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The Smith-Peterson osteotome, 13mm wide and 203mm long, delivers controlled bone separation and fracture line creation during spinal procedures and long-bone work. Its sharp straight blade generates clean osteotomy edges without chatter or microcracking. Extended overall length and balanced weight distribution support precise mallet strikes to the periosteal and cortical layers.
Features & Benefits
The Smith‑Peterson osteotome's 13mm straight blade provides maximum cutting width for large bone surface preparation and metaphyseal osteotomy work. The hollow handle reduces weight during prolonged surgical procedures, while the 203mm length delivers excellent leverage for fracture reduction. Stainless steel edges maintain consistent cutting performance across repeated surgical cases.
Smith‑Peterson osteotome, straight 6mm blade, delivers precision bone division in orthopedic and spinal reconstruction. The slim blade profile enables controlled entry between adjacent bone structures and through dense cortical layers. The 200mm length provides stable field access.
The Smith‑Peterson osteotome combines a 6mm straight blade with hollow handle geometry, designed for controlled bone cutting and osteotomy preparation in orthopedic surgery. The wide blade distributes impact force across cortical surfaces, supporting clean fracture lines without splintering. The 203mm length and hollow handle reduce fatigue during repetitive orthopedic procedures.
Smith‑Peterson osteotome, 19mm wide, is engineered for controlled bone cutting in hip reconstruction and pelvic osteotomy procedures. The straight blade delivers direct cutting force through dense cortical bone. Stainless steel ensures durable edge retention and reliable performance for repeated surgical use.
Smith‑Peterson osteotomes drive measured cuts through cortical and cancellous bone in hip and pelvic work. This 10mm wide straight edge sits on a 200mm shaft, balancing the leverage needed for acetabular preparation and femoral osteotomies. Stainless steel construction holds the working edge through repeated mallet strikes and routine sterilization.
This Smith‑Peterson osteotome features a 10mm straight blade with hollow handle for aggressive bone cutting during fracture reduction and joint reconstruction. The wider blade profile provides enhanced cutting authority while distributing impact load across larger cortical surfaces. The hollow handle and 203mm length support sustained surgical work without operator fatigue.
Wider at 16mm, this Smith‑Peterson osteotome delivers broader cortical passes during acetabular and femoral preparation. The straight 200mm shaft positions the cut at the right depth for hip work, and the wider edge clears more cancellous bone per strike. Stainless steel construction holds the edge through repeat mallet impacts and autoclave cycles.
Pattern #45 soft corn knife carries a round straight blade for paring keratotic interdigital lesions. The rounded edge follows the curvature of the toe webspace without scoring adjacent healthy skin. Stainless‑steel construction holds the working edge through repeated sharpening and sterilization cycles.
An oval slightly curved blade on this soft corn knife wraps gently around the toe webspace contour for paring keratotic tissue between adjacent toes. The mild curvature reaches lesions tucked under the proximal phalangeal head without lifting the cutting edge off the skin. Stainless‑steel construction retains the edge across repeat reprocessing.
Replacement parts for the 180mm orthopedic wire cutter restore the instrument's bite on Kirschner wires and cerclage stock without committing to a full handpiece replacement. Stainless steel components match the original assembly tolerances and reseat into the existing frame. Reusable construction extends the working life of the parent cutter across orthopedic and trauma sets.
This spare parts kit for a wire cutter instrument (280mm total) maintains inventory availability when primary cutting edges dull or handles fatigue from repeated cases. The modular replacement design allows surgeons to refurbish existing instruments rather than purchasing new tools, reducing capital costs in high‑volume orthopedic practice. Stainless steel components resist oxidation and maintain dimensional stability.
These spare rubber jaw components and fastening screws maintain the sealing and cutting function of reusable jaw instruments used in skeletal fixation and traction procedures. The modular design enables efficient repair and extends instrument lifecycle without full replacement. Stainless steel fasteners resist corrosion across repeated sterilization and clinical use.
This double-ended spatula and packer combines a flat spatula blade on one end with a rounded packer on the other, enabling flexible manipulation of bone graft and soft tissue during fusion procedures. The octagonal handle provides secure non-slip grip during repetitive packing strokes, and the compact 146mm length allows easy positioning in confined spaces such as the intramedullary canal or fusion bed. Stainless steel construction withstands mechanical forces and thorough sterilization.
The spinal curette, size 0, features a reverse-angled tip for accessing vertebral bodies and laminar surfaces during spinal fusion and decompression procedures. Its 229mm length and reverse angle support controlled debridement in confined spinal compartments. Straight shaft design maintains excellent visibility and tactile feedback.
