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This junior Lambotte osteotome presents a 10mm standard curve with depth calibration lines for confident bone elevation in larger orthopedic fields. The markings provide clear feedback during vertebral body and periosteal dissection, protecting the intramedullary canal and adjacent ligament attachments. The 184mm shaft delivers excellent control across extended exposure.
Features & Benefits
The curved version of the Junior Lambotte osteotome pairs the 10mm cutting edge with a curved profile that tracks the underlying bony surface during contoured osteotomy. The 178mm length suits intermediate orthopedic work between the Mini and full‑size formats.
This junior Lambotte osteotome delivers a 16mm standard curve with depth calibration lines for confident work in expanded orthopedic exposures. The etched markings keep the surgeon oriented during vertebral body and periosteal lift in larger cases, preventing overcut into the spinal canal or adjacent joint capsule. The 184mm length supports deliberate, controlled elevation.
At 19mm width with calibration lines and a standard curve, this junior Lambotte osteotome addresses large‑scale vertebral body and facet elevation with clear depth feedback. The etched markings reduce the risk of overcut into neural structures and the intramedullary canal during extended exposures. The 184mm shaft maintains rigidity despite the increased blade width.
This 22mm standard curve junior Lambotte osteotome with depth calibration lines brings precision control to large‑area orthopedic bone work, particularly in vertebral body exposure and facet joint dissection. The graduated markings provide continuous feedback during periosteal and articular cartilage‑adjacent procedures, safeguarding the intramedullary canal and ligament attachments. The 184mm shaft sustains the broader working area.
Junior Lambotte osteotome with a full standard curve and 25mm cutting width, calibration depth lines, and 184mm length supports controlled curved osteotomy work in vertebral body and facet preparations. The marked depth-line reference prevents over-penetration into adjacent neural and vascular structures during medial facet dissection.
The junior Lambotte osteotome combines a 4mm gentle curve with etched depth calibration lines for controlled bone elevation in mid‑level orthopedic exposures. The markings guide intramedullary canal wