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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.
Features & Benefits
The 90 degree upbite angle on this larger Ferris‑Smith‑Kerrison rongeur delivers a more vertical bite trajectory suited to posterior midline decompression and foraminotomy. The 6mm bite removes substantial bone from the vertebral body and facet joints, while the thin footplate minimizes periosteal stripping around adjacent lamina. At 180mm overall, the instrument reaches mid‑to‑lower lumbar levels with reduced surgeon fatigue.
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 1.5mm fine bite and 40-degree upbite delivers precision bone removal in micro-decompression and revision spinal procedures. At 230mm with titanium construction, it combines delicate bite capacity with material durability across numerous high-volume cases. The ejector mechanism supports clean fragment evacuation in confined operative fields.
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.
This Ferris-Smith-Kerrison rongeur configured with a 40-degree upbite, 2mm bite, and blue handle on a 203mm shaft, is engineered for controlled bone removal in spinal foramen and recess enlargement. The angled bite improves access angle to deep foraminal bone while maintaining precise cutting.
This Ferris-Smith-Kerrison rongeur with 90-degree upbite and 5mm bite combines the steep approach angle of the 90-degree geometry with a larger bite capacity for efficient bone removal in lateral recess and foraminal widening. The green color-coded handle enables rapid instrument identification in a complex tray setup, and the 203mm working length provides excellent reach into deep lateral and foraminal spaces. The increased bite capacity accelerates progress in wide decompression.
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 Friedman rongeur, curved with delicate jaws and 4 × 11mm bite, addresses soft tissue and cancellous bone removal in spinal decompression where a larger bite capacity paired with gentle jaw geometry prevents neural structure injury. Curved approach facilitates navigation around nerve roots and ligamentous structures. Delicate jaw pattern distributes force to minimize cortical crack propagation.
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.
The Kerrison bone rongeur (Size 0) delivers a compact 3.5 × 2.5mm jaw profile for precise bony fragment removal in spinal decompression and joint access surgery. A 100mm working length and straight geometry support controlled approach along the vertebral body, lamina, and foramen. The bite capacity suits fine resection of cortical and cancellous bone.
Size 1 Kerrison bone rongeur removes trabecular and cortical bone from the intramedullary canal and vertebral body during decompressive laminectomy. The 4mm × 8mm jaw opening and 100mm working length enable controlled sequential bites near critical spinal structures. Stainless steel construction ensures lasting performance across spine procedures.
The Kerrison size 2 bone rongeur combines a 4.5 × 8mm jaw configuration with 100mm working length, suited for moderate‑scale bone resection in spinal and orthopedic exposure. The size 2 geometry balances cutting force with control, and stainless steel jaws maintain sharp edges through multiple reprocessing cycles. Working length of 100mm extends reach to deeper structures.
This Kerrison bone rongeur, size 3, presents a 5mm jaw with an 8mm opening on a straight 100mm working shaft for laminectomy and foraminotomy bone bites. The slim profile reaches lamina and ligamentum flavum without crowding the spinal canal, and the 8mm gape lets the surgeon engage thicker cortical edges in one pass. Stainless steel construction withstands repeated spine‑set reprocessing.
The Kerrison‑Costen rongeur features a curved shaft with 90‑degree downward angle, enabling bone resection in angled approaches such as lateral cervical or temporomandibular access. The 3 × 3mm bite suits fine bone work, and the 102mm working length penetrates to target anatomy while maintaining ergonomic hand position. Stainless steel durability ensures consistent performance.
This Kerrison rongeur steps the bite angle to 40 degrees while maintaining the 2mm bite and 180mm working length, allowing oblique approach angles that accommodate irregular spinal anatomy. The moderate angle preserves field visualization better than perpendicular cuts while keeping working depth extended. Stainless steel construction endures repeat sterilization.
