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Dean (Blumenthal) rongeurs cut through bone with a 3.5mm × 11mm bite aperture, sized for controlled removal of lamina, foramen edges, and vertebral osteophytes during laminectomy procedures. The heavy 90‑degree curve positions the cutting jaw perpendicular to the spinal column, optimizing the mechanical advantage needed to sever cortical bone without slipping. Stainless steel edges remain sharp through repeated reprocessing.
Features & Benefits
This extra‑large depth gauge measures screws up to 150mm for long bone fixation in femoral and tibial procedures requiring extended implant selection. The graduated scale enables rapid accurate measurement, and the 305mm overall length provides extended reach for deep surgical corridors.
This extra‑large depth gauge accommodates orthopedic screw measurement up to 160mm, enabling accurate intramedullary and cortical screw length verification during fixation. The straight design provides direct reading without parallax error, and the 330mm overall length extends reach into deep intramedullary canals. Stainless steel construction withstands sterilization without dimensional drift.
This depth gauge measures screw lengths up to 30mm for mini‑screw fixation in small bone work and pediatric orthopedic procedures. The graduated measurement scale ensures accurate implant selection, and the compact 158.75mm length remains easy to maneuver intraoperatively.
This depth gauge measures intramedullary screw length up to 120mm, accommodating the full range of long bone fixation from small metacarpals to femoral and tibial implants. The 158.75mm overall handle length provides stable positioning and clear sight lines to the depth markings during intraoperative measurement. Durable stainless steel withstands repeated sterilization and field use.
The Deschamps ligature needle carrier (left hand) mirrors the right‑hand design with a straight profile, flat handle, and sharp tip for left‑handed needle passage around fasciae, tendons, and soft‑tissue attachments. The 200mm length maintains adequate reach, while the left‑hand orientation ensures ergonomic control and natural instrument approach during orthopaedic reconstruction.
The Deschamps ligature needle carrier (right hand) combines a straight geometry with a flat handle and sharp tip for passing sutures around tissue bundles, tendons, and ligaments during soft‑tissue repair and reattachment. The 200mm length permits reach into deeper surgical fields, while the right‑hand configuration supports natural hand placement for needle passage around periosteal and fascial planes.
This diamond pin cutter is built for end-cutting steel pins up to 2mm during fixation and frame removal in orthopedic and trauma cases. The 159mm overall length gives compound leverage at the jaw without crowding the surgeon's hand, and the diamond-coated cutting faces resist deformation against hardened pin stock. Stainless‑steel construction supports repeated reprocessing alongside the rest of the tray.
The discectomy retractor holds soft tissue and periosteum away from the intervertebral disk during cervical and lumbar diskectomy. Its 50mm × 20mm blade spans the lateral recess, and the right‑angle geometry protects underlying ligament and neural structures. The 170mm overall length suits standard posterior approaches.
The Doane Z-shape knee retractor offers a double-ended design with complementary blade geometries for reliable tissue retraction during knee arthroplasty and arthroscopic exposures. The 75 × 11mm primary blade and 57 × 11mm secondary blade provide flexible positioning options, while the compact 152mm handle maintains maneuverability in confined articular spaces.
This quick-connect drill tap combines dual-scale markings in millimeters and inches for precise thread preparation in cortical bone. The 6.5mm cutting diameter and 203mm overall length enable reliable tap advancement into the intramedullary canal during screw fixation procedures. Straight geometry supports perpendicular entry into vertebral bodies and metaphyseal regions.
The Echlin rongeur features a delicate 2mm bite width with 12mm length, curved sideways to approach laminar and facet surfaces from optimal angles during posterior spinal decompression. The double‑action mechanism reduces hand fatigue, and the 229mm length provides controlled reach.
This Echlin rongeur enlarges the bite to 3 × 12mm while maintaining the curved‑sideways approach ideal for vertebral laminae and intervertebral disc spaces. The double‑action mechanism supports sustained use during extensive decompression, and the 229mm length suits posterior lumbar and cervical exposures.
An ejecting rongeur with 40‑degree upbite action, this Ferris‑Smith‑Kerrison variant supports rapid vertebral bone clearance during midline decompression. The 4mm bite and 203mm overall length (180mm working) deliver controlled access to posterior vertebral elements. Ejector function rapidly deposits bone chips away from the surgical corridor.
This Epstein curette in size 0 carries an oval cup on a reverse‑angled neck that reaches behind bony overhangs in the spinal canal and foramen, useful for clearing disc and granulation tissue from blind corners. The hollow Bruns handle reduces overall weight without losing torque control, and the 203mm length keeps the working tip in line with deep spinal exposures.
The Epstein spinal fusion curette combines 3‑0 (Size 3‑0) dimension with reverse‑angle geometry for accessing the caudal vertebral body and fusion bed during interbody arthrodesis. The specialized curvature directs the cup inferiorly and posteriorly. At 203mm, it provides adequate reach for fusion site preparation.
