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This micro discectomy cervical nerve hook with ultra‑fine tip and bayonet handle enables gentle retraction of nerve roots and dural sac during minimally‑invasive cervical procedures. The extended 104mm working length reaches deep foraminal regions without requiring additional retractor placement. The XL bayonet geometry provides ergonomic control in confined microfields.
Features & Benefits
The ultra‑micro cervical nerve hook with bayonet handle provides the finest tip resolution for delicate foraminal and lateral recess nerve root mobilization. The extended 104mm working length navigates deep vertebral foramina while the XL bayonet format maintains visibility during neural dissection. Stainless steel tip preserves fine geometry across cases.
Backward microdiscectomy cortical bone cutter on a straight XL bayonet shaft, dimensioned to a 104mm working length over a 241mm overall frame. The reversed cutting orientation engages cortical bone on the pull stroke � useful for shaping the back wall of the disc space without driving force toward neural elements. Stainless steel build holds cutting geometry through repeat sterilization.
Backward angled microdiscectomy cortical bone cutter on an XL bayonet shaft, paired with a 104mm working length over a 241mm overall frame. The backward angle directs the cutting edge toward the surgeon on the pull stroke � protecting neural elements while shaping the posterior disc wall. Stainless steel construction holds cutting edge geometry through repeated spine‑set sterilization.
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.
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.
The micro Friedman rongeur, angled 30 degrees with an extra-delicate 1.5 × 5mm bite, removes soft tissue and cancellous bone with minimal trauma to adjacent cortical and neural structures. Extremely delicate jaw configuration and angled approach prevent inadvertent injury to compressed nerve roots and critical soft tissue. Its 140mm length and precision geometry suit refined spinal decompression and delicate bone removal.
The micro Friedman rongeur is engineered for delicate removal of soft tissue and cancellous bone during fine orthopedic work. The 1.5mm × 5mm bite size suits limited exposures and precise bone‑edge trimming in complex reconstructions. Extra‑delicate tip construction minimizes surrounding tissue trauma, essential for work near neurovascular structures.
The Kerrison micro rongeur (40-degree upbite) offers a gentler angle for controlled bone removal in complex spinal decompression where anatomy is delicate or anatomy landmarks are obscured. Its 2mm jaw delivers adequate cutting power at a lower approach angle, while the thin footplate maintains safety margins around nerve roots and dura. The 203mm working length accommodates cervical through sacral access.
This micro Kerrison rongeur with 40 degrees upbite and 3mm bite delivers controlled delicate bone removal in orthopedic and spinal procedures. The angled approach accommodates surgical access angles while the compact 3mm bite preserves neighboring soft tissue, and the 230mm working length reaches deep anatomical fields.
The 10mm micro oscillating saw blade at 18.5mm overall length cuts through cortical bone under power during fine orthopedic osteotomy and small‑bone arthroplasty. The compact format suits microsurgical sagittal saw handpieces.
The Micro Oscillating Saw Blade scales up to 10mm width and 35mm length for intermediate-scale bone sectioning in orthopedic procedures targeting vertebral bodies, lamina, and periosteal work. Stainless steel construction delivers reliable cutting performance across repeat sterilization cycles.
This micro oscillating saw blade measures 5.5mm across and 14mm in total length, designed for fine precision cutting of cortical bone in limited surgical fields and around sensitive neurovascular structures. The oscillating motion generates minimal vibration compared to rotating burs, allowing surgeons to work closer to periosteum and joint capsule without tearing adjacent soft tissue. Stainless steel construction maintains blade integrity across multiple cases.
The Micro Oscillating Saw Blade measures 5.5mm wide and 18.5mm overall length, providing precision cutting geometry for fine bone work in confined orthopedic surgical spaces. Stainless steel construction ensures cutting edge retention across repeated use in vertebral body and laminal procedures.
This microdiscectomy cervical knife handle, XL size, secures standard surgical blades for percutaneous and open cervical spine procedures. The extended grip accommodates varied hand sizes and provides stable control during cutting strokes. Stainless steel ensures reliable performance and durability across repeated sterilization and surgical use.
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.
The microdissectomy dissector bayonet delivers a flat 3mm tip in straight geometry for gentle separation of soft tissue and disc material from bone and neural structures. The 254mm bayonet shaft with gray aluminum round handle positions the hand away from the operative corridor. This dissector supports safe tissue mobilization and ligament stripping in confined spaces.
The microdissectomy dissector bayonet (5mm) combines a slightly wider straight blade with 254mm bayonet geometry for progressive separation of tissue planes around the intervertebral space and foramen. The offset gray aluminum round handle maintains ergonomic control, while the broader tip supports lever‑based dissection without penetrating critical anatomy. This dissector suits systematic subligamentous and extradural work.
This mini copper mallet is lighter in weight and delivers softer impact than stainless variants, making it ideal for delicate orthopaedic work where tissue and periosteal trauma must be minimized. The 20mm cylinder head and finger groove handle provide controlled positioning during cancellous bone and graft handling. Copper construction provides non‑sparking durability across repeat procedures.