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This single‑ended 0.7mm trocar‑point K‑wire offers precision fixation at smaller diameters, ideal for delicate metaphyseal work and fine anatomical structures. At 230mm length, it provides extended reach for percutaneous pin placement in complex trauma scenarios.
Features & Benefits
This single‑ended K‑wire carries a trocar point on a 0.9mm (0.035") shaft, sized for percutaneous fixation of small bone fragments in hand and foot surgery. The 102mm length supplies enough working depth for most small‑bone fixations, and the five‑per‑package format suits surgeon‑side selection during the case.
The single‑ended 0.9mm (0.035") K‑wire at 152mm suits routine percutaneous fixation of small and medium bone fragments where extra working length is needed beyond the compact 102mm format. The trocar point drives cleanly through cortical bone.
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 at 1.1mm (0.045") carries a trocar point on a compact shaft, sized for intermediate percutaneous fixation between the fine 0.9mm and heavier 1.4mm gauges. The trocar tip drives cleanly through cortical bone in fixation of small and medium fragments.
The single‑ended 1.1mm K‑wire at 152mm provides intermediate‑gauge percutaneous fixation with moderate working length, suited to fracture work where the surgeon needs more reach than the 102mm format. The trocar tip drives cleanly through cortical bone.
Sized at 1.1mm (0.045") with a single trocar point on a 229mm shaft, this K‑wire fills the gap between the 0.9mm and 1.4mm gauges for fixation work that needs intermediate stiffness at moderate working length. The five‑per‑package format suits routine fixation cases.
Single‑ended Kirschner wires drive percutaneous fixation across small bones, fracture fragments, and growth plates. The 1.4mm (0.054") trocar point cuts cleanly through cortical bone, and the straight 102mm shaft suits short‑reach pinning in hand and foot work. Supplied non‑sterile, five per package, with stainless steel construction for clean drilling at the bone interface.
This single‑ended K‑wire carries a trocar point on a 1.6mm (0.062") shaft at a compact 102mm length, sized for percutaneous fixation of larger bone fragments in foot and hand surgery. The trocar tip drives cleanly through cortical bone, and the five‑per‑package format suits surgeon‑side selection during the case.
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 single‑ended 1.6mm K‑wire at 152mm scales up the heavier‑gauge wire from the compact 102mm variant for larger‑fragment fixation requiring more working length. The trocar tip and stiffer shaft suit fixation of substantial bone fragments.
Heavier at 1.6mm (0.062"), these single‑ended Kirschner wires anchor larger fragments and carry skeletal traction loads. The trocar point drills through cortical bone cleanly, and the 230mm straight shaft suits longer fixation trajectories through long‑bone anatomy. Supplied non‑sterile, five per package, with stainless steel construction that holds tip geometry through one drilling pass per wire.
The Karlin Magnum Cobb elevator is a large-format instrument with a 25mm wide blade and XL (1.25-inch/32mm) handle diameter for robust bone elevation during vertebral decompression and osteophyte removal. At 13.25 inches (337mm) overall length, it provides extended reach in deep lumbar and thoracic fields. The straight blade geometry delivers reliable periosteal stripping and maintains structural integrity under high lift forces.
This larger Karlin magnum mallet provides increased striking mass�12 oz�for demanding osteotomy and bone-shaping procedures. The 31.75mm diameter head concentrates force effectively onto osteotome and gouge tips. Extended 241mm length supports leverage and control during powerful bone-cutting maneuvers.
The Karlin magnum-style small mallet delivers controlled percussive force for osteotomy and osteochondral work. Its 25.4mm diameter head transfers impact efficiently to chisel and osteotome blades without shock transmission to the surgeon's hand. The compact 25mm working length provides excellent ergonomic control during repetitive striking.
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.
This Karlin-style cervical microdiscectomy curette combines a size 0 (3mm) backwards-facing cup with an angled XL shaft to reach behind the vertebral body and engage residual disc material along the posterior longitudinal ligament. The 104mm working length and 240mm overall reach position the offset aluminum handle clear of the microscope, keeping the operative axis open. Aluminum construction on the handle keeps weight low while resisting corrosion across repeat reprocessing.
Designed around the Karlin cervical microdiscectomy workflow, this size 0 (3mm) curette presents a forward-facing cup on a straight XL shaft for advancing under the lamina and into the intervertebral disc space. The offset aluminum handle keeps the surgeon's hand out of the operative axis while preserving fingertip control along the 104mm working length and 240mm overall reach. Anodized aluminum on the handle combines low weight with corrosion resistance over many cases.
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.
Sized for the narrowest interspaces, this Karlin-style cervical microdiscectomy curette carries a size 00 (2.7mm) backwards-facing cup on an angled XL shaft for precise engagement of residual disc behind the vertebral body. The 104mm working length within a 240mm overall reach lets the offset aluminum handle sit clear of the microscope. The aluminum handle is light in hand and resistant to corrosion through repeat reprocessing.
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.
The Karlin style microdiscectomy curette features a Size 00 (2.5mm) working edge, straight shaft, and offset aluminum handle optimized for cervical microdiscectomy. Its 104mm working length reaches into the deep disc space, while the backward-cutting geometry removes disc material and ligamentum flavum without traumatizing neural tissue. The XL sizing accommodates surgeons who prefer larger hand positioning.
Karlin‑style microdiscectomy cervical curette in size 000 (2.4mm), this variant with a backwards‑facing cup on a straight XL shaft. The reversed cup draws cancellous material toward the surgeon along the access corridor � helpful for clearing the back wall of the disc space without overshoot. The 104mm working length and offset aluminum handle keep hand weight down across prolonged microscope‑guided cases.
This microdiscectomy curette with size 000 and backwards‑facing cup and offset aluminum handle removes cervical discal material with directional control. The 2.4mm cup size navigates confined intervertebral spaces while the backwards‑facing geometry orients material toward the surgeon during extraction. The offset handle improves tactile feedback and reduces fatigue.
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.
Karlin‑style microdiscectomy cervical curette in size 0000 (1.6mm), this time with a backwards‑facing cup on a straight XL shaft. The reversed cup lets the surgeon pull cancellous material toward the access portal � useful for clearing posterior endplate and far‑side disc residue under tubular retraction. The 104mm working length and offset aluminum handle preserve sight lines and reduce hand weight across long cases.
Karlin‑style microdiscectomy cervical curette in size 0000 (1.6mm) with a forward‑facing cup on a straight XL shaft. The 104mm working length reaches the disc space through tubular retractors, and the offset aluminum handle preserves the surgeon's line of sight while keeping mass low for prolonged use. Stainless steel cup construction holds geometry through repeated curettage of disc and endplate.
This microdiscectomy curette with size 0000 and backwards‑facing cup and offset aluminum handle provides ultra‑fine discal and ligamentous removal during delicate cervical procedures. The 2.4mm cup size prevents excessive endplate disruption, while the backwards‑facing geometry facilitates controlled material removal from confined intervertebral spaces. The offset handle enhances surgeon control.
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 secures bony fragments during reduction and fixation of fractures throughout the skeleton. Its straight jaws engage cortical bone surfaces directly, and the ratchet mechanism locks segments in position hands‑free during drilling, plating, or wiring. The 230mm length provides balanced reach and control.