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The plate bone‑holding forceps secures fixation plates to bone during application, featuring a curved design that accommodates plate contours and a serrated hexagon foot plate for anti‑slip purchase. Its one‑pointed tip engages plate holes reliably, and the 121mm compact length suits varied surgical approaches.
Features & Benefits
The plate cutting forceps, 1mm bite capacity and 241mm length, precisely sections orthopedic fixation plates during hardware removal and revision procedures. Straight blade geometry creates clean plate cuts without delamination or stress cracking. Extended length accommodates large-bone plate work while maintaining operator control and visibility.
The Polokoff double‑ended rasp delivers complementary 3mm working surfaces for controlled surface preparation of cortical bone and periosteal sites. The straight geometry optimizes contact pressure during rasping strokes, supporting smooth bone surface finishing. Stainless steel resists wear and maintains surface texture consistency across repeated clinical use.
This double‑ended rasp with 6mm width smooths and contours bone surfaces during fracture reduction and arthroplasty. The rasp surfaces remove cortical irregularities without generating excessive heat, while the double‑ended design offers two working surfaces in a compact instrument. Stainless steel construction maintains durability across many surgical cases.
This double‑ended probe and packer (pattern #92) pairs a slender probe tip with a packing end for placing graft material into small bone defects and cysts. The straight shaft keeps the working ends coaxial during force application against cortical bone. Stainless‑steel construction supports the repeat compaction loads of bone packing.
Putti bone rasp, double-ended with flat blade curved upward on one end and flat blade curved sideways on the other, enables contouring and smoothing of cortical bone and osteotomy margins during orthopedic procedures. The curved blade geometry and 280mm extended length provide reach and stability for shaping vertebral body and facet surfaces.
The Putti rasp provides a double‑ended design with flat blades angled in different directions�one curved upward, one curved sideways�accommodating multiple surface orientations in a single instrument. The 267mm length supports reach into orthopedic cavities, and stainless steel rasping surfaces maintain grit definition. The dual geometry reduces instrument changeover during bone shaping.
This quick‑connect drill bit measures 1.5mm diameter with 18mm flute length for 2.4mm locking screw prepartion during orthopedic fixation. The straight geometry and 85mm overall length support precise pilot hole creation, and stainless steel construction maintains sharpness across many surgical cases.
The Ramus retractor is designed for precise exposure of the ramus mandibulae and lateral jaw structures during oral and orthognathic procedures. Its 70 × 11.5mm blade provides adequate coverage while remaining compact for positioning in tight mandibular angles. At 221mm overall length, the instrument reaches the surgical field with excellent visibility and control.
The TC double‑ended rasp pairs Grit 1 (very fine) and Grit 2 (fine) tungsten‑carbide working faces on a gold‑plated handle, identified for TC instrument sets. The graded grits step the surgeon from fine to very fine finishing without an instrument exchange.
This double‑ended tungsten carbide rasp with grit 3 and 4 (fine and coarse) surfaces contours bone with superior edge retention compared to stainless steel alternatives. The gold‑plated handle identifies the tungsten carbide construction while enhancing visual field contrast during surgical use. Carbide edges maintain cutting performance across multiple clinical cases.
Double‑ended tungsten carbide rasp running 216mm overall, with grit 5 and grit 6 coarse cutting surfaces on opposite working ends. The dual coarse profiles allow the surgeon to alternate between aggressive bone shaping and finishing passes on cortical and cancellous surfaces. The gold‑plated handle marks the tungsten carbide identity at a glance, and the carbide edges hold their cutting profile far longer than stainless across repeat reprocessing.
The tungsten carbide rasp with grits 7 and 8 (coarse and very coarse) removes cortical bone efficiently during extensive bone contouring and arthroscopic procedures. The harder carbide edges maintain aggressive cutting performance without micro‑fracturing, while the gold‑plated handle indicates material type and improves surgical visibility. Extended edge durability reduces instrument changeover frequency.
This replacement blade is designed for finger ring cutters, enabling surgeons to change cutting edges without replacing the entire instrument. Stainless steel composition delivers the same sharpness and edge retention as the primary blade, and the replacement format supports cost‑effective maintenance of ring cutter instruments during orthopedic and trauma cases.
