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This Peapod intervertebral disc rongeur features a 2 × 6mm dual-fenestrated jaw that selectively removes disc material while allowing ligament and neural structures to escape through the fenestrations. The curved design follows the intervertebral disc space, while the 140mm working length provides access without excessive retraction. Stainless steel construction remains reliable through repeat use.
Features & Benefits
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.
This larger Ruskin rongeur expands the bite to 6 × 16mm for greater bone removal capacity during extensive spinal decompression. The curved jaw follows vertebral body and laminar contours, the double‑action spring handle minimizes hand fatigue, and the 184mm length suits posterior cervical and lumbar work.
Ruskin rongeurs scaled to a 3mm × 15mm bite offer precision work in anatomically constrained spaces where osteophyte removal or laminar trimming must avoid adjacent neural or vascular structures. The straight jaw permits exact cutting plane control, and the spring double‑action mechanism provides consistent leverage without fatigue. The 152mm length facilitates navigation in confined regions. Durable stainless steel supports repeated use.
Ruskin rongeurs employ straight jaw alignment and a substantial 6mm × 16mm bite for aggressive removal of vertebral bodies and laminar complexes during extensive decompression or reconstruction. The double‑action spring mechanism transfers mechanical advantage directly to the cutting edge, reducing hand strain during prolonged cutting work. The 184mm length provides stable control. Stainless steel edges maintain sharpness across many cases.
The straight Ruskin rongeur provides precise bite-and-remove action for bone work throughout orthopedic surgery. Its 4mm bite encompasses sufficient bone volume for efficient removal while preserving surgeon control. At 184mm working length, this instrument reaches moderately deep fields without excessive shaft whip.
The Ruskin rongeur in straight configuration with a 5mm bite offers intermediate cutting capacity for orthopedic and spinal bone work. The larger bite removes material efficiently while the straight geometry suits direct approach angles common in open procedures. Stainless steel construction provides lasting edge definition and mechanical reliability across reprocessing.
The Ruskin rongeur, straight with delicate 2 × 14mm bite, supports precision bone removal in spinal decompression and joint procedures where soft tissue injury risk demands gentle jaw geometry. Delicate jaw pattern reduces adjacent structure trauma during neural foramen enlargement and facet bone work. Straight orientation maintains perpendicular cutting force throughout the procedure.
The Schlesinger intervertebral disc rongeur removes nucleus pulposus and disc material during discectomy procedures with a straight 3 × 10mm bite and serrated jaw surfaces for reliable purchase. The 152mm working length suits cervical and lumbar approaches, and the stainless steel construction endures extended use.
The Schlesinger pituitary rongeur, in straight geometry with serrated cup jaws, delivers a 2 × 10mm bite for precise removal of bone in spinal and skull base procedures. The 150mm working length and serrated jaw edges provide secure grip on hard bony surfaces without slipping. This eponymous pattern reflects over a century of refined neurosurgical and spinal technique.
Smith's extended 9-inch rongeur delivers a 40-degree upbite with 3mm bite, providing balanced reach and cutting power for midline laminectomy and foraminal bone removal. The 40-degree angle enables lateral-access geometry. At 229mm, the extended profile supports deep-field positioning. Stainless steel resists demanding spinal use.
Smith‑Peterson laminectomy rongeurs are engineered for precise laminar and foramen bone removal with a 3mm × 16mm bite footprint that balances precision with cutting efficiency. The spring handle absorbs impact and reduces hand fatigue during multiple strokes through dense vertebral structures, and the standard curve positions the jaw perpendicular to the spinal midline. The 241mm length provides stable control during deep cervical and lumbar access. Stainless steel maintains durability.
The Smith-Peterson laminectomy rongeur, straight with 3 × 16mm bite and spring handle, provides rapid laminar bone and ligamentum flavum removal during spinal decompression procedures. Larger bite capacity expedites bone removal, while spring-return mechanism enables rhythmic cutting without hand fatigue. Extended 241mm length facilitates access to deep cervical, thoracic, and lumbar exposures.
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.
The Stellbrink synovectomy rongeur features a heavily curved profile with a 2 × 5mm jaw that navigates around the joint capsule margin and infrapatellar fat pad during inflammatory tissue removal from the knee and shoulder. The pronounced curve orients the bite perpendicular to synovial surfaces, allowing surgeons to remove redundant membrane without damaging articular cartilage. At 171mm overall, the compact profile suits both open and minimally invasive approaches.
The Stellbrink synovectomy bone rongeur features a half-curved design with 2 × 5mm jaws for removing bone fragments and cartilage debris from joint spaces. The standard curve reduces hand torque during repetitive biting around articular surfaces. Its 171mm length maintains good control while reaching into deep synovial compartments.
The Stille‑Luer duckbill rongeur removes bone with a wide double‑action bite ideal for vertebral laminae, facet joints, and larger cortical surfaces. The duckbill profile prevents slipping on curved bone, and the 10 × 18mm jaw accommodates substantial bone removal. At 267mm, it provides extended reach.
The Stille‑Luer rongeur delivers double‑action leverage with 10mm curved bite for controlled bone removal in spinal fusion and decompression procedures. Extended 216mm length provides reach and mechanical advantage during deep vertebral work. Stainless steel construction ensures reliable reprocessing and durability across repeat cases.
The Stille‑Luer rongeur delivers a 10mm × 18mm bite with double‑action leverage for efficient cortical bone removal. The 216mm overall length and straight profile suit major spinal and orthopedic decompression. Double‑action mechanics amplify cutting power, reducing operator force across repeated bone‑removal cycles.
The Takahashi rongeur removes bone from the lamina, vertebral body, and articular process with 4mm × 10mm bite dimension. Its straight configuration aligns with posterior spinal anatomy, and the 127mm working length suits arthroscopic and mini‑open spinal procedures. Stainless steel edges maintain sharp cutting action.
This Ferris-Smith-Kerrison rongeur features a 5mm bite with 40-degree upbite configuration, sized for controlled removal of vertebral body fragments and laminar bone in orthopaedic procedures. The titanium nitride body resists corrosion and wear across numerous sterilization cycles, while the ejector footplate ensures rapid debris evacuation during extended operative sequences.
The 6mm variant of the Ferris-Smith-Kerrison rongeur offers increased bite capacity for larger bone fragments in spinal decompression. With a 40-degree upbite and titanium construction, it delivers durable performance in foramen widening and lamina excision procedures. The standard footplate and ejector provide reliable fragment management throughout extended surgical cases.
Extended to 230mm, this Ferris-Smith-Kerrison rongeur with 6mm bite and 40-degree upbite reaches deeper spinal anatomy in larger patients or complex decompression cases. Titanium construction sustains performance through high-volume orthopaedic and neurosurgical caseloads. The longer shaft maintains mechanical advantage while the upbite geometry preserves precision in confined vertebral spaces.