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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.
Features & Benefits
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.
Built for posterior takedown during cervical microdiscectomy, this Karlin-style curette carries a size 0 (3mm) backwards-facing cup on a straight XL shaft for engaging disc fragments and posterior longitudinal ligament from behind the working corridor. The 104mm working length within a 240mm overall reach allows the offset aluminum handle to sit off-axis, preserving the surgeon's view through the microscope. The aluminum handle pairs low mass with corrosion resistance for repeated case use.
The Karlin‑style microdiscectomy cervical curette carries a Size 00 (2.7mm) backwards‑facing cup on a straight shaft with an offset aluminum handle, sized for posterior cervical disc debridement under microscope or loupe magnification. The 104mm working length and 240mm overall length suit standard microdiscectomy access.
Karlin‑style microdiscectomy cervical curette, size 00 (2.7mm), with a forward‑facing cup on a straight XL shaft. The 2.7mm cup steps up bite volume for endplate preparation and disc removal under tubular access, while the 104mm working length and offset aluminum handle preserve sight lines and reduce arm fatigue. Stainless steel cup construction tolerates repeat sterilization between cases.
Karlin‑style microdiscectomy cervical curette in size 000 (2.4mm) pairs a forward‑facing cup with a straight XL shaft for cervical disc and endplate work. The 2.4mm cup sits between the 1.6mm and 2.7mm sizes for graded volume removal, and the 104mm working length reaches through tubular retractors comfortably. Offset aluminum handle keeps the instrument light during prolonged microscope‑guided use.
The mini Kern bone‑holding forceps (150mm) provides secure purchase on small bone fragments and cortical edges during orthopedic fixation and reconstruction. The ratchet mechanism locks bone fragments in place hands‑free, supporting safe positioning during screw insertion and plate application. Stainless steel jaws resist wear across hundreds of reprocessing cycles.
The Kern bone-holding forceps without ratchet deliver flexible grip strength for temporary bone reduction and positioning. The 210mm length and straight geometry provide reach and direct control, and the absence of ratcheting allows quick application and removal during complex reductions. Stainless steel durability ensures reliable sterilization and clinical reuse.
This Kerrison rongeur combines a 5mm bite with 40 degrees upbite architecture, designed for controlled laminar and vertebral body resection in spinal decompression. The angled cutting edge aligns precisely with the surgical field, while the 180mm working length supports midline and lateral spinal exposures. Stainless steel construction withstands sterilization and multiple surgical cases.
The Kerrison rongeur's 40 degrees upbite and 5mm bite geometry provide controlled bone removal for vertebral body and laminar resection in spinal procedures. The straight shaft maintains excellent working-length access during deep spinal exposures, while the 203mm length accommodates extensive decompression cases. Stainless steel construction reliably handles routine autoclave reprocessing.
The Kerrison rongeur operates without a hinge mechanism, allowing bone removal from the vertebral body and lamina via a 40 degrees curved trajectory. Its 4mm bite and 203mm working length enable controlled vertebral endplate clearance and foraminal decompression. Stainless steel construction delivers reliable cutting performance across repeat spinal cases.
Key periosteal elevator in its broader 25mm sharp configuration, mounted on a 210mm shaft for periosteal stripping along long bones and broader cortical surfaces. The sharp leading edge cuts cleanly through the periosteum to start the dissection, and the 25mm width clears a wide swath in fewer passes. Stainless steel construction supports repeat orthopedic‑set sterilization.
This Key periosteal elevator combines a sharp 19mm working width with a straight profile for controlled periosteal stripping and bone exposure in orthopedic procedures. The sharp edge penetrates the periosteal envelope cleanly, minimizing soft‑tissue trauma and supporting atraumatic bone surface preparation. At 200mm, it provides reach and leverage across moderate‑depth surgical fields.
The Kleinert‑Kutz synovectomy rongeur features delicate 2 × 13mm jaw geometry with gentle curve for atraumatic removal of synovial tissue and debris during arthroscopic and open synovectomy procedures. The double‑action mechanism provides smooth, controlled cutting force optimized for fragile synovial membrane and joint capsule work. Compact 150mm length enables precise control in confined joint spaces.
The Kleinert‑Kutz synovectomy rongeur features delicate 2mm × 13mm jaws with a spring‑loaded double‑action mechanism for precision soft‑tissue removal. The gentle curve geometry improves access to synovial tissue within confined joint capsule spaces. Designed for controlled work in hand joints during synovectomy and arthroscopic procedures.
The Kolbel glenoid lever combines a double-ended design with sharp-pointed teeth and a U-shaped hook to engage the glenoid fossa during shoulder surgery. The 15mm-wide tooth profile provides stable purchase on articular bone, while the curved 26mm hook supports periosteal layer retraction. At 300mm overall length, this instrument reaches deep into the joint capsule while maintaining excellent visibility.
The Kolbel glenoid retractor at 23mm with a single prong on a 300mm body provides hands‑free retraction during open shoulder cases. The single sharp prong anchors into the glenoid rim or capsular surface, and the long body keeps the handle clear of the operative field.
This individual Kolbel retractor blade at 20 × 20mm is the most compact blade in the Kolbel range, sized for the smallest shoulder fields where the blade must stay close to the joint. Sold separately for replacement or addition to existing Kolbel retractor frames.
A Kolbel retractor blade in 36 × 20mm format provides a modular shoulder retraction surface that mounts into the Kolbel shoulder frame for glenohumeral exposure. The compact dimensions suit a focused window onto the joint capsule and rotator interval. Stainless‑steel construction tolerates the lateral retraction loads of shoulder arthroplasty.
The Kolbel retractor blade is designed for controlled exposure of bone and soft-tissue planes during orthopedic procedures. Its 36 × 36mm face provides adequate coverage for moderate surgical fields while remaining compact enough for precise positioning. Stainless steel construction supports reliable reprocessing across repeat cases.
This individual Kolbel retractor blade at 53 × 20mm is sold separately for replacement or addition to existing Kolbel self‑retaining retractor frames, used in shoulder and upper‑extremity exposure. The 20mm narrow blade preserves visualization through the working face.
This larger Kolbel retractor blade extends coverage to 53 × 36mm, accommodating broader surgical fields while maintaining handling control. The extended dimensions allow surgeons to retract fascia and periosteal flaps with single-blade positioning. Reusable stainless steel design ensures consistent performance through multiple surgical cases.
This individual Kolbel retractor blade at 68 × 20mm scales up the 53mm version for deeper shoulder and upper‑extremity self‑retaining exposure. Sold separately to replace or supplement existing Kolbel retractor frames, the 20mm narrow profile preserves visualization through the working face.
The individual Kolbel retractor blade at 85 × 20mm reaches the deepest of the standard 20mm‑wide blade options, sold separately for replacement or addition to existing Kolbel self‑retaining retractor frames. The 20mm narrow profile preserves visualization through deep shoulder exposure.
The Kujat humeral head retractor combines 35mm working surface with T‑handle and notched tip for atraumatic soft tissue and periosteal retraction in shoulder arthroplasty. The notched bent geometry prevents tissue slipping and capsular damage during prolonged exposure. Stainless steel is engineered for reliable performance and durability across repeat surgical cases.
The Lambert‑Lowman bone clamp combines larger 2 × 2 jaws with a wider maximum 2.5 inch opening to accommodate substantial fragments during complex reductions. The clamp mechanism secures hands‑free stability, and the 203mm overall length provides adequate reach for varied bone corridors.