Adson‑Ewald (Hudson) tissue forceps at 120mm carry a 1 × 2 tooth pattern with the alternate Hudson‑pattern handle profile of the Adson family. The compact length keeps the tips at the fingertips for fine skin closure work.
This adult bedpan provides Standard patient hygiene containment with stable positioning during postoperative or inpatient care. Its stainless steel construction withstands repeated sterilization cycles while the wide footprint ensures stable seating. The 349 × 292 × 102mm dimensions accommodate standard adult anatomy.
The Agricola lacrimal sac retractor combines sharp 3 × 3 prongs with finger-squeeze pads for controlled lacrimal duct retraction during dacryocystorhinostomy and canalicular repair. The screw-locking device maintains exposure tension throughout the procedure, while stainless steel construction ensures lasting performance across many dacryology cases.
This air injection cannula delivers 27‑gauge micro-bubble introduction for anterior chamber reformation and IOL positioning. The 90-degree angled shaft allows ergonomic hand positioning while the polished finish minimizes tissue trauma. The 3mm bend-to-tip distance supports precise bubble placement during IOL centering.
Engineered for broader cortical exposure during mastoid work, this straight Alexander chisel features a 10mm head that lifts wider bone segments per stroke. The 7-inch (178mm) shaft delivers the mallet impulse cleanly to the cutting edge, and the straight geometry tracks linear bone removal along the mastoid cortex. Stainless‑steel construction holds edge geometry through repeat autoclaving.
With a 12mm wide head, this Alexander mastoid chisel takes the broadest cortical lift in the series for rapid exposure during mastoidectomy. The straight profile and 7-inch (178mm) shaft transmit mallet force directly to the cutting edge, supporting decisive bone removal in the early stages of the approach. Stainless‑steel construction is built for repeat clinical use across many cases.
The larger Alexander mastoid chisel features a 14mm blade width to increase cutting surface during mastoid bone removal and cortex elevation. This wider profile reduces the number of strikes needed in dense bone, improving efficiency without sacrificing control. The straight 178mm shaft maintains the geometric reliability required for consistent performance across repeat procedures.
The Alexander mastoid chisel is designed with a straight, 4mm wide head for precise osteotomy and cortical bone removal during mastoid surgery and mastoidectomy. The blunt wide head distributes striking force across bone surface, minimizing crack propagation into adjacent temporal bone and labyrinth. At 7 inches, the length provides adequate leverage and control when used with an otologic mallet during controlled bone removal.
This Alexander mastoid chisel is designed for controlled bone removal during mastoid cortex elevation and mastoidectomy. The 6mm wide straight blade delivers precise chiseling force through dense temporal bone without slipping. Its 178mm overall length provides adequate reach and leverage for posterior auricular approaches to the mastoid compartment.
This straight Alexander mastoid chisel removes cortical bone during mastoidectomy and other otologic bone work. The 8mm wide head delivers controlled chip removal along the mastoid antrum, and the 7-inch (178mm) shaft balances mallet impact through the surgeon's grip. Hardened stainless‑steel construction retains a sharp edge across repeat sterilization cycles.
The 10mm Alexander mastoid gouge handles larger bone removal phases during mastoidectomy and middle ear re-entry. Its wider cutting surface reduces overall procedure time by covering larger bony areas per stroke. The straight 178mm shaft maintains leverage and control when navigating the mastoid cavity and epitympanic anatomy.
The widest Alexander mastoid gouge at 12mm blade width maximizes efficiency during extensive mastoid cavity creation and ossicular bed preparation. The gouge geometry channels bone fragments and reduces chatter, and the straight 178mm profile supports stable hand positioning throughout dense bone work. Built for lasting surgical reliability.
The Alexander mastoid gouge in straight configuration with 14mm blade width is engineered for controlled cortical and mastoid bone removal during mastoidectomy. The wide blade spreads force across cancellous bone, reducing split propagation and vibration. The 180mm length provides secure hand control during deep temporal bone work.
The Alexander mastoid gouge carries a concave cutting profile for scooping bone from the mastoid cavity. Its 4mm blade lifts narrow troughs of cortical and cancellous bone with each mallet stroke, and the straight 7-inch (178mm) shaft keeps the working edge aligned with the surgeon's line of sight. Stainless‑steel construction retains the concave edge geometry through repeat sterilization.
