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The Cushing decompression retractor is purpose‑built for holding open laminae, vertebral bodies, and spinal canals during laminectomy, laminoplasty, and intradural tumor removal. Its geometry supports hands‑free retraction of dura and nerve roots, freeing the surgeon's hands for delicate dissection and removal. Stainless steel construction ensures reliable performance across multiple surgical cases.
Features & Benefits
The D'Errico-Adson cerebellum retractor combines the precision of Adson-pattern prongs with reinforced mass for deeper cerebellar and brainstem retraction. Its 4 × 4 sharp-prong array and angled geometry enable controlled manipulation of delicate hindbrain structures without slipping, while the 187mm length provides surgical reach into the posterior fossa. Slightly angled construction improves ergonomic approach.
Designed for precision cutting of small neural structures, these Dandy trigeminal scissors feature a curved blade with backward angled ring handles that maintain excellent visualization during delicate dissection. The 171mm length and ring grip provide stable tactile feedback during trigeminal nerve exposure and cranial nerve root division. The standard curve supports clean tissue planes without catch or bind.
Extended to 178mm, these Dandy trigeminal scissors provide enhanced reach during deep basilar and cerebellopontine angle work. The backward‑angled ring handles preserve the surgeon's line of sight to delicate neural anatomy while maintaining precise cutting control. The curved blade geometry follows neural contours naturally, supporting fine division of the trigeminal nerve and adjacent structures.
The Krayenbuehl nerve hook's ball tip minimizes risk of traction injury when mobilizing delicate cranial nerves and nerve roots during skull base and spinal surgery. At 184mm with a straight geometry, it provides excellent reach and control during brainstem manipulation and dural opening. The rounded tip distributes load across a wider surface, protecting the epineurium and axonal architecture.
Multiple toothed muscle blades distinguish the McCulloch retractor for controlled spinal cord and nerve root retraction during laminectomy and dural sinus approaches. The interlocking tooth pattern distributes lateral retraction force evenly across delicate neural tissue while minimizing stretch injury. At 50mm length, the blade geometry enables proximal fixation in the surgical canal without obscuring the operative field.
This micro bayonet elevator dissector combines a gentle upward curve with a narrow working edge, allowing controlled separation of the dura from bone during spinal and cranial decompression. At 229mm, its extended length supports access to deep vertebral bodies and lateral recesses. The slight curvature enhances ergonomic leverage during prolonged retraction and dissection.
The nickel‑silver brain spatula at 12.7mm width on a 178mm body delivers atraumatic neurosurgical retraction with the malleability and biological inertness of nickel silver. The narrow blade suits focal retraction where minimal cortical displacement is wanted.
The Rhoton ball dissector features a 0.8mm spherical tip angled 40 degrees, with a 4mm bend‑to‑tip geometry that accesses confined spaces along the brainstem and ventricles. At 191mm overall length, the instrument suits microscopic dissection through narrow operative corridors. The rounded tip bluntly separates tissue planes without tearing cranial nerves or vulnerable vascular structures.
This Rhoton ball dissector variant extends the bend‑to‑tip distance to 8mm, providing additional reach into the deep fourth ventricle and infratentorial spaces while maintaining blunt tissue separation. The 0.8mm sphere and 40‑degree angle remain ideal for atraumatic dissection around cranial nerve fascicles. The 191mm shaft delivers consistent tactile feedback through confined operative passages.
A 0.8mm ball dissector tip characterizes the Rhoton ball dissector for microsurgical separation of fine neurovascular planes and delicate dural attachments. The spherical geometry distributes dissection force gently across a point contact, reducing stretch injury risk during intradural and intraparenchymal work. The straight 191mm shaft supports precision dissection in confined surgical spaces.
The Rhoton general elevator combines angled geometry with a blunt working edge for controlled tissue separation in deep cranial spaces. At 191mm length, the instrument extends reach to the ventricles and cisterns while providing tactile feedback through the handle. The angled tip accesses confined surgical corridors near the brainstem and cranial nerves.
The curved Rhoton general elevator separates dural and adventitial planes during microsurgical neurosurgical dissection. A standard curve at the working tip approaches the cortex, cranial nerves, and surrounding vascular structures at an oblique angle, while the 7-1/2 inch (191mm) overall length keeps the surgeon's hand outside the operating microscope's view. Stainless‑steel construction supports the polished tip across repeat sterilization.
At 45 degrees, this Rhoton hook offers a gentler approach angle for dissection along the lateral wall of the brainstem and cerebellopontine angle. The semi‑sharp working edge permits delicate retraction of cranial nerves and vascular structures without inadvertent trauma. Its moderate curve supports both blunt dissection and tissue elevation in confined spaces.
