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Forward‑angled microdiscectomy cortical bone cutter on an XL bayonet shaft, sized at 104mm working length over a 241mm overall frame. The forward angle drives the cutting edge into cortical bone at the disc margin, while the bayonet preserves the surgeon's microscope sight line. Stainless steel build maintains edge geometry across repeated spine‑set sterilization.
Features & Benefits
Microdiscectomy cortical bone cutter with a forward‑angled XL bayonet shaft, dimensioned at 104mm working length on a 241mm overall frame. The bayonet offset clears the surgeon's view down the working corridor while the forward cutter engages cortical edges around the endplate and posterior longitudinal ligament insertion. Stainless steel build holds the cutting profile across repeat spinal sets.
Size 00 microdiscectomy curette with a forward‑angled cup on an XL bayonet shaft, suited to cervical disc and endplate preparation through tubular access. The forward angle lets the surgeon hook material at the leading edge of the disc space, while the bayonet offset keeps the shaft clear of the microscope sight line. The 104mm working length reaches the cervical disc reliably from standard access.
This micro discectomy curette size 0000 with forward angle and bayonet handle provides precise control during minimally‑invasive cervical and lumbar discectomy. The extended 104mm working length reaches deep into the vertebral canal and intervertebral space, while the ultra‑fine 0000 size prevents excessive endplate and nerve root trauma. Stainless steel maintains edge quality.
This microdissectomy curette combines backward angling with a round offset gray aluminum handle for ergonomic control during disc space exploration and bone work. The backward‑angled Size 1 tip accesses difficult angles within the intervertebral disc and around the posterior longitudinal ligament. Bayonet geometry provides precision access in confined neuroforaminal spaces.
This backward-angled Size 2 microdissectomy curette features a bayonet configuration that improves working angles in tight spinal canals and intervertebral disc spaces. The angled 254mm design enables surgeons to access ligamentum flavum and disc material from oblique trajectories without excessive retraction. Round aluminum offset handle enhances grip stability during microsurgical precision work.
The microdissectomy curette (Size 3, backward‑angled) delivers a rear‑angled cup profile for accessing the far lateral or contralateral foramen during endoscopic or percutaneous decompression. The 254mm bayonet with offset gray aluminum handle maintains ergonomic control, while backward angulation improves approach to deep lateral recesses and disc material.
The microdissectomy curette (Size 4, backward‑angled) offers rear‑angled geometry for reaching contralateral or posterior‑lateral foraminal bone in endoscopic or percutaneous spine surgery. The 254mm bayonet profile with offset positioning keeps the surgeon's hand clear, while backward angulation permits safe approach to deep lateral anatomy without dural contact.
The microdissectomy curette (Size 5, backward‑angled) delivers a rear‑angled profile with the largest cup for extensive decompression of contralateral foraminal and far lateral disc material. The 254mm bayonet shaft and offset gray aluminum handle position the surgeon optimally, while backward angulation maintains visibility and safe distance from neural structures. This largest backward‑angled option suits revision and complex anatomy.
The microdissectomy curette (Size 1) combines a forward‑angled small cup with gray aluminum round handle for fine‑scale bone removal in tight foraminal spaces. The 254mm bayonet shaft keeps the surgeon's hand clear of the operative corridor, while the compact cup accommodates the small diameter of the intervertebral foramen. Angled geometry enhances approach control.
The microdissectomy curette (Size 5) delivers a forward‑angled profile with round offset aluminum handle for precise bone removal in minimally invasive spinal procedures. A 254mm bayonet shaft positions the surgeon's hand away from the operative field, while the angled cup geometry aligns with lateral disc access and foraminal decompression. Forward angling improves visualization of the work surface.
The microdissectomy curette (Size 2) offers a forward‑angled cup profile sized for medium foraminal and lateral recess decompression. An offset gray aluminum round handle and 254mm bayonet shaft position the surgeon ergonomically during percutaneous and mini‑open disc access. Forward angulation provides superior visibility of the curetting surface.
The microdissectomy curette (Size 3) provides a larger forward‑angled cup for efficient bone removal during vertebral body preparation and wider foraminal decompression. The 254mm bayonet design with offset gray aluminum handle optimizes surgeon positioning in restricted surgical corridors. Angled geometry maintains direct visualization throughout the curetting pass.
The microdissectomy curette (Size 4, forward‑angled) combines the largest angled cup with 254mm bayonet geometry for substantial bone removal in larger disc spaces and vertebral body exposures. An offset gray aluminum round handle maintains surgeon comfort during extended operative time. Forward angulation ensures continuous visibility of the bony surface.
This MIS angled curette provides a 1.8mm tip in angled geometry, enabling approach to recessed bone surfaces and articular cartilage defects that straight instruments cannot reach. Black DLC coating enhances durability while the 140mm working length accommodates deep intra‑articular access. The angled approach proves especially valuable in acetabular and vertebral decompression procedures.
This MIS angled curette provides a 3.6mm tip in angled geometry, enabling approach to bone surfaces and joint recesses that straight instruments cannot access. Black DLC coating enhances durability while the 140mm working length and 292mm overall length support deep exposure corridors. The angled approach geometry proves especially useful in articular cartilage and vertebral body debridement.
This MIS straight curette features a 1.8mm tip, the smallest in the curette line, for delicate removal of bone spurs, cartilage debris, and inflammatory tissue in confined spaces. Black DLC coating provides exceptional wear resistance during extended procedures while the 140mm working length supports access into deep articular recesses. Straight geometry enables precise curettage of vertebral bodies and joint surfaces.
This MIS straight curette features a 3.6mm tip in bayonet configuration, optimized for removal of inflammatory tissue, bone spurs, and articular cartilage debris during joint and vertebral procedures. The black diamond‑like carbon (DLC) coating provides superior wear resistance, while the 140mm working length and 292mm overall length support deep field access. Straight geometry enables direct approach to bone surfaces and intramedullary defects.
This Scoville curette combines a straight geometry with a 4mm x 10mm oval cup and hollow Bruns handle, configured for controlled curettage of bone and cartilage surfaces during joint and spinal work. The 254mm length and hollow handle design support fatigue-free handling during extended procedures.
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.