The Alexander mastoid gouge provides curved bone removal surfaces for mastoidectomy and ossicular exposure work. Its 6mm wide blade channels bone fragments laterally, reducing splinter generation while deepening the bony cavity. The straight 178mm profile enables controlled sweeping motions through the mastoid cortex and epitympanic recesses.
Increasing the blade width to 8mm, this Alexander mastoid gouge accelerates bone removal during mastoidectomy while maintaining the channeling action that prevents fragmentation. The curved working edge sweeps through dense temporal bone efficiently, and the 178mm straight handle ensures precise directional control. Designed for reusable clinical durability.
The Allerdyce elevator dissector, double-ended with 8mm semi-sharp and blunt blades and 191mm overall length, supports versatile subperiosteal dissection across orthopedic soft tissue and bone work. Semi-sharp end initiates dissection planes while blunt end protects underlying structures during final separation. Compact double-ended design reduces instrument inventory while enabling varied tissue approach.
The 127mm Allis tissue forceps with a 4 × 5 interlocking tooth pattern scale the standard Allis down to a compact length for fine fascia and small‑pedicle grasping. The compact format keeps the working tips within fingertip control.
Heavy interlocking teeth define the Allis tissue forceps, a workhorse for grasping dense fascial and visceral tissues during general surgical exposures. The 5 × 6 interlocking‑tooth pattern distributes clamping force across a broad contact surface, preventing tissue slippage during traction and packing maneuvers. At 305mm overall length, these reusable forceps extend reach into deeper abdominal and thoracic fields.
This Allis tissue forceps delivers heavy interlocking grip through 5 × 6 tooth pattern, ideal for grasping tough fascial and peritoneal tissue without crushing. The straight geometry and compact 152mm length support controlled handling in confined fields. Stainless steel construction is built for reliable performance across repeat clinical use.
The Allis tissue forceps features heavy interlocking 5×4 teeth designed for secure grasping of dense tissue, fascia, and bowel during general surgical procedures. The interlocking pattern distributes compressive force without crushing delicate structures, making it ideal for complex tissue handling. Its 7�" (191mm) length suits mid‑field use.
Allis tissue forceps with 5 × 6 interlocking tooth pattern are heavy‑duty instruments designed for secure grasp on dense fascia, peritoneum, and bowel tissue during abdominal surgery. The 230mm length extends reach into deeper operative fields, while the interlocking tooth geometry maintains firm hold without tissue crushing. Reusable stainless‑steel construction delivers reliable performance across many cases.
Allis tissue forceps at 159mm carry 5 × 6 interlocking teeth for secure purchase on dense tissue such as fascia, breast, and bowel. The heavier tooth count distributes grip force without excessive crush, and the ring handle keeps the hand seated during traction. Suited to general open procedures requiring firm tissue control.
The Allis-Adain tissue forceps combines Allis-pattern interlocking teeth (9 × 10 pattern) on a compact 152mm frame, providing dense-tissue grasping in narrower or more delicate surgical fields. The high tooth count ensures secure grip on tough fascial and tissue planes.
These Allis‑Adair tissue forceps with 9 × 10 interlocking teeth provide secure, non‑slip grasp on dense cardiac and pericardial tissue. The 158mm length supports handling during coronary dissection or valve exposure without fatiguing the surgeon's hand. The tooth pattern distributes grip across a wide surface to minimize tissue crushing.
This extra delicate Allis variant is engineered for narrower surgical fields and sensitive tissue planes. The 3 × 4 tooth pattern distributes grip force over a smaller surface area, minimizing crush injury in delicate structures. Straight geometry enables fine work in confined spaces at 152mm total length.
An Alyea vas clamp uses circular jaws set with 5 × 6 dull teeth to secure the vas deferens during vasectomy without pinching or crushing the duct. The dull tooth pattern grips the tubular structure on its circumference, holding it stable for ligation or division. The 152mm length keeps the handle clear of the scrotal field.
The Anis ball capsule polisher features a 1mm sandblasted tip on a gently curved shaft that accommodates the natural contours of the capsular bag during phacoemulsification cleanup. Its flexible 18mm working geometry allows reach through both phaco and side-port incisions, making it particularly useful for polishing residual cortical material from posterior capsule. The dull-finish round knurled handle provides secure fingertip control throughout the polishing stroke.
The Anis capsule polisher features a 1.5mm flat disk tip on a gently curved shaft for controlled cortical cleanup during phacoemulsification. The dull finish minimizes glare while the tip guard protects the posterior capsule during final lens cortex removal. Round knurled handle and stainless‑steel construction deliver reliable durability across reprocessing cycles.