A blunt angled hook at 90 degrees distinguishes the Rhoton nerve hook for controlled mobilization and retraction of nerve roots and cranial nerves during spinal and skull base approaches. The angled geometry permits sweeping motion around neural structures without risk of puncture or crush injury. At 191mm, the length provides adequate reach within the spinal canal and posterior fossa.
Angled 90 degrees for precise nerve root and dural retraction, this Rhoton hook features a semi‑sharp tip that engages delicate neural tissue without crushing or perforating. The 191mm length ensures adequate working distance during cervical and lumbar exposure. Its hooked geometry enables controlled elevation of the thecal sac or nerve root away from underlying vascular structures.
The Rhoton micro curette carries an angled 1 × 2mm cup on a 191mm body, sized for delicate neurosurgical debridement under microscope magnification. The compact cup removes small volumes of tissue with high precision, and the angled geometry tracks tight pockets.
The Rhoton micro curette's 1 × 2mm cup enables removal of bone fragments, adhesions, and pathological tissue from confined surgical cavities with precision and minimal collateral damage. Its straight working length of 191mm supports access to deep intramedullary cavities and ventricles. The semi‑sharp cup edge permits controlled scraping of lamina, vertebral body, and dural interfaces.
The Rhoton spatula dissector is engineered for atraumatic separation of neural tissue planes during cerebral and brainstem exposure. Its large flat blade provides gentle leverage against white matter and dural surfaces without piercing delicate vascular or neural anatomy. At 191mm, the straight geometry supports midline and paracranial dissection with excellent reach and tactile feedback.
The Rhoton medium spatula dissector provides a medium-width blade for atraumatic separation of subarachnoid and intraparenchymal planes during neurosurgical dissection. Its straight 191mm profile suits both cortical surface work and deep white matter exposure, allowing systematic plane separation while protecting adjacent neural tissue. The blade's geometry concentrates dissection force along a narrow edge.
The Rhoton spatula dissector (small) combines a flattened blade tip with straight geometry for atraumatic parenchymal and laminar separation during supratentorial and infratentorial procedures. At 191mm, the length suits microscopic dissection along the cerebral cortex and brainstem. The dissector edge slides through tissue planes without crushing delicate neural structures.
The Rhoton straight‑point needle is a semi‑sharp dissecting instrument designed for delicate probing and tissue separation in deep cranial locations. At 191mm, it provides adequate reach to suprasellar cisterns and intraventricular sites while maintaining precise tactile feedback. The semi‑sharp tip allows controlled penetration of tough dural septa without soft neural tissue injury.
A 2mm ball-tip design combined with round-handle ergonomics characterizes this Rhoton-style dissector for precise separation of intricate neurovascular relationships in the cerebral cisterns and brainstem regions. The ball contact minimizes crush risk on delicate cranial nerves and perforating vessels. The round knurled grip supports tactile control during sustained microsurgical dissection.
The Rhoton round dissector features a 2mm tip optimized for precise elevation of the cerebral cortex, pia, and neural tissue during neuro procedures. The rounded tip geometry minimizes trauma to delicate neural structures and laminar tissue planes. Overall length of 191mm supports ergonomic hand positioning during prolonged microsurgical dissection.
Equipped with a semi‑sharp tip at 90 degrees, this Rhoton hook combines gentle cutting capability with controlled retraction during trigeminal nerve decompression and cerebellopontine angle dissection. The 191mm shaft permits adequate exposure of cranial nerves V, VII, and VIII during delicate skull base work. The semi‑sharp geometry enables division of adhesions and arachnoid membranes without crushing underlying nervous tissue.
Sachs nerve separator combines a narrow blade geometry with straight shaft design for precise dissection and separation of spinal nerve roots and cranial nerves from surrounding dural attachments. The 197mm length reaches deep within the spinal canal during laminectomy procedures, while the thin tip permits delicate nerve-root mobilization without compression. Reliable edge retention supports repeated microsurgical separation.
The scalp contour retractor provides stable, hands-free elevation of scalp flaps during neurosurgical exposure. Its 1 × 1 blunt prong geometry distributes pressure evenly across the scalp, preventing crush injury to underlying periosteum and bone. The 133mm length suits standard craniotomy approaches, and the contoured handle aids in one-handed deployment.
The angled 3 × 4 blunt prong scalp retractor provides stable, atraumatic holding of the scalp edge during craniotomy and skull base exposure. Its blunt prongs grip tissue gently without creating pressure necrosis, while the angled geometry allows self‑retaining fixation at multiple angles. At 140mm, this retractor suits both large and focused skull base approaches.
The Schlesinger pituitary rongeur combines serrated cup jaws with a 2 × 10mm bite for controlled pituitary and sellar tissue removal during transsphenoidal procedures. The straight 127mm working length supports precision positioning. Serrated jaw design prevents slipping on moist osseous surfaces common in neuro work.
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.