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Sized at 18mm on a hexagon handle, this Size 2 laryngeal mirror sits at the smaller end of the routine adult exam range, suited to patients where the larger sizes crowd the oropharynx. The polished face holds image clarity, and the hexagon handle resists rolling on the exam tray.
Features & Benefits
Sized at 24mm with a hexagon handle, this Size 5 laryngeal mirror gives a wider field of view than the standard hex‑handle exam mirrors. The hexagon handle resists rolling on the exam tray, and the polished face holds image clarity during posterior pharyngeal inspection.
This 14mm laryngeal mirror (K2/#0) bridges the pediatric and small‑adult exam ranges, useful when the K1 size is too small but adult sizes crowd the oropharynx. The polished face holds image clarity, and the round handle stabilizes the examiner's grip.
The adenoid curette (reverse curved, size 0) is a compact instrument designed for gentle adenoid tissue removal in pediatric patients with smaller nasopharyngeal anatomy. The size 0 cup and reverse curvature allow controlled adenoid removal without nasopharyngeal wall trauma. The blunt geometry is particularly suited for small children where mucosal integrity is paramount.
This reverse curved adenoid curette size 1 provides controlled adenoid tissue removal during pediatric pharyngeal surgery. The smaller design suits young patients with narrower nasopharyngeal anatomy. Reverse curvature geometry enables pull-stroke evacuation of adenoid tissue.
The reverse-curved adenoid curette is engineered for controlled adenoid tissue removal during transoral adenoidectomy. The standard curve design follows the pharyngeal contour, enabling efficient stripping of adenoid tissue from the nasopharynx. Size 2 accommodates pediatric and smaller adult nasopharyngeal anatomy.
Reverse-curved adenoid curettes Size 3 provide alternative tissue-removal approaches during adenoidectomy, accommodating varied surgical strategies and anatomical presentations. The reverse geometry enables effective stroking from alternate nasopharyngeal angles, particularly useful in difficult cases or posterior adenoid extension. Curved design reduces inadvertent mucosal trauma during controlled tissue separation.
A Size 4 reverse-curved adenoid curette designed for larger nasopharyngeal anatomy and efficient adenoid removal in adult and adolescent patients. The standard curve follows the contour of the adenoid fossa, supporting controlled tissue stripping without mucosal trauma. Stainless steel ensures lasting clinical durability.
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 antrum punch is a rotatable backbiter instrument with a 2.5 × 7mm bite, designed to create the wide middle meatal antrostomy during functional endoscopic sinus surgery (FESS). The rotatable head allows approach from multiple angles without repositioning the instrument shaft.
Medium antrum punch with 1.5mm depth and 8mm width, left-pointing backbiter design enables ostial enlargement and access from the contralateral approach during functional endoscopic sinus surgery. The left-oriented bite allows the surgeon to address right-sided maxillary pathology through a left-nostril portal with improved angulation and safety margins.
This medium backbiter antrum punch features a 1.5mm cutting tip on a straight shaft for rotatable access to maxillary sinus ostium enlargement during functional endoscopic sinus surgery (FESS). The punching mechanism removes bone and soft tissue margins with controlled bite depth, supporting safe widening of the surgical opening. Reusable stainless steel construction sustains high sterilization cycles across repeat cases.
The antrum punch (sidebiting, right) complements left-sided instrumentation during bilateral FESS or extended maxillary antrostomy. Its sidebiting action removes lateral antral bone and enlarges the ostium. Stainless steel durability supports the repeated punching strokes of antrostomy procedures.
This left-curving arthroscopic forceps is angled to access right-sided sinus compartments and sphenoid structures during endoscopic surgery. The 3.4 × 3.4mm through-cutting jaw delivers precise tissue removal while the curved design avoids instrument shaft interference.
This curved arthroscopic forceps adds angular approach to tissue removal during sinus and laryngeal endoscopy. The 3.4 × 3.4mm through-cutting jaw combines precision with the curved profile's ability to access angled compartments within the sinuses.
This straight arthroscopic forceps with 3.4 × 3.4mm through-cutting jaw is sized for ENT inspection and tissue removal during narrow-field sinus and laryngeal endoscopy. The straight profile maintains clarity while cutting debris or pathologic tissue.
The Asch septum straightening forceps features angled jaws (7mm × 49mm) and angled‑on‑the‑flat construction to permit direct straightening and repositioning of deviated nasal septum during septoplasty and septorhinoplasty. The wide angled jaw geometry engages the septal cartilage and bone while distributing correction force evenly. At 8.75 inches, the length provides adequate leverage for complete septal mobilization and realignment.
This larger Aufricht nasal retractor extends retraction capability with an 11 × 60mm blade, accommodating extended surgical exposure in complex nasal reconstruction. The angled taper supports tissue positioning without pressure injury, while the Bruns-style handle permits secure, ergonomic control. Stainless steel handles repeated sterilization cycles.
The Austin pick features a 2mm fine tip angled 90 degrees to permit precision dissection and elevation of delicate otologic structures such as the stapes footplate and ossicular bonds during ossicular reconstruction and stapedectomy. The right‑angle geometry allows the surgeon to work perpendicular to the operative field without hand obstruction. Straight shaft construction supports handheld control during microsurgical otologic work.