Pattern #90 combines an excavator end for scooping cancellous bone with a packer end for compacting graft material back into the defect. The two complementary tips on a single shaft cut down on instrument exchanges at the field during bone grafting steps. Stainless‑steel construction tolerates the repeated compaction loads of packing against cortical walls.
The Ferris-Smith-Cloward laminectomy rongeur with 6mm bite and angled-up jaw provides excellent visualization and engagement of posterior laminar bone in wide-field decompression and fusion. The upward-angled jaw directs the cutting surface toward the lamina while the surgeon's hand remains clear of the operative field, and the 6mm bite accommodates larger-volume bone removal. The ring handle and 178mm length support controlled positioning in deep lumbar and thoracic work.
This Ferris-Smith-Cloward laminectomy rongeur combines a straight geometry with a 3mm bite and ring handle, designed for controlled removal of lamina, bone, and ligamentum fragments during spinal decompression. The 178mm length and balanced spring action support precise bone removal while minimizing soft-tissue trauma.
This Ferris-Smith-Cloward laminectomy rongeur with larger 4mm bite and straight cutting geometry expedites bone removal during wide laminar exposure and fusion preparation. The ring handle ensures a secure, fatigue-resistant grip during prolonged use in major cases, and the straight profile directs force along the spinal axis for efficient vertebral body access. The 178mm length provides stable working position and adequate reach to lower segments.
This Ferris‑Smith‑Kerrison ejector rongeur combines a 40-degree upbite jaw with a 3mm bite width, specifically designed for controlled laminar and bone-edge removal during spinal procedures. The straight 203mm shaft delivers mechanical precision for bone resection adjacent to neural structures. The ejector mechanism safely ejects cut bone fragments without requiring separate instrumentation.
Ferris‑Smith‑Kerrison rongeurs deliver a 5mm bite with 90‑degree downbite jaw orientation that cuts beneath laminar overhang and foramen edges during laminectomy decompression. The thin footplate minimizes tissue trauma during jaw insertion, and the small handle permits precise positioning in confined spinal anatomy. The 203mm working length reaches deep cervical and thoracic laminae. Reusable stainless steel endures.
The Ferris‑Smith‑Kerrison 40‑degree downbite rongeur combines a 2mm jaw opening with a thin footplate for compact bone resection along the foramen and vertebral body. An ejector mechanism and take‑apart design streamline instrument reprocessing. The 230mm working length reaches deep spinal levels while maintaining surgeon control.
The Ferris‑Smith‑Kerrison rongeur's 3mm downbite configuration provides specialized geometry for inferior laminar and vertebral body resection in spinal decompression. The ejector mechanism clears bone chips, while the thin footplate minimizes soft-tissue disruption during deep exposure work. The take‑apart design streamlines surgical tray organization and high-temperature sterilization.
Operating with 40 degrees downbite, this Ferris‑Smith‑Kerrison accesses the inferior vertebral endplate and foraminal bone during anterior diskectomy and fusion. The thin footplate reduces field obstruction, while the 4mm bite enables controlled incremental removal. The 230mm working length suits extended lower cervical and thoracic approaches.
The Ferris‑Smith‑Kerrison rongeur with 40‑degree upbite and 1mm bite provides precision bone removal from vertebral lamina and foraminal spaces. The upbite angle orients the cutting edges optimally for superior and lateral laminar work, while the small bite prevents excessive force concentration during careful spinal decompression. Stainless steel construction tolerates sterilization.
At 203mm overall length, this Ferris‑Smith‑Kerrison rongeur extends reach for mid‑to‑lower lumbar and thoracic decompression. The 40 degree upbite jaw and 2mm bite size remain consistent with the shorter model, optimizing control when working around intramedullary canal margins and posterior ligament attachments. Extended shaft reduces the need for repositioning during multi‑level cases.
The Ferris‑Smith‑Kerrison rongeur combines a 3mm bite with ejector mechanism, thin footplate, and take‑apart design for streamlined spinal decompression. The 40 degrees upbite geometry aligns cutting edges with vertebral and laminar anatomy, while the 230mm length provides excellent reach in deep exposures. The ejector automatically clears bone fragments, improving surgical efficiency and reducing case time.
Ferris‑Smith‑Kerrison bone rongeurs with 40 degrees upbite deliver superior visualization and controlled bite geometry for laminal decompression and vertebral body work. The 3mm bite removes bone precisely at the foramen and lateral recess. Stainless steel construction is engineered for reliable reprocessing and lasting durability across repeat surgical cases.
This Ferris‑Smith‑Kerrison rongeur adds a 4mm bite with ejector, thin footplate, and take‑apart configuration for efficient vertebral body and laminar resection. The 40 degrees upbite positions the cutting edge parallel to bone surfaces, supporting controlled fragmentation without slipping. The 230mm length reaches deep spinal planes, while the automated ejector maintains operative flow.