This replacement screw cap fits the D7934‑A depth gauge and maintains measurement accuracy for bone fixation during repeated clinical use. The cap engages securely on the depth gauge shaft, and stainless steel construction ensures lasting durability across extended sterilization cycles.
This replacement screw cap fits the D7935‑A depth gauge and preserves measurement accuracy across multiple sterilization cycles during orthopedic bone work. The stainless steel cap engages reliably and resists corrosion during storage and reuse in clinical settings.
This replacement screw cap fits the D7936‑A depth gauge and maintains bone fixation measurement reliability during extended clinical use. The stainless steel construction resists corrosion, and the secure fit preserves calibration accuracy across multiple procedures.
This replacement screw cap, compatible with component D7946-A, maintains secure assembly integrity for modular orthopedic instruments. Stainless steel construction provides corrosion resistance and reliable thread engagement across repeated assembly cycles. The standardized cap design ensures consistent fit and torque characteristics.
This replacement screw cap is manufactured in stainless steel for reliable performance during repeated sterilization and clinical reuse. Compatible with D7948-A assemblies, it restores integrity to your orthopedic screw fixation systems.
Repercussion‑free mallet #2 features dual‑sided construction with nylon on one face and stainless steel on the opposing surface for versatile bone work. The 29.8mm head diameter and 1lb 5.7oz weight suit general and fine orthopaedic procedures, while phenolic handle provides secure control. Its 270mm overall length maintains surgeon positioning.
The repercussion‑free #3 mallet at 1 lb 7.1 oz with a 31.9mm head and a phenolic handle delivers heavy strikes with internal mass dampening that limits recoil at the operator's grip. The phenolic handle resists slip during sustained osteotome and chisel work.
This Rowe maxillary disimpaction forceps, left‑sided, features a 230mm length for controlled mobilization of the maxilla.
This Rowe maxillary disimpaction forceps, right‑sided, uses a 230mm length for controlled maxillary mobilization.
This Ruskin‑Liston angled bone‑cutting forceps delivers delicate 19mm jaws engineered for precise fracture reduction and periosteal work. The flat delicate blade profile minimizes periosteal trauma during manipulative reduction of long‑bone fractures, while the angled geometry improves approach angles during confined work near cortical edges. Double‑action spring mechanics provide controlled cutting power without requiring excessive grip pressure.
The Ruskin-Liston bone cutting forceps, straight with double-action spring handle and 190mm length, combines mechanical advantage with rapid jaw reset for efficient bone cutting during orthopedic procedures. Double-action mechanism generates powerful leverage, while spring return enables fast sequential cuts. Extended shaft length facilitates access to deep bone work.
The Ruskin-Liston bone-cutting forceps combine delicate angled jaws with a 178mm working length for precise, atraumatic bone removal during orthopedic procedures. The slender design permits access to confined fields while maintaining excellent surgeon control. Straight angled jaw geometry ensures clean bone separation.
The Ruskin rongeur with curved jaw geometry provides reliable bone‑biting performance for controlled removal of cancellous bone during spinal decompression and vertebral body access. The 5 × 10mm bite captures bone fragments without excessive force concentration, while double‑action spring mechanics distribute load evenly across the cutting edges. Stainless steel construction supports repeated sterilization and reliable performance across many surgical cases.
This delicate Ruskin rongeur reduces the bite to 2 × 15mm for precise bone removal in confined spinal corridors where overresection risks neural compression. The curved jaw accommodates intervertebral disc anatomy, the spring handle supports sustained precision work, and the compact 152mm length enhances maneuverability.
Ruskin rongeurs trim cortical bone and small bony processes through a curved jaw profile that follows the contour of the bone. The 3 × 15mm bite suits hand, foot, and small‑joint orthopedic work, while the double action mechanism and spring handle multiply hand force and reset the jaws between cuts. The 152mm frame keeps the working end close at the operative bone.
The Ruskin rongeur combines a 4 × 16mm double‑action bite with a curved jaw ideal for removing bone from laminae, facet joints, and anterior disc spaces during spinal decompression. The spring handle mechanism reduces hand fatigue during sustained use, and the 184mm length provides stable control.