This Kerrison rongeur scales up to a 4mm bite while maintaining the 40‑degree upbite and thin footplate, accommodating larger bone fragments in orthopedic and spinal procedures. The wider bite expands the working capacity without sacrificing visualization, and stainless steel construction provides consistent cutting edge retention through reuse.
The Kerrison rongeur with 40‑degree upbite and 5mm bite is engineered for controlled bone removal in spine and orthopedic procedures, including laminectomy, foraminotomy, and decompression around the neural elements. The 203mm working length reaches deep into spinal corridors while the upbite geometry directs the cutting head away from the underlying dura and nerve root. Stainless‑steel construction holds the cutting edge across repeat reprocessing.
This Kerrison rongeur combines a 5mm bite with 40 degrees upbite architecture, designed for controlled laminar and vertebral body resection in spinal decompression. The angled cutting edge aligns precisely with the surgical field, while the 180mm working length supports midline and lateral spinal exposures. Stainless steel construction withstands sterilization and multiple surgical cases.
The Kerrison rongeur's 40 degrees upbite and 5mm bite geometry provide controlled bone removal for vertebral body and laminar resection in spinal procedures. The straight shaft maintains excellent working-length access during deep spinal exposures, while the 203mm length accommodates extensive decompression cases. Stainless steel construction reliably handles routine autoclave reprocessing.
With a 90‑degree upbite and extended 180mm working length, this Kerrison rongeur reaches deep spinal anatomy while maintaining clear visualization of the bite site. The 2mm bite size refines bone removal in confined neurosurgical corridors, and the perpendicular cutting geometry prevents tissue entanglement. Stainless steel jaws resist chipping across repeated clinical reuse.
This Kerrison rongeur features a 90 degrees angled upbite configuration with a 2mm bite, optimized for removal of laminar bone and ligamentum flavum in posterior spinal decompression procedures. The steep angled approach enables access to bone beneath ligaments and facet joints while maintaining visibility. Regular footplate and 180mm working length support stable handling in deep surgical corridors.
The Kerrison rongeur operates without a hinge mechanism, allowing bone removal from the vertebral body and lamina via a 40 degrees curved trajectory. Its 4mm bite and 203mm working length enable controlled vertebral endplate clearance and foraminal decompression. Stainless steel construction delivers reliable cutting performance across repeat spinal cases.
The Kleinert‑Kutz synovectomy rongeur features delicate 2 × 13mm jaw geometry with gentle curve for atraumatic removal of synovial tissue and debris during arthroscopic and open synovectomy procedures. The double‑action mechanism provides smooth, controlled cutting force optimized for fragile synovial membrane and joint capsule work. Compact 150mm length enables precise control in confined joint spaces.
The Kleinert‑Kutz synovectomy rongeur features delicate 2mm × 13mm jaws with a spring‑loaded double‑action mechanism for precision soft‑tissue removal. The gentle curve geometry improves access to synovial tissue within confined joint capsule spaces. Designed for controlled work in hand joints during synovectomy and arthroscopic procedures.
The Kleinert‑Kutz synovectomy rongeur features a slightly curved delicate design suited for precise joint capsule and synovial work during hand and wrist procedures. The 3 × 16mm bite balances removal capacity with precision control, the spring mechanism reduces hand fatigue, and the 152mm length enables fine maneuvering.
The Leksell rongeur curves at fifteen degrees with an 8mm × 16mm double‑action bite for bone removal within confined spinal exposures. The 229mm length provides extended reach while maintaining balanced control. Gentle curve geometry improves approach angles during laminectomy and vertebral body work.
This wide‑jawed Leksell variant (8mm × 13mm bite) with 50‑degree curve handles aggressive cortical removal when extended decompression is needed across multiple laminal levels. The double‑action mechanism produces substantial cutting force, and the pronounced curve positions the jaw favorably against vertebral body and laminar surfaces. The 230mm length provides stable control during extensive bone removal. Stainless steel offers lasting durability.