Your cart is empty!
This Ferris‑Smith‑Kerrison rongeur delivers a 4mm bite with 40 degrees upbite geometry and 203mm working length for efficient spinal bone removal in moderate-depth exposures. The upbite architecture aligns the cutting edge with vertebral and laminar surfaces, supporting controlled fragmentation. Stainless steel construction maintains edge integrity across repeated surgical procedures.
Features & Benefits
This extended‑length Ferris‑Smith‑Kerrison features a 40‑degree upbite and 5mm bite optimized for controlled facet joint and laminar removal. The 275mm overall length (9 inches) extends reach to deeper spinal levels during posterior approaches. Upbiting geometry preserves surgeon sightlines during bone resection.
This Ferris‑Smith‑Kerrison rongeur features a thin footplate with 40‑degree upbite and 5mm bite opening for removal of larger bone fragments and lateral recess hypertrophy during laminectomy work. The thin footplate design minimizes soft tissue trauma while the upbite geometry allows access to the intervertebral foramen and lateral recesses. Extended 180mm working length supports controlled fragment removal.
This larger 5mm Ferris‑Smith‑Kerrison rongeur handles aggressive bone removal from the vertebral body and lateral foramen during anterior and lateral spinal exposures. The 40 degree upbite geometry remains ideally suited for posterior decompression work, while the increased bite size accelerates removal of thickened ligamentum flavum and osteoarthritic bone. Straight configuration maintains tactile feedback through the entire decompression.
This Ferris‑Smith‑Kerrison with 1mm bite and take‑apart design enables micro‑dissection around nerve roots and dural sac during laminectomy. The 40 degrees upbite geometry targets the superior vertebral surface, and the standard footplate provides stable positioning. At 203mm, the working length accommodates multilevel exposures.
With 5mm bite capacity, this Ferris‑Smith‑Kerrison removes larger bone fragments from the intramedullary canal and vertebral body. The 40 degrees upbite accesses the superior endplate, while the take‑apart construction streamlines reprocessing. At 203mm working length, it supports extended posterior decompression.
The Ferris-Smith-Kerrison rongeur with 90-degree downbite and 1mm bite provides specialized geometry for bone removal in superior and anterior laminar approaches where downward cutting edge direction is required. The 90-degree downbite angle directs the cutting surface perpendicular to and inferiorly toward target bone, enabling controlled removal in anatomically challenging positions. The 203mm working length and 1mm bite balance reach with precision in complex cases.
This Ferris‑Smith‑Kerrison rongeur delivers controlled upbiting action at 90 degrees for precise intervertebral disc and vertebral body removal. The 3mm bite captures bone fragments within a narrow field, and the 180mm working length supports access to mid‑depth spinal anatomy. Stainless steel construction is built for reliable performance and lasting durability across repeat surgical use.
Ferris‑Smith‑Kerrison rongeur with 90‑degree upbite and 5mm bite size delivers controlled bone removal in intervertebral and vertebral body work. The 180mm working length provides stable mid‑depth access without extending beyond the surgical corridor. Stainless steel construction supports edge retention across multiple reprocessing cycles.
The Ferris-Smith-Kerrison bone rongeur delivers controlled biting action for laminar and vertebral body resection in spinal decompression. Featuring an 8mm-wide by 12mm-long jaw, the instrument removes bone incrementally without excessive pressure spikes that might fracture adjacent lamina or ligamentum flavum. The ring handle permits two-handed or single-handed manipulation, and the straight geometry maintains surgeon control in confined spinal exposures.
The Ferris-Smith-Kerrison rongeur with 40-degree upbite geometry delivers reliable bone-cutting performance in spinal work where periosteal and lamina removal requires precision. The 4mm bite paired with titanium construction ensures durable performance across repeated cases in high-demand orthopaedic and neurosurgical environments. An ejector mechanism clears bone fragments efficiently, supporting consistent operative visibility.
The Ferris-Smith-Kerrison upbite rongeur is engineered for neurosurgical and spinal bone removal, featuring a 2mm bite with 40-degree upbite geometry for superior access in confined vertebral spaces. The titanium body combines rigidity with corrosion resistance over many demanding cases. Its 203mm working length and ejector mechanism enable rapid, controlled lamina and ligamentum flavum removal.
The Fluman bone tamp with 14mm diameter expanded head and crisscross grip end supports compaction and alignment of cancellous bone during arthroplasty and fracture reduction. The phenolic handle provides insulation and comfort during hammer-driven impact, while the 203mm length allows controlled positioning in confined surgical spaces. Stainless steel sustains durability across multiple surgical cases.
The Friedman rongeur features 45‑degree angled jaws with a 4mm bite on a 140mm frame for fine bone removal in hand, foot, and small‑joint orthopedic work. The angled jaws clear the surgeon's line of sight on phalangeal and metatarsal cortices, and the modest 4mm bite suits precise edge trimming over heavy resection. Stainless steel construction tolerates routine autoclave reprocessing.