The size 0000 spinal curette with reverse angle and 229mm length provides fine, controlled curetting of vertebral body surfaces and intervertebral disc space margins. The angled geometry improves access to confined spinal anatomy, while the small curette size supports delicate work in neural foramina and around nerve roots. Stainless steel maintains edge sharpness across routine reprocessing.
The size 00000 spinal curette features reverse-angle geometry and extended 229mm length for ultra-fine curetting and debris removal from vertebral body surfaces and intervertebral spaces. The diminutive cup size allows work in tight neural foramina and around delicate neural structures without inadvertent trauma. Stainless steel construction supports durable, repeatable performance.
This size 00 spinal fusion curette with a 30‑degree forward angle improves surgical approach to oblique endplate orientations and narrow disc spaces in revision fusion scenarios. The angled geometry allows surgeon access to posterior vertebral body zones and tight interbody corridors while the 381mm length maintains depth reach. Forward angulation enhances visualization without requiring patient repositioning.
This size 00 spinal fusion curette refines the working surface for ultraprecise cancellous bone curetting in confined vertebral spaces. The diminished 0.75mm tip allows surgeon access to tight interbody corridors during revision fusion or microdecompression endplate preparation. At 381mm, this instrument bridges the depth required for lumbar and lower thoracic levels with minimal disruption to surrounding ligament and capsule.
The extended‑length spinal fusion curette Size 000 with forward thirty‑degree angulation provides ultra‑fine access to confined vertebral spaces and disc margins during anterior and lateral approaches. The diminutive Size 000 tip navigates narrow intervertebral disc spaces while the angled geometry reaches difficult margins. The 381mm shaft ensures hand safety and field clarity.
At size 000, this spinal fusion curette achieves the finest working surface for delicate cancellous bone removal in the most confined endplate zones. Its straight shaft navigates narrow interbody corridors without over‑resecting bone or disturbing adjacent ligamentous structures. The 381mm length supports stable positioning at deep lumbar and mid‑thoracic levels.
With a 30‑degree forward angle, this size 0000 spinal fusion curette enables precise endplate curettage in the tightest revision fusion zones and confined interbody spaces. The angled tip navigates asymmetric endplate topography and posterior vertebral body margins without excessive retraction or ligamentous disturbance. At 381mm, it maintains reach to deep lumbar and mid‑thoracic levels.
This size 0000 spinal fusion curette delivers the most refined working tip for minimal‑access endplate preparation in pediatric or revision fusion scenarios. Its straight profile enables precise bone contouring without excessive cortical removal, preserving the vertebral body's structural integrity. The 381mm length maintains reach to deep spinal levels across all age groups.
This size 3 spinal fusion curette with 30‑degree forward angle supports controlled endplate removal in mid‑range intervertebral spaces during revision and primary fusion work. The angled profile enhances approach geometry to asymmetric endplate margins and lateral recess zones. At 381mm, it provides deep access to lumbar and lower thoracic vertebral bodies with improved surgical ergonomics.
With a 30‑degree forward angle, this size 5 spinal fusion curette addresses broader endplate zones while maintaining angled access to posterior vertebral margins and lateral margins in fusion procedures. Its expanded curette surface supports efficient multi‑level bone harvest, and the angled geometry improves visualization without excessive retraction. At 381mm, it reaches all spinal levels.
At size 6 with a 30‑degree forward angle, this spinal fusion curette delivers maximum working surface and superior angled access to wide vertebral body endplate zones. The forward angulation enhances approach to posterior and lateral vertebral margins during corpectomy and multi‑level fusion, while the 381mm length maintains reach to deep lumbar and mid‑thoracic levels.
At size 6, this spinal fusion curette provides the widest working surface for aggressive cancellous bone removal during corpectomy and multi‑level endplate preparation. The straight configuration delivers uniform curetting force, minimizing cortical disruption during large‑volume bone harvest. At 381mm, it reaches all spinal levels while providing tactile feedback throughout the procedure.
This extended‑length spinal fusion curette Size 0 is angled forward at thirty degrees to access vertebral endplate margins and lateral recess regions that straight instruments cannot reach. The 381mm length brings visualization to deep operative fields while the thirty‑degree forward angle navigates complex posterolateral anatomy. Ideal for revision and challenging single‑segment approaches.
This size 0 spinal fusion curette is a straight instrument designed for controlled cancellous bone harvesting and endplate preparation during vertebral body fusion procedures. The minimal 1mm working surface allows precise access within the intervertebral space and tight surgical corridors. At 381mm overall length, it reaches deep lumbar and thoracic levels while maintaining tactile feedback to the surgeon.
The extended‑length spinal fusion curette Size 1 is designed for access to deep lumbar and thoracic fusion sites where standard 229mm instruments fall short. The 381mm length positions the surgeon's hand and proximal shaft well clear of the operative field during vertebral endplate and disc space work. Straight geometry enables predictable linear strokes.