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This 1.1mm K‑wire with double trocar points on a compact 102mm shaft handles intermediate‑gauge percutaneous fixation in hand and foot surgery, with the double‑ended format providing fresh length on the unused end during the case.
Features & Benefits
The 1.4mm K‑wire with double trocar points on the standard long shaft duplicates the intermediate‑gauge fixation wire for instrument sets requiring multiple wires across the case. The double‑ended format doubles usable length per pin.
Sized at 1.6mm with double trocar points, this K‑wire duplicates the heavy‑gauge fixation wire for instrument sets requiring multiple wires across the case. The trocar geometry suits direct cortical entry on both ends.
The 0.9mm K‑wire with double trocar points duplicates the standard‑gauge fixation wire for instrument sets requiring multiple K‑wires across the case. The trocar geometry drives cleanly through cortical bone on both ends.
This 150mm K‑wire ruler and pin gauge combines inch and millimeter scales on a single stainless‑steel straightedge, paired with a gauge slot for sizing and measurement of K‑wires during percutaneous fixation. The combined ruler and gauge functionality streamlines OR setup, and stainless‑steel construction holds shape across repeat reprocessing.
The 0.7mm K‑wire with double diamond points on a long shaft offers a sharper cortical‑drilling geometry than the trocar variants, supporting fine fixation work where the wire must drill through dense cortical bone. The double‑ended diamond format doubles usable length.
These double‑ended K‑wires with diamond‑point geometry provide pilot guidance for percutaneous fracture reduction and temporary reduction holding. The 0.7mm diameter navigates tight cortical channels with minimal bone displacement, while the diamond point cuts cleanly into cortical and cancellous bone. Stainless steel construction resists breakage during manipulation.
Extended‑length 0.7mm diamond‑point K‑wires in 9 inch format provide guidewire access into deep intramedullary canals and long‑bone metaphyseal regions. The longer working length accommodates femoral and tibial diaphyseal placement without requiring manual advancement during percutaneous techniques. Diamond‑point geometry ensures clean cortical entry.
Built at 0.9mm with diamond points on both ends, this K‑wire pairs the sharper drilling geometry of the diamond tip with the standard gauge for fixation work through dense cortical bone. The double‑ended format doubles usable length per pin.
The 0.9mm K‑wire with double diamond points provides cortical drilling fixation at the standard gauge, where the diamond geometry cuts more cleanly through dense bone than the trocar variant. The double‑ended format doubles usable length per pin.
Stepping up to 0.9mm, this double‑ended diamond‑point K‑wire pairs the sharper drilling geometry with a moderate shaft stiffness for fixation of small and medium fragments through dense cortical bone. The double‑ended format doubles usable length.
The 1.1mm K‑wire with double diamond points provides intermediate‑gauge cortical drilling fixation at extended working length. The diamond tip cuts more cleanly through dense bone than the trocar variant, and the double‑ended format doubles usable length per pin.
This double‑ended K‑wire features diamond point geometry for controlled penetration through cortical bone and dense osseous structures. The 1.1mm diameter and 152mm length (6 inches) provide precise fixation support during orthopaedic reduction and temporary reduction maintenance. Stainless steel construction resists corrosion during sterilization.
Sized at 1.1mm with double diamond points, this K‑wire pairs intermediate shaft stiffness with the sharper drilling geometry of the diamond tip, suited to fixation work through dense bone at the standard intermediate gauge.
The 1.4mm K‑wire with diamond points on both ends of a long shaft offers a sharper cortical‑drilling geometry than the standard trocar tips, supporting fixation work where the wire must drill through dense cortical bone. The double‑ended format doubles usable length.
Sized at 1.4mm with double diamond points, this K‑wire pairs intermediate shaft stiffness with the cortical‑drilling geometry of the diamond tip, suited to fixation work through dense bone where the trocar variant would not advance cleanly.
Built at 1.6mm with diamond points on both ends, this K‑wire pairs heavy shaft stiffness with the sharper drilling geometry of the diamond tip, sized for fixation of larger bone fragments through dense cortical bone.
The 1.6mm K‑wire with double diamond points duplicates the heavy‑gauge cortical drilling wire for instrument sets requiring multiple wires across the case. The double‑ended format doubles usable length per pin during dense‑bone fixation.
This double‑ended K‑wire transitions from trocar to diamond point geometry, providing dual‑purpose utility for varied cortical engagement patterns. The 1.6mm diameter and 230mm length support fixation across metaphyseal and diaphyseal anatomy in complex reduction cases.
The fully threaded double‑ended K‑wire at 1.6mm carries trocar points on both ends of a 152mm shaft, with full thread length providing maximum fixation purchase against bone. The six‑per‑package format supports surgeon‑side selection during fracture fixation.
The fully threaded 1.6mm double‑ended K‑wire carries trocar points on both ends of a 152mm shaft, with full thread length giving maximum fixation purchase against cortical bone. The configuration supports fracture work where the wire must resist axial pull‑out.
Supplied sterile in individual packages, this double‑ended 0.9mm trocar‑point K‑wire meets clean field requirements for percutaneous metaphyseal fixation. The 152mm length and stainless‑steel construction enable reliable bone engagement during open or closed reduction workflows.
This double‑ended K‑wire features a trocar point geometry and 0.9mm diameter, ideal for percutaneous fixation across metaphyseal bone and articular surfaces. The 152mm length supports trajectory control through bone cortices while maintaining structural integrity for repeated insertion.
Sized at 0.9mm with double trocar points on a 229mm shaft, this K‑wire provides standard‑gauge fixation at extended working length, where the surgeon needs more reach than the compact format provides. The double‑ended format doubles usable length per pin.
Sterile and individually packaged, this 1.1mm trocar‑point K‑wire meets rigorous clean field protocols for open reduction and percutaneous techniques. The 152mm length and double‑ended configuration support efficient bone positioning during acute trauma and elective procedures.
With increased 1.1mm diameter and trocar point, this double‑ended K‑wire addresses larger bone purchase and load-bearing anatomy. The 152mm length maintains maneuverability while the stainless‑steel construction withstands repeated insertion and positioning cycles.
This individually sterile‑packaged variant of the 1.1mm trocar‑point K‑wire prioritizes case‑to‑case sterility assurance for percutaneous pin application. The 152mm straight shaft enables precise alignment through metaphyseal and diaphyseal bone during open and closed techniques.
The 1.1mm K‑wire with double trocar points on a 229mm shaft provides intermediate‑gauge fixation at long‑bone working length, with the trocar geometry driving through cortical bone on both ends.
The 1.4mm diameter variant supplies maximum trocar‑point penetration capacity for heavy cortical engagement in trauma and revision work. Packaged sterile in groups of six with individual component assurance, this K‑wire supports reliable bone capture at 152mm length.
The double‑ended 1.6mm K‑wire at 102mm carries trocar points on both ends of a compact shaft, sized for percutaneous fixation in hand and foot surgery where extra usable length is desired in a short overall format. The trocar geometry suits direct cortical entry.