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This extra‑large depth gauge accommodates orthopedic screw measurement up to 160mm, enabling accurate intramedullary and cortical screw length verification during fixation. The straight design provides direct reading without parallax error, and the 330mm overall length extends reach into deep intramedullary canals. Stainless steel construction withstands sterilization without dimensional drift.
Features & Benefits
This depth gauge measures screw lengths up to 30mm for mini‑screw fixation in small bone work and pediatric orthopedic procedures. The graduated measurement scale ensures accurate implant selection, and the compact 158.75mm length remains easy to maneuver intraoperatively.
This depth gauge measures intramedullary screw length up to 120mm, accommodating the full range of long bone fixation from small metacarpals to femoral and tibial implants. The 158.75mm overall handle length provides stable positioning and clear sight lines to the depth markings during intraoperative measurement. Durable stainless steel withstands repeated sterilization and field use.
The Deschamps ligature needle carrier (left hand) mirrors the right‑hand design with a straight profile, flat handle, and sharp tip for left‑handed needle passage around fasciae, tendons, and soft‑tissue attachments. The 200mm length maintains adequate reach, while the left‑hand orientation ensures ergonomic control and natural instrument approach during orthopaedic reconstruction.
The Deschamps ligature needle carrier (right hand) combines a straight geometry with a flat handle and sharp tip for passing sutures around tissue bundles, tendons, and ligaments during soft‑tissue repair and reattachment. The 200mm length permits reach into deeper surgical fields, while the right‑hand configuration supports natural hand placement for needle passage around periosteal and fascial planes.
This diamond pin cutter is built for end-cutting steel pins up to 2mm during fixation and frame removal in orthopedic and trauma cases. The 159mm overall length gives compound leverage at the jaw without crowding the surgeon's hand, and the diamond-coated cutting faces resist deformation against hardened pin stock. Stainless‑steel construction supports repeated reprocessing alongside the rest of the tray.
This Kerrison cervical rongeur is optimized for the narrower confines of cervical spine work with its 1 × 13mm bite. The 40-degree upbite and extra‑thin footplate enhance precision in anterior cervical approaches where space is limited and vertebral body margins are critical. The blue and orange dual‑color handle improves visibility and reduces confusion in high-tempo cases. An 8-inch (200mm) shaft balances reach with control.
The Kerrison bone-biting rongeur removes lamina and ligamentum flavum during spinal decompression. Its 1 × 13mm bite with 40-degree upbite geometry cuts bone cleanly without crushing adjacent neural tissue. The thin footplate and flat upper slide minimize contact during manipulation, while the ejector efficiently removes bone fragments. An 8-inch (203mm) shaft provides reach in deep cervical and lumbar fields.
At 2 × 13mm, this Kerrison rongeur handles larger bone segments during vertebral body exposure or extensive laminar removal. The 40-degree upbite preserves trajectory control, and the thin footplate reduces periosteal stripping. The ejector design clears bone debris efficiently during repetitive punch cycles.
This 3 × 13mm Kerrison rongeur extends the instrument's capability to larger intramedullary and vertebral structures. The 40-degree upbite geometry ensures efficient purchase on denser bone, while the thin footplate provides atraumatic leverage. The flat upper slide and ejector support high-volume bone removal in decompressive procedures.
The 4 × 13mm variant addresses the largest bone segments in corpectomy and extensive laminectomy. The 40-degree upbite delivers controlled cutting force without excessive rotational stress on the shaft. Thin footplate design preserves the periosteum and surrounding soft tissue, while the ejector prevents jamming.
At 5 × 13mm, this Kerrison rongeur offers the largest single-bite capacity in this family for comprehensive vertebral and laminar resection. The 40-degree upbite maintains stability and directs bone removal toward the midline, while the thin footplate minimizes collateral tissue injury. The stainless‑steel construction withstands repeated sterilization and high-force use.
This Dingman zygoma elevator provides specific geometry for lifting and repositioning displaced zygomatic fractures during facial reduction. The straight 222mm design delivers sustained elevation force without excessive leverage that could damage adjacent soft tissue or periosteum. Stainless steel construction remains reliable through repeated sterilization and clinical use.
The discectomy retractor holds soft tissue and periosteum away from the intervertebral disk during cervical and lumbar diskectomy. Its 50mm × 20mm blade spans the lateral recess, and the right‑angle geometry protects underlying ligament and neural structures. The 170mm overall length suits standard posterior approaches.
