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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.
The Dandy nerve hook with a 90-degree angled tip and straight shaft provides precise mobilization of spinal nerve roots and cranial nerves during skull base and spinal decompression approaches. The angled geometry permits sweeping underneath nerve roots without direct compression, while the 230mm length reaches deep within the spinal canal and posterior fossa. Reliable angle retention supports repeated procedural use.
This straight Dandy nerve hook supports atraumatic retraction and identification of cranial and spinal nerves during neurosurgery. The fine 228mm shaft allows delicate manipulation without neural injury, and the hook geometry prevents nerve slippage during prolonged retraction. Stainless steel construction withstands repeated reprocessing across routine neuro cases.
The Dandy nerve hook angles the blunt tip 90 degrees on a right‑angled 229mm shaft, sized for atraumatic lifting and retracting of nerves during neurosurgical and orthopedic exposure. The blunt tip preserves the perineurium, and the right‑angled shaft sets the hook clear of the operator's view.
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.
This McCulloch nerve root retractor features a 6mm blade and a 127mm shaft length for controlled retraction of neural structures.
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.
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.
This large Rhoton transphenoidal speculum incorporates larger blades with a 102mm length for expanded transsphenoidal exposure.
This small Rhoton transphenoidal speculum includes short blades with an 89mm length to support targeted transsphenoidal access.
Blunt at the tip yet angled 90 degrees, this Rhoton hook provides controlled retraction of the spinal cord, nerve root, and brainstem during dorsal midline approaches. Its 191mm length ensures adequate working distance in deep intramedullary cavities and lateral recesses. The blunt geometry prioritizes safety when retracting delicate neural tissue adjacent to critical vascular structures.
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.
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.
This Scoville nerve root retractor features an angled blade geometry designed for controlled retraction of spinal nerve roots during laminectomy and discectomy. The 8mm blade provides selective root displacement without excessive stretch injury, and the 216mm length facilitates access to mid and lower lumbar exposures. Angled geometry aligns with root anatomy and improves workspace visibility.
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.