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This Ferris‑Smith‑Kerrison rongeur features a 90‑degree upbite jaw with 2mm bite opening for precise removal of bone fragments and ligamentum flavum during spinal decompression work. The upbite geometry accesses deep laminar recesses and intervertebral foramen during posterior approach procedures. Stainless steel jaws withstand repeated cutting loads without deformation.
Features & Benefits
Scaling to 2mm bite width across the 10mm jaw, this Love‑Kerrison rongeur increases bone removal capacity while maintaining the straight shaft and 90‑degree upbite geometry. The large handle and 152mm working length enhance control during multilevel posterior work.
The Love‑Kerrison laminectomy rongeur features a straight 1mm bite over 10mm jaw width, configured for fine laminar bone removal during decompression. The 152mm working length and regular footplate support controlled access to the posterior elements and intramedullary canal.
The straight Adson rongeur carries a 7 × 15mm bite for cortical and cancellous bone removal during orthopedic and neurosurgical exposure. The spring handle returns the jaws between bites with consistent tension, and the 203mm length keeps the handle outside the wound while the working tips engage bone at depth.
This Kerrison rongeur delivers a 2mm bite with 40 degrees upbite geometry, optimized for controlled bone removal in spinal and orthopedic work. The curved-up architecture aligns the working edge parallel to the surgical field, supporting precise vertebral body and laminar resection. The 203mm working length provides excellent reach in deep spinal exposures.
The Bane bone rongeur combines a curved profile with a 3mm × 16mm bite for single‑action bone removal in complex reconstructions. The spring handle reduces operator hand fatigue during sustained use, essential in longer cases. Curved geometry improves approach angles within deep and angled surgical fields.
The Beyer rongeur offers a curved profile and spring handle paired with a 3mm × 14mm double‑action bite for ergonomic bone removal during extended procedures. The curved geometry improves approach angles in angled surgical fields. Spring handle action reduces hand fatigue while maintaining precise bite control.
Beyer rongeurs feature a spring double‑action handle and a 4mm × 15mm bite that excels at controlled removal of vertebral osteophytes and laminar bone during complex spinal reconstructions. The curved jaw naturally approaches cortical surfaces without binding, and the spring return assists the surgeon's hand during repetitive cutting cycles. The compact 178mm length balances reach with maneuverability. Reusable stainless steel supports many procedures.
The Blumenthal rongeur combines a 30‑degree angled geometry with a 152mm working length for bone removal in orthopedic cases where lateral approach angles optimize access. The angled bite profile allows surgeons to approach bone defects from compound angles, particularly useful in confined or angled orthopedic fields. Stainless‑steel construction ensures reliable cutting edge across repeated operative use.
The Blumenthal rongeur at 45 degrees provides an intermediate angle for access to posterolateral and oblique bone surfaces, bridging straight and 90-degree geometries. At 152mm length, this moderate-angle variant reaches laminar and facet bone while maintaining direct visual control. The Blumenthal jaw pattern delivers consistent, controlled biting mechanics in spinal decompression work.
The Blumenthal rongeur angled at 90 degrees delivers perpendicular jaw access to lateral bone surfaces and posterolateral vertebral facets where straight rongeurs cannot reach. At 152mm overall length, the instrument permits controlled two-handed bone biting in confined spinal decompression zones. The perpendicular angle geometry supports laminar and foraminal bone removal without excessive manipulation.
This straight Caspar rongeur features a 5mm bite optimized for controlled removal of bone and disc material during cervical decompression. The compact 152mm shaft length allows precision work within narrow neuroforaminal and disc spaces without bulk. Stainless‑steel construction provides durable bite edges across repeated surgical use.
The maximum-reach variant of the Casper fenestrated rongeur extends working length to 185mm, accommodating wide ventral exposures in multi-level anterior cervical procedures. The 2 × 12mm dual-fenestrated jaw maintains selective tissue protection across extended reach. Stainless steel construction withstands the mechanical demands of deep-field bone removal.
This Casper dual-fenestrated rongeur combines a 2 × 12mm bite with back-fenestration serrations that selectively grasp bone while allowing soft tissue escape. The serrated portion prevents upward migration of calcified fragments during removal from the vertebral body or lateral recess. The 140mm working length minimizes retraction trauma to neural and vascular structures.
This extended Casper rongeur variant maintains the 2 × 12mm dual-fenestrated design while extending the working length to 160mm for deeper spinal exposures. The increased reach enables surgeons to access anterior vertebral body lesions and IVD pathology without additional retraction. Serrated back-fenestration selectively contains bone fragments.