Distraction screw, 12mm profile, threads precisely into vertebral body anterior surfaces during Caspar‑style cervical distraction protocols. The 12mm diameter matches common vertebral body widths in adult cervical spine. Reusable design supports repeated sterilization cycles without thread degradation.
Distraction screw, 14mm profile, accommodates larger vertebral body dimensions in adult cervical spine anatomy during multi‑level distraction protocols. The 14mm diameter extends thread purchase into vertebral cancellous bone, improving load distribution. Reusable stainless steel sustains thousands of sterilization cycles.
This Doane Z‑shape knee retractor is double‑ended with 80mm × 11mm and 66mm × 11mm blades for broad soft‑tissue retraction. The geometry provides stable exposure in deeper operative fields.
The Doane Z-shape knee retractor offers a double-ended design with complementary blade geometries for reliable tissue retraction during knee arthroplasty and arthroscopic exposures. The 75 × 11mm primary blade and 57 × 11mm secondary blade provide flexible positioning options, while the compact 152mm handle maintains maneuverability in confined articular spaces.
This double‑ended drill sleeve accommodates both 3.2mm and 4.5mm drill bits and tap guides for cortical screw placement and malleolar screw fixation. The interchangeable design reduces inventory while supporting precise screw positioning through pre‑drilled cortical pathways. Stainless steel construction ensures durability across hundreds of orthopedic fixation cases.
This double‑ended handle serves as the core component of the interchangeable rasp system, accepting rasp inserts 67.61.10 through 67.61.19. At 150mm, the handle provides balanced reach and control during bone-shaping procedures. Its modular design allows surgeons to change rasp inserts without removing the handle, supporting efficient case workflows and reducing operative time.
The Doyen mallet large variant employs a bullet-shaped head optimized for concentrated impact during orthopedic procedures on bone and periosteum. At 26mm diameter and 8.9oz, the instrument delivers focused percussive energy without dispersal. Stainless steel construction resists corrosion through multiple sterilization cycles.
This medium Doyen mallet scales the bullet geometry down to 21.4mm, accommodating finer spinal and periosteal work in anatomically confined spaces. Weighing 5.9oz, the lighter profile reduces fatigue during prolonged vertebral body exposure or laminal procedures. Stainless steel ensures lasting performance.
The small Doyen mallet brings the bullet-head pattern to delicate orthopedic manipulation, featuring a 17.5mm diameter head and 4oz weight for controlled force application in narrow surgical corridors. The geometry suits fine periosteal elevation and laminar approaches. Stainless steel sustains clinical durability.
This 2.5mm quick‑connect drill bit accommodates standard orthopedic drilling systems and features a 110mm total length with 85mm working shaft. The slightly larger diameter suits pilot drilling for medium‑bore fixation screws in spine and major orthopedic work. Stainless steel construction ensures reliable performance across extended clinical use.
This quick‑connect 2.7mm drill bit is designed for intramedullary canal preparation and bone fixation in orthopedic procedures. The 110mm shaft delivers adequate reach for deep femoral or tibial work, while the straight geometry maintains consistent bore trajectory. Stainless steel construction ensures durability across repeated sterilization cycles and multiple cases.
This 2mm quick‑connect drill bit fits standard orthopedic drill systems and features a 110mm total length with 75mm working shaft. The precise diameter suits pilot drilling for small‑diameter screws in hand surgery and delicate orthopedic work. Stainless steel flutes resist dulling across hundreds of drilling cycles.
This SQC 1.5mm drill bit is sized for pilot hole creation in fine-bore orthopedic applications, including ligament and small-fragment fixation. The 85mm total length with 18mm working depth supports precise trajectory control in compact surgical fields. SQC (surgical quality carbide) construction delivers consistent cutting geometry through repeated sterilization.
The 2.2mm SQC drill bit offers stepped-up diameter for transitional screw-hole preparation in polyaxial and variable-angle fixation systems. At 110mm length with 32mm working depth, it provides margin for staged drilling protocols in cancellous bone. Carbide construction resists thermal fatigue during repeated high-speed intraoperative use.
This compact 2.5mm SQC bit provides intermediate reach for standard-depth metaphyseal and diaphyseal drilling. The 110mm length with 32mm working depth balances reach with control, supporting consistent hole placement in proximal humerus, femur, and tibia fixation. Carbide construction resists wear during high-volume orthopedic case loads.
This longer 2.5mm SQC bit extends reach into intramedullary canals and posterior vertebral body positions during spinal fusion and long-bone repair. The 180mm shaft with 32mm working depth enables multi-stage drilling through soft tissue layers and dense cortical bone. Carbide edge geometry remains consistent across repeated cases.