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The extended‑length spinal fusion curette Size 2 angled forward thirty degrees enables moderate‑coverage bone removal from lateral and posterolateral vertebral endplate regions. The angled geometry optimizes access to bone surfaces aligned with the fusion approach trajectory. The 381mm length maintains comfortable hand positioning during extended procedures.
Features & Benefits
The spinal fusion curette (Size 3) features a straight profile suited for decortication of the vertebral body and disc space during arthrodesis preparation. The larger cup volume enables efficient removal of bone debris and cartilage from interbody fusion sites, while the 381mm extended length reaches deep lumbar and thoracic levels. This size supports both anterior and posterior spinal fusion protocols.
The extended‑length spinal fusion curette Size 4 angled forward thirty degrees provides aggressive endplate debridement with angular access to large lateral and posterolateral disc spaces. The enlarged cup diameter accelerates material removal while the forward angle navigates complex vertebral margin geometry. Durable stainless‑steel construction supports demanding revision cases.
The extended‑length spinal fusion curette Size 4 combines deep‑field reach with a moderately large cup diameter for efficient coverage of expanded fusion bed surfaces during posterior and anterior approaches to lumbar and thoracic spine. The 381mm shaft positions the hand safely outside the operative field. Stainless‑steel construction ensures lasting reliability.
This size 5 spinal fusion curette is a larger working surface variant designed for broader cancellous bone harvest and endplate cleanup in fusion procedures. Its straight profile enables consistent bone removal across wider intervertebral zones while maintaining adequate depth access at 381mm. The expanded curette face supports efficient debris removal during corpectomy or wide endplate preparation.
The Spurling intervertebral disc rongeur features an angled-up jaw geometry optimized for controlled removal of disc material and bone fragments during cervical and lumbar fusion procedures. The 4mm × 10mm bite accommodates tissue within the intervertebral disc space and foramen, while the 178mm shaft length provides mid-depth access to vertebral anatomy.
Spurling intervertebral rongeurs angled downward 45 degrees pivot the cutting jaw beneath overhanging laminar bone, facilitating nucleus pulposus removal in cases where the disc protrusion extends beneath the laminar roof. The dual ring handles maintain even pressure distribution, and the compact 127mm working length preserves maneuverability in confined disc spaces. Reusable stainless steel maintains lasting durability across repeated use.
Extended Spurling discectomy rongeurs carry the same downward 45‑degree angle and 4mm × 10mm bite into deeper disc spaces requiring removal of migrated fragments or extensive nucleus removal. The dual ring handles accommodate firm grip across longer leverage arms, and the extended 178mm working length reaches lumbar and lumbosacral discs that shorter instruments cannot access. Durable stainless steel withstands repeated use.
Spurling intervertebral discectomy rongeurs employ a straight jaw and dual ring handles for controlled nucleus pulposus removal during posterior approach disc surgery. The 4mm × 10mm bite sized specifically for intervertebral work, and the straight geometry permits direct jaw approach without binding against vertebral cortex or ligamentous structures. The 127mm working length supports access through limited laminotomy exposures. Reusable stainless steel endures.
The Spurling intervertebral discectomy rongeur is engineered for controlled disc material removal during cervical and lumbar decompression procedures. The 4mm × 10mm jaws suit both soft disc material and osteophyte bone. Twin ring handles provide balanced mechanical advantage during sustained disc removal work within vertebral spaces.
Featuring a distinctive double‑sided hammer head design with 30.2mm diameter and round knurled handle, this mallet offers dual‑purpose impact surfaces in compact form. The 183mm length and 1lb 1.4oz weight support precision application in confined surgical spaces.
With a 44.8mm cylindrical head and round grooved handle, this large mallet delivers substantial but controlled impact across diverse bone reduction scenarios. The compact 250mm length and 2lb 4.7oz weight balance striking capacity with maneuverability.
Medium‑weight at 2lb 1.8oz with a cylinder‑shaped head 34.5mm in diameter, this mallet delivers more forceful osteotomy strikes than lighter variants while maintaining precision control. The knurled round handle provides secure grip during prolonged osteotomies of dense cortical bone and malleolar fractures. Stainless steel cylinder head resists permanent deformation even after many cases.