This Chichirelli rongeur features 45 degree curve with 4 × 13mm bite for efficient bone removal from facet joints and vertebral structures. The curved geometry improves approach angle to the lamina and vertebral body. Stainless steel is engineered for durable performance and edge retention across repeated surgical use.
Cleveland rongeurs feature a 4mm × 9mm bite sized for controlled vertebral body resection and laminar edge removal during decompression procedures. The spring handle provides tactile feedback and reduces hand fatigue during multiple cutting strokes, and the standard curve facilitates controlled jaw approach to cortical surfaces. Stainless steel construction supports robust performance across complex spinal cases.
The Cloward‑Harper rongeur combines a 40-degree angled jaw with a 3mm bite, designed for controlled removal of bone from vertebral bodies and intervertebral discs during anterior cervical decompression. The straight 203mm shaft delivers mechanical advantage without excessive bulk in the operative field. The angled bite geometry aligns with vertebral endplate contours.
The Cloward rongeur features a serrated bite with 6 × 10mm jaw dimensions and angled‑up geometry for controlled removal of small bone fragments during mastoid surgery and ossicular bone work. The serrated cutting surface prevents slipping on hard bone while the angled‑up head orients the bite upward for optimal visualization. At 5 inches, the length provides adequate handheld control during intricate tympanic cavity work.
The Cloward rongeur with serrated cutting surfaces removes bone and promote hemostasis during cervical spine and laryngeal procedures. Its straight 6 × 10 jaw configuration fits confined surgical corridors. The 127mm length maintains optimal hand positioning.
Cushing intervertebral discectomy rongeurs remove disc material and clear the intervertebral space during lumbar and cervical discectomy. The 45 degrees up angle reaches into the disc space without crowding the spinal canal, and the 2 × 10mm jaws grasp annular and nucleus fragments under control. The 178mm working length carries the jaws to the disc while the ring handles steady two‑finger control.
This Cushing intervertebral discectomy rongeur features a 1mm bite width and straight jaw for precision bone removal in confined spinal spaces. The 127mm working length enables access to disc herniation and ligamentous material removal during cervical and lumbar procedures. The 1mm bite provides control during soft tissue and osteophyte removal without excessive bone loss from vertebral endplates and foramen.
The Cushing intervertebral discectomy rongeur angled down forty‑five degrees is engineered for removal of disc material and bone from the intervertebral space during anterior and posterior approaches. The 2 × 10mm jaw dimensions fit confined disc spaces, and the downward angle aligns with approach trajectories to the vertebral bodies and nerve root foramina. Stainless‑steel bite edges remain sharp across extended procedures.
The Cushing intervertebral discectomy rongeur angled 45 degrees upward provides enhanced access to lateral recess stenosis and foraminal pathology during cervical and lumbar decompression. The 2mm bite width delivers controlled bone and disc removal from foramen and lateral vertebral zones without excessive cortical disruption. At 127mm working length, the angled geometry improves surgical approach without patient repositioning.
This angled‑up Cushing IVD rongeur combines a 2 × 10mm bite opening with upward jaw deflection to access intervertebral disc material and bony margins in oblique approach work. The angled geometry improves access to lateral recess osteophytes and foraminal stenosis during transcorporeal decompression. Stainless steel jaws withstand sustained cutting loads.
The Cushing IVD rongeur bites disc and end‑plate material during cervical and lumbar discectomy. The straight 1.5 × 10mm jaws fit the narrow disc space without crowding the spinal canal, and the 180mm frame keeps the working end at the intervertebral level. Stainless steel construction holds the jaw edges through repeated spine‑set reprocessing.
This Cushing IVD rongeur uses a straight jaw with a 2×10mm bite, a 125mm shaft length, and a 184mm overall length to support controlled intervertebral disc tissue removal.
The Cushing IVD rongeur features a 2 × 10mm straight jaw bite optimized for removal of intervertebral disc material and degenerative bone during discectomy procedures. The straight jaw alignment provides perpendicular approach to end plate surfaces and vertebral body margins. Stainless steel construction supports repeated cutting through dense disc material and osteophytic bone.
The Cushing vertebral disc rongeur straight profile is optimized for controlled removal of disc material and bone during discectomy and vertebral body exposure. The 2 × 10mm cup diameter fits standard intervertebral spaces, and the straight geometry enables predictable linear cutting strokes. The extended 180mm working length maintains hand safety during deep operative field access.
The Dawson-Yuhl rongeur forceps combine straight cutting jaws with a 280mm extended length for efficient bone removal in deep, inaccessible surgical fields. The 4mm jaw geometry balances bite volume with surgeon control. This design is widely used in spinal and vertebral procedures where depth and precision are essential.