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The Ferguson suture needle combines a half‑circle half‑loop profile with a tapered point, making it ideal for softer tissue planes in gynecologic or visceral closure. The tapered geometry distributes entry force gradually, protecting delicate tissues from blunt trauma. Size 5 scale addresses intermediate tissue densities in routine abdominal procedures.
Features & Benefits
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.
This Ferris‑Smith‑Kerrison rongeur delivers a 4mm bite with 40 degrees upbite geometry and 203mm working length for efficient spinal bone removal in moderate-depth exposures. The upbite architecture aligns the cutting edge with vertebral and laminar surfaces, supporting controlled fragmentation. Stainless steel construction maintains edge integrity across repeated surgical procedures.
This extended‑length Ferris‑Smith‑Kerrison features a 40‑degree upbite and 5mm bite optimized for controlled facet joint and laminar removal. The 275mm overall length (9 inches) extends reach to deeper spinal levels during posterior approaches. Upbiting geometry preserves surgeon sightlines during bone resection.
This Ferris‑Smith‑Kerrison rongeur features a thin footplate with 40‑degree upbite and 5mm bite opening for removal of larger bone fragments and lateral recess hypertrophy during laminectomy work. The thin footplate design minimizes soft tissue trauma while the upbite geometry allows access to the intervertebral foramen and lateral recesses. Extended 180mm working length supports controlled fragment removal.
This larger 5mm Ferris‑Smith‑Kerrison rongeur handles aggressive bone removal from the vertebral body and lateral foramen during anterior and lateral spinal exposures. The 40 degree upbite geometry remains ideally suited for posterior decompression work, while the increased bite size accelerates removal of thickened ligamentum flavum and osteoarthritic bone. Straight configuration maintains tactile feedback through the entire decompression.
The Ferris Smith Kerrison rongeur features a 40-degrees upbite and 6mm jaw for precise bone removal during mastoid and posterior fossa surgery. The upbite geometry angles the cutting vector away from neurovascular structures, and the ejector and tap enhance operative efficiency.
This Ferris‑Smith‑Kerrison with 1mm bite and take‑apart design enables micro‑dissection around nerve roots and dural sac during laminectomy. The 40 degrees upbite geometry targets the superior vertebral surface, and the standard footplate provides stable positioning. At 203mm, the working length accommodates multilevel exposures.
With 5mm bite capacity, this Ferris‑Smith‑Kerrison removes larger bone fragments from the intramedullary canal and vertebral body. The 40 degrees upbite accesses the superior endplate, while the take‑apart construction streamlines reprocessing. At 203mm working length, it supports extended posterior decompression.
The Ferris-Smith-Kerrison rongeur with 90-degree downbite and 1mm bite provides specialized geometry for bone removal in superior and anterior laminar approaches where downward cutting edge direction is required. The 90-degree downbite angle directs the cutting surface perpendicular to and inferiorly toward target bone, enabling controlled removal in anatomically challenging positions. The 203mm working length and 1mm bite balance reach with precision in complex cases.
This Ferris‑Smith‑Kerrison rongeur delivers controlled upbiting action at 90 degrees for precise intervertebral disc and vertebral body removal. The 3mm bite captures bone fragments within a narrow field, and the 180mm working length supports access to mid‑depth spinal anatomy. Stainless steel construction is built for reliable performance and lasting durability across repeat surgical use.
Ferris‑Smith‑Kerrison rongeur with 90‑degree upbite and 5mm bite size delivers controlled bone removal in intervertebral and vertebral body work. The 180mm working length provides stable mid‑depth access without extending beyond the surgical corridor. Stainless steel construction supports edge retention across multiple reprocessing cycles.
The Ferris-Smith-Kerrison bone rongeur delivers controlled biting action for laminar and vertebral body resection in spinal decompression. Featuring an 8mm-wide by 12mm-long jaw, the instrument removes bone incrementally without excessive pressure spikes that might fracture adjacent lamina or ligamentum flavum. The ring handle permits two-handed or single-handed manipulation, and the straight geometry maintains surgeon control in confined spinal exposures.
The Ferris-Smith-Kerrison rongeur with 40-degree upbite geometry delivers reliable bone-cutting performance in spinal work where periosteal and lamina removal requires precision. The 4mm bite paired with titanium construction ensures durable performance across repeated cases in high-demand orthopaedic and neurosurgical environments. An ejector mechanism clears bone fragments efficiently, supporting consistent operative visibility.
The Ferris-Smith-Kerrison upbite rongeur is engineered for neurosurgical and spinal bone removal, featuring a 2mm bite with 40-degree upbite geometry for superior access in confined vertebral spaces. The titanium body combines rigidity with corrosion resistance over many demanding cases. Its 203mm working length and ejector mechanism enable rapid, controlled lamina and ligamentum flavum removal.
Ferris‑Smith tissue forceps in tungsten carbide feature 1 × 2 tooth pattern and 171mm length for reliable grasp on tissue during fine surgical manipulation. Tungsten carbide construction maintains superior edge retention across many sterilization and use cycles. The straight geometry supports precise control in general and specialty surgical applications.
The heavier Ferris‑Smith 3 × 4‑tooth forceps manages denser tissues�fascia, peritoneum, and bowel�in abdominal procedures. Its 178mm length enables secure deep-field access while the expanded tooth count distributes grip across tougher tissue without slippage. The instrument supports reliable handling of resistant anatomic planes.
This fiberglass light guide (medium size) couples to operating laryngoscopes (models 11‑194‑A3, A4, A5, A6) to deliver focused illumination deep into the laryngeal lumen during microsurgery. Fiberglass composition transmits visible and near‑infrared light efficiently while the medium bore accommodates standard laryngoscope connectors. The guide enables hands‑free, coaxial lighting during delicate vocal cord and laryngeal pathology work.