The Stefhex large mallet employs a distinctive 40mm cylinder head and 229mm length to deliver substantial percussion during major orthopedic procedures on the vertebral body and periosteum. At 11.3oz, the instrument combines weight and balance for controlled high-force applications. Stainless steel ensures reliable durability.
This Stefhex medium variant scales the cylinder-head design to 35mm diameter while maintaining the extended 229mm length for spinal fusion and vertebral body exposure. Weighing 1 pound 3.9oz, the instrument delivers balanced percussion across medium-to-large surgical fields. Stainless steel construction supports clinical reliability.
The Stefhex small mallet features a 30mm cylinder head at the extended 229mm length, bridging medium and large orthopedic procedures. At 12.3oz, the instrument balances substantial percussion with operator control. Stainless steel construction resists corrosion across sterilization cycles.
The Steinmann pin is a load-bearing skeletal traction element featuring a single trocar point for percutaneous insertion through bone cortex and intramedullary canal. This 3.5mm-diameter, 229mm-long pin accepts external fixation frames or manual traction apparatus, supporting reduction and temporary or definitive immobilization of fractures and deformities. Sold as five units per package in a disposable, non-sterile format, each pin is ready for immediate sterilization.
Built at 2.4mm with double‑ended trocar points on a 229mm shaft, this lighter‑gauge Steinmann pin suits skeletal traction and external fixation in smaller anatomies and pediatric work. The 229mm length supports standard long‑bone applications at a finer wire diameter.
The Steinmann pin at 2.8mm with double‑ended trocar points on a 229mm shaft bridges the 2.4mm and 4mm gauges, suited to intermediate skeletal traction and external fixation where the lighter wires would yield. The 229mm length suits standard long‑bone applications.
The 2mm Steinmann pin with double trocar points on a 229mm shaft pairs the finest pediatric‑traction gauge with the standard trocar geometry (no thread) for cases not needing pull‑out resistance. The 229mm length suits standard long‑bone applications.
Double‑ended Steinmann pins with trocar points at both tips, 3.2mm in diameter and 229mm long, packaged five to a unit. The double‑trocar configuration allows the surgeon to reverse the pin once one tip dulls during fracture fixation or skeletal traction. Stainless steel construction supports clean drilling through cortical bone, and the disposable format keeps tip geometry sharp per use.
The Steinmann pin at 3.5mm with double‑ended trocar points on a 229mm shaft handles larger external fixation and skeletal traction than the lighter K‑wire formats. The heavier gauge resists bending under axial load, and the double‑ended format allows cutting to length during the case.
The Steinmann pin at 4.5mm carries double‑ended trocar points on a 229mm shaft, sized for the heaviest gauge in the standard skeletal traction and external fixation range. The double‑ended format allows cutting fresh length from the unused end during the case.
The 4mm Steinmann pin with double‑ended trocar points on a 229mm shaft delivers moderate‑gauge skeletal traction and external fixation, with the double‑ended format supporting cutting fresh length during the case. The 229mm length suits standard long‑bone applications.
Built at 2.4mm (3/32") with fully threaded double trocar points, this Steinmann pin pairs the fine 2.4mm gauge with full thread length for pediatric and small‑anatomy traction needing pull‑out resistance. The 229mm length suits standard long‑bone applications.
Built at 2.8mm (7/64") with double trocar points and full thread length, this Steinmann pin provides maximum fixation purchase against cortical bone for skeletal traction setups requiring axial pull‑out resistance. The 229mm length suits standard long‑bone applications.
Built at 2mm (5/64") with fully threaded double trocar points, this Steinmann pin carries the finest fully‑threaded gauge in the standard range, suited to pediatric skeletal traction where axial pull‑out resistance is needed at a delicate wire size.
Built at 3.2mm (1/8") with fully threaded double trocar points, this Steinmann pin bridges the 2.8mm and 3.5mm fully‑threaded gauges for intermediate‑heavy skeletal traction requiring axial pull‑out resistance.
Sized at 3.5mm (9/64") with fully threaded double trocar points, this Steinmann pin sits between the 3.2mm and 4mm fully‑threaded gauges, suited to intermediate‑heavy skeletal traction requiring axial pull‑out resistance.
Built at 4.5mm (0.177") with fully threaded double trocar points, this Steinmann pin carries the heaviest fully‑threaded gauge in the standard range, sized for the largest skeletal traction setups requiring maximum pull‑out resistance.