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This slightly curved neurosurgical dissector features a blunt 6mm tip designed for safe tissue plane separation. The round knurled handle provides secure grip during delicate dissection, and the 267mm length accommodates access to deep midline and paramedian structures. Blunt geometry minimizes inadvertent neural tissue trauma during dissection in confined spaces.
Features & Benefits
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 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 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.
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.
The Rhoton medium spatula dissector offers versatile blade surface for both fine dissection and broad dural elevation during cerebral and brainstem exposure. Its straight 191mm working length maintains tactile feedback and visibility in confined cranial and spinal fields. The flat blade distributes force evenly across delicate tissue planes, supporting atraumatic separation of white matter, sulci, and gyri.
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.
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.