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This thin‑footplate variant of the Ferris‑Smith‑Kerrison rongeur reduces bulk in confined spaces around the lamina and lateral recess during posterior spinal surgery. The 4mm bite and 40 degree upbite remain effective for ligamentum flavum and bone removal, while the reduced footplate profile minimizes displacement of adjacent soft tissue and periosteum. Hexagonal handle (7 inches / 178mm) enables stable control during confined work.
Features & Benefits
This Ferris‑Smith‑Kerrison variant offers 4mm bite capacity at a 40‑degree upbite angle, well‑suited for vertebral body access and facet joint work. The 203mm shaft length and distinctive turquoise handle improve ergonomic visibility and control during extended procedures.
This Ferris‑Smith‑Kerrison rongeur features a 40‑degree upbite optimized for controlled laminar and facet joint removal during posterior decompression. The 4mm bite size accommodates larger bone segments, while the thin‑geometry footplate minimizes obstruction in confined foraminal spaces. Its 270mm overall length (200mm working) extends reach to deeper vertebral levels.
This extended Ferris-Smith-Kerrison rongeur features a 40-degree upbite with 4mm bite across an 11-inch working length, enabling larger-volume bone removal in deep laminectomy and foraminal decompression. The 40-degree geometry supports lateral approach positioning. Stainless steel sustains the high-leverage demands of extended-length instruments.
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.
This Ferris-Smith-Kerrison rongeur with diamond-like coating, 5mm bite, and 40-degree upbite is engineered for maximum-efficiency bone removal in extended spinal decompression and laminectomy procedures. The DLC surface maintains cutting edge acuity through dense cortical bone, while the substantial 5mm bite accomplishes extensive work per stroke. The 203mm working length and efficient ejector system support rapid progression through major cases.
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.
Engineered for extended reach in deep laminectomy, this Ferris-Smith-Kerrison rongeur delivers 40-degree upbite geometry with 5mm bite across 280mm working length. The shallow angle accommodates lateral-approach access while the maximum bite depth enables wide-field bone removal. Stainless steel resists the high-leverage forces of extended-length operation.
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 downbite rongeur delivers a 90-degree downward jaw with 2mm cutting capacity, ideal for bone removal from superior laminar ledges and dorsal foramen margins. The downbite geometry reverses the access angle compared to upbite instruments. At 180mm, the working length supports stable handling. Stainless steel resists corrosion.
This Ferris-Smith-Kerrison downbite rongeur couples a 90-degree downward jaw with 3mm capacity, removing bone from superior laminar surfaces and dorsal foramen ledges. The steeper downbite angle complements upbite instruments in wide-field decompression. At 180mm working length, the shaft supports balanced control. Stainless steel construction ensures durability.
The Ferris-Smith-Kerrison downbite rongeur employs a 90-degree downward jaw with 5mm bite capacity, ideal for removal of broad-based superior laminar bone and dorsal foramen ledges. The maximum downbite depth complements upbite instruments in comprehensive decompression. At 178mm, the working length provides stable handling. Stainless steel construction ensures reliability.
This Ferris-Smith-Kerrison rongeur with 90-degree upbite, 1mm bite, and red silicone handle provides exceptional precision and approach flexibility for tight foraminal spaces where minimal collateral bone removal is essential. The steep 90-degree angle enables cutting from lateral corridors while the small 1mm bite protects the facet joint and articular cartilage. The color-coded handle and 203mm working length support controlled positioning and identification in complex cases.
The Ferris‑Smith‑Kerrison rongeur with 90‑degree upbite geometry and 1mm bite addresses precise bone removal at the vertebral body and lamina during decompression procedures. This 180mm straight shaft provides reach and control through the operative field while maintaining stainless‑steel durability across repeated instrument cycles.
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.
The Ferris-Smith-Kerrison rongeur with 90-degree upbite, 2mm bite, and color-coded blue silicone handle offers exceptional cutting geometry for steep-angle approach work in confined lateral spinal spaces. The 90-degree upbite directs the cutting surface perpendicular to the spinal axis, enabling bone removal in tight foraminal corridors. The 203mm working length and ergonomic silicone handle reduce fatigue during delicate foraminal decompression work.
The Ferris-Smith-Kerrison rongeur delivers a 2mm upbite through a 90-degree angled jaw geometry, ideal for precise removal of laminar bone and foramen edges during laminectomy. The thin footplate reduces operative field bulk. The EZ Cleaning System and ejector facilitate rapid postoperative instrumentation cleaning. Stainless steel withstands high-demand spinal cases.
This Ferris‑Smith‑Kerrison rongeur increases bite capacity to 2mm while maintaining the 90‑degree upbite angle for moderate bone removal at the intervertebral level. The thin footplate and 180mm straight shaft support efficient access to the foramen and neighboring structures during decompression.
This thin‑footplate Ferris‑Smith‑Kerrison with 90‑degree upbite delivers precise 2mm bites during delicate intramedullary and foraminal bone work. The 203mm length and upbiting geometry improve visualization in narrow surgical corridors. Thin footplate geometry minimizes contact with surrounding neural tissue.
With a 90-degree upbite and 3mm bite depth, this Ferris-Smith-Kerrison rongeur excels at wide-field laminar bone removal while the steep 90-degree angle preserves midline accuracy. The thin footplate reduces field crowding. The EZ Cleaning System expedites between-case turnovers. Stainless steel resists demanding spinal use.
With a 3mm bite and 90‑degree upbite geometry, this Ferris‑Smith‑Kerrison rongeur supports larger laminar bite during multilevel spine work. The 180mm working length and thin footplate design facilitate efficient navigation through the surgical corridor while protecting periosteum and nerve roots.
Extended to 203mm, this Ferris‑Smith‑Kerrison rongeur with 3mm bite and 90‑degree upbite provides deeper reach for posterior column and foramen work. The increased shaft length maintains the thin footplate advantage while accessing structures at greater operative depths.
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.
The Ferris‑Smith‑Kerrison rongeur reaches its largest 4mm bite at the 90‑degree upbite angle, enabling substantial bone removal during extensive multilevel decompression. At 180mm working length, the thin footplate retains its atraumatic profile while maximizing intramedullary canal access.
Ferris‑Smith‑Kerrison rongeur with turquoise silicone handle and 90‑degree upbite delivers controlled 4mm bone removal during spinal decompression. The silicone grip supports prolonged handling without fatigue, while the 203mm working length provides stable mid‑spine access. Upbiting geometry improves visualization in constrained surgical spaces.
Ferris‑Smith‑Kerrison rongeur with ejector mechanism and 90‑degree upbite configuration facilitates rapid clearance of bone chips from the surgical field. The 5mm bite and 9mm jaw width expand working capacity within vertebral body and foraminal spaces. Its 180mm working length provides stable reach during posterior spinal exposure.
Maximal 5mm bite capability characterizes this Ferris‑Smith‑Kerrison rongeur, designed for aggressive vertebral and laminar resection during wide decompression. The 90‑degree upbite geometry and 180mm straight shaft maintain precision and durability even with expanded cutting capacity.