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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.
Features & Benefits
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.
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.
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.
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.
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 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.
The 1.6mm K‑wire with double trocar points on a 229mm shaft delivers heavy‑gauge fixation at long‑bone working length, with the trocar geometry driving cleanly through cortical bone on both ends.
Built at 1.4mm (0.054") shaft diameter, this double‑ended K‑wire bridges the 0.9mm and 1.6mm standard sizes for fixation work that needs more stiffness than the fine wires but less mass than the heavy variants. The 305mm length suits long‑bone applications.
This 0.7mm K‑wire with a single diamond point delivers fine percutaneous fixation through dense cortical bone, where the diamond geometry cuts more cleanly than the trocar variant at the smallest standard gauge. The single‑ended format suits one‑direction insertion.
Swapping the trocar for a diamond point, this 1.4mm (0.054") Kirschner wire reduces drilling deflection on hard cortical bone and dense fixation sites. The 230mm straight shaft drives the wire deep into long bone or across multiple fragments, and the single‑ended geometry seats cleanly into drill chucks. Supplied non‑sterile, five per package, with disposable stainless steel construction.
Sized at 1.6mm with a single diamond point, this K‑wire combines heavy shaft stiffness with the sharper drilling geometry of the diamond tip, suited to fixation work where the wire must drill through dense cortical bone in a single direction.
Finer at 0.9mm (0.035"), these single‑ended Kirschner wires drive percutaneous fixation in small fragments and pediatric fracture work. The trocar point engages cortical bone cleanly, and the 230mm straight shaft suits longer pin trajectories or external traction setups. Supplied non‑sterile, five per package, with stainless steel construction for clean drilling at the bone.
This single‑ended K‑wire carries a trocar point on a 1.6mm (0.062") shaft, sized for percutaneous fixation of larger bone fragments where heavier shaft stiffness is needed. The trocar tip drives cleanly through cortical bone in a single pass.
This K‑wire and Steinmann pin sterilization rack organizes and contains fixation hardware during steam sterilization. Stainless steel construction resists corrosion from repeated autoclave cycles. The modular design accommodates pins of varying lengths while preventing cross‑contamination and loss.
Kahn scissors in the shorter 140mm configuration provide precise straight‑line dissection in confined plastic surgery spaces, from facial revisions to small‑field body contouring. The balanced stainless steel construction supports both sharp and blunt dissection depending on handle pressure. Ring design enables fingerprint control for graduated separation of skin and soft tissue planes.
Kahn scissors in the longer 178mm length extend reach into deeper dissection planes during extended abdominoplasty and body lift surgery. Straight blade geometry supports direct linear advancement of large flaps without rotational binding. The extended shaft and ring handle combination allow surgeons to maintain visual field control while manipulating bulk adipose and fascial tissue.
The Kansas nucleotome bisection spatula is designed for rapid, controlled nuclear bisection during phacoemulsification. Its semi‑sharp blade cleaves the nucleus along structural planes while minimizing endothelial cell trauma, and the left‑handed configuration supports left‑handed surgeon preference. Round knurled handle and 114mm overall length provide comfortable, stable control during nucleus fragmentation.
Nuclear fracturing in the anterior chamber is the Kansas nucleus bisector's specialty, with its standard curved 10mm tip?to?bend providing mechanical leverage. Its straight geometry delivers reliable tactile feedback and precise nuclear bisection in confined anterior chamber space. The 110mm round knurled handle enables controlled bisection maneuvers in routine and challenging cases.
The Kansas nucleus removal forceps carry serrated jaws that grasp dense nuclear fragments for retrieval during manual extracapsular and small‑incision cataract work. A 10mm tip‑to‑bend distance gives consistent capsular reach with clear visibility. The three‑hole handle keeps the instrument light and balanced through repeated grasps.
The Kansas nucleus support spatula is engineered to stabilize the lens nucleus during phacoemulsification. The 3mm wide spatula provides adequate bearing surface for nuclear support while maintaining visibility. This right-hand configured tool delivers optimal control during nucleus sculpting and removal.
The Kansas Nucleus Trisector is designed for controlled fragmentation and removal of dense cataractic nuclei during phacoemulsification. Its 2.5mm working end and straight geometry enable precise entry into the nucleus for mechanical fracturing, while the left‑handed configuration accommodates surgeon preference and asymmetrical hand positioning. The round knurled handle provides secure tactile feedback during sustained manipulation of hard lens material.
This left-handed Kansas nucleus trisector divides the nucleus into three segments for efficient phacoemulsification management, particularly in dense cataracts where nuclear fragmentation is essential. The round knurled handle provides secure grip orientation for left-handed surgeons, while the straight tip design maintains consistent cutting geometry. At 111mm, the compact length supports fine control during intraoperative nucleus dissection.
Kantrowitz vascular forceps deliver atraumatic grip on coronary arteries and bypass grafts during vessel dissection and anastomosis preparation. The 2mm serrated jaw width distributes contact pressure evenly across delicate vessel walls without crushing intima. At 235mm, the instrument reaches deep pericardial and aortic structures while the straight platform maintains precise positional control.