Friedman rongeurs with 30 degree angled jaw and 4mm bite enable selective bone removal in spinal facet and vertebral work. The 140mm length provides controlled leverage during confined vertebral exposures. Stainless steel construction ensures reliable performance and edge retention across repeated surgical cases.
The Fukuda‑style shoulder retractor combines a 38 × 82mm main blade with a 31 × 41mm cutout to accommodate humeral head prominence during rotator cuff and proximal humerus bone exposures. Its T‑handle grip provides stable one‑handed control, and the 178mm overall length suits shoulder and proximal upper extremity corridors. Stainless steel construction supports demanding orthopedic reprocessing.
This cancellous bone gouge, 10mm wide, efficiently harvests graft material from the proximal femur, tibia, or ilium during orthopedic reconstruction. Curved geometry removes cancellous bone cleanly without cortical fracture. Extended 250mm length provides leverage and control during graft collection and bone sculpting.
This gouge is sized for efficient cancellous bone graft harvest from donor sites during spinal fusion or orthopedic reconstruction. The 250mm overall length provides reach into deep surgical cavities while the curved scoop geometry contains graft material for controlled transfer to recipient sites. Reusable construction supports multiple uses across cases.
Designed for harvesting and shaping cancellous bone grafts, this straight gouge features a 10mm width optimized for structural graft procurement from the iliac crest and other donor sites. The wide oval cup collects intact graft material while minimizing fragmentation. Stainless‑steel construction ensures durability during repetitive impact and reprocessing.
The Hardy‑Kerrison rongeur combines a 90-degree upbite angle with a 5mm wide bite, engineered for controlled removal of hypertrophic facet joints and lateral recess bone during spinal decompression. The straight 203mm shaft and large handle design enable high leverage for dense bone removal adjacent to the lamina and foramen. Stainless steel construction ensures durability.
This Hatfield bone curette, Size 1, features a straight 229mm shaft optimized for fine periosteal debridement and cortical bone removal in orthopedic exposures. The compact Size 1 blade suits confined surgical fields and detailed work near neurovascular structures. Stainless steel construction ensures edge retention across repeat sterilization.
The Hays phalangeal elevator features a 5mm angled blade designed for controlled elevation and dissection around metacarpal, metatarsal, and phalangeal anatomy in hand and foot surgery. At 130mm length, the compact instrument allows precise subperiosteal stripping and soft-tissue mobilization without excessive force. The angled blade geometry improves approach angles to bone and ligament insertion sites on narrow digits.
This Heath mallet pairs a cylindrical 50mm stainless‑steel head with a phenolic handle, delivering a balanced 2 pound 4.8 ounce strike for driving osteotomes and chisels into cortical bone. The 201mm overall length keeps the surgeon's hand clear of the working field while transferring force cleanly through the head. The phenolic handle dampens vibration through repeat strikes.
The left-cutting Hercules wire cutter is engineered for controlled removal of orthopedic hardware, including intramedullary wires and fixation pins. Its 180mm length positions the cutting head well into surgical fields while keeping the handle clear of the operative area. Straight geometry and sharp edges ensure clean separation without wire deformation.
This extended 280mm Hercules wire cutter reaches distant surgical fields during complex spine and long-bone fixation removal. Its straight cutting mechanism handles intramedullary and percutaneous wiring without jamming. The increased length permits access to deep vertebral and femoral sites with excellent visibility.
The Hercules wire cutter right‑hand geometry provides leverage and control for cutting K‑wires, cerclage wire, and fixation elements during orthopedic removal and revision procedures. The cutting edges maintain sharpness through dense stainless and cobalt alloy wires, while the 180mm length extends reach into confined surgical spaces. Stainless steel construction supports durability.
The Hibbs bone curette with large cup geometry is designed for aggressive periosteal elevation and curetting of bone surfaces during orthopaedic exposures. The straight configuration and 203mm length support stable positioning during fascial and periosteal work, while stainless steel construction provides reliable performance across routine sterilization and repeat clinical use.
The medium‑cup Hibbs bone curette with straight profile delivers controlled removal of fibrocartilage, callus, and trabecular bone from fracture sites and joint surfaces in open and arthroscopic procedures. The cup geometry concentrates force on a small surface area, allowing precise debris clearance from the periosteum and endosteal surfaces without excessive stripping. Stainless steel blade resists dulling from repeated contact with cortical bone.
The Hibbs bone curette features a small cup geometry for precise debridement of bone surfaces during joint arthroscopy and open procedures. Its straight design and 203mm length provide excellent control and reach into articular compartments. Stainless steel provides reliable surface finish for repeatable cleaning without tissue drag.
The 25mm curved Hibbs chisel accommodates the largest posterolateral fusion sites and multilevel decortication procedures. Its broad curved blade removes cortical bone and decorticated periosteum across wide lateral and facet regions, while the hexagonal handle sustains controlled striking throughout extended procedures.