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This sharp 90‑degree angled hook with heavy curve geometry is designed for atraumatic elevation and retraction of the dura mater and cerebral cortex during neuro procedures. The sharp tip enables precise dissection without tissue crushing, while the heavy curve supports three‑dimensional positioning in deep cranial fields. Overall length of 185mm enables comfortable hand placement during intracranial exposure.
Features & Benefits
The Spurling‑Kerrison foraminotomy rongeur combines a heavy‑curved (90‑degree) jaw with a 4mm bite, designed to remove ligamentum flavum and laminar bone during posterior cervical and lumbar decompression. The curved shaft delivers biting force at the surgical target while the handle remains clear of the operative field. At 203mm working length, the instrument suits both standard and minimally invasive exposures.
The Spurling-Kerrison rongeur combines a heavy upward curve at 90 degrees with a 3mm bite aperture for targeted bone removal during spinal decompression. The curved approach angles the cutting edges for access to ventral lamina and vertebral body resection in the spinal canal. The 203mm working length permits controlled bone-biting in confined cervical and lumbar spaces.
These Strully scissors provide the fine, controlled dissection essential for intracranial neurosurgery where precision preserves neural and vascular structures. The straight blades and ring handle enable delicate movements in confined dural and cerebral spaces, while the 200mm length offers reach into deep cranial cavities without compromising microscopic control. Stainless steel withstands high-temperature sterilization cycles.
This transsphenoidal bayonet dissector features a knife handle with a bayonet‑angled working end, suited for delicate dissection in confined transsphenoidal approaches to the sella turcica. The 133mm working length penetrates to target anatomy while the 248mm total length maintains ergonomic hand positioning. Stainless steel construction ensures lasting edge sharpness.
The double‑ended Woodson dural separator/packer at 178mm pairs a sharp blade for dural separation with a blunt packer face for surgicel or gelfoam placement during neurosurgical hemostasis. The two ends cover the most common neurosurgical handling tasks in one instrument.
This double-ended Woodson dural separator/packer supports membrane dissection and packing during dural opening and closure. The blunt ends prevent inadvertent dural perforation, while the dual-end design provides flexibility in instrument positioning. At 178mm, the length accommodates midline and paramedian dural work across routine and complex neuro cases.
The Woodson double‑ended dural separator and packer is designed for controlled separation of dura from bone and surrounding soft tissue during cranial decompression and posterior fossa exposure. The dual ends enable both blunt dissection and packing functions without instrument exchange. Overall length of 178mm supports stable hand positioning during extended intracranial procedures.
These Yasargil bayonet scissors with straight smooth blades and squeeze-handle control deliver precision cutting for fine arachnoid membrane dissection and subarachnoid plane separation. The bayonet offset improves visibility in deep surgical corridors, while the squeeze mechanism provides fingertip-controlled cutting action. At 191mm, the instrument balances reach with cutting precision.
Yasargil ligature guide with a ball-tip design protects vascular structures during suture passage in microsurgical anastomosis and aneurysm neck dissection. The ball geometry guides suture material around vessels without penetrating the vessel wall or dural sinus. The ligature guide reduces operative time during complex microvascular work.
This Yasargil ball-tip ligature guide variant delivers the same protective geometry for vessel-sparing suture passage in complex microvascular dissection and vascular clip application. The round ball contact protects perforating vessels and dural sinuses during ligature placement. Its role is critical in preserving neurovascular integrity.
The bayonet-offset design of this Yasargil micro curette permits angled approach to tissue surfaces within confined skull base and ventricular spaces. The bayonet geometry offsets the working tip from the instrument shaft, improving visibility while reducing instrument shadow. The curette edge provides delicate scraping for dural attachments and inflammatory tissue removal.
This Yasargil angled micro dissector variant supports controlled dissection around curved neural structures and vascular loops in the cerebral hemispheres and brainstem. The angled tip permits approach to tissue planes that deviate from the straight axis, while minimizing crush risk on adjacent structures. The 184mm length provides balanced reach in microsurgical work.
Yasargil micro dissector with an angled tip profile enhances approach geometry for precise dissection in the cerebral sulci and white matter planes. The angled blade aids systematic separation of subarachnoid membranes from cortical surfaces without inadvertent drift. The 185mm length maintains adequate reach in deep hemispheric approaches.
This Yasargil angled micro dissector variant supports controlled dissection along arterial planes and dural reflections in the parasellar and anterior skull base regions. The angled geometry permits sweeping motion around vascular loops without direct compression. At 185mm, the instrument suits confined deep surgical spaces where straight instruments would obstruct visualization.
The downward-curved blade on this Yasargil dissector suits dissection along inferior neural planes, particularly in infratentorial and brainstem exposures. The downward geometry allows approach from superior to inferior along the anatomical planes naturally occurring in posterior fossa work. At 185mm, the instrument reaches targets while maintaining adequate visualization.
A slightly curved blade profile distinguishes this Yasargil dissector for contour-following dissection in the cerebral gyri and white matter tracts. The gentle curve aids separation of anatomical planes that deviate from the straight axis, while maintaining full visibility of the operative field. The 185mm length provides balanced reach and control.
A strongly curved blade geometry on this Yasargil dissector enables aggressive retraction of brain tissue in deep surgical corridors such as the ventricular approaches and brainstem regions. The pronounced curve angle penetrates around obstacles and permits sustained retraction without direct compression. The 185mm length balances reach with instrument visibility.
Yasargil micro scissors with a straight blade profile and 16.5mm cutting edge provide precision dissection for fine neural and vascular work in the cerebral cisterns and skull base. The blade length enables controlled cutting of delicate arachnoid membranes and nerve root envelopes without blind-spot tissue injury. At 222mm overall length, the instrument maintains clear sightlines.
A curved blade profile combined with bayonet offset characterizes these Yasargil scissors for contour-following dissection of curved anatomical structures in the cerebral cisterns and skull base. The curve enhances blade contact with curved neural surfaces, while the smooth edge prevents fraying of delicate arachnoid tissue. The 191mm length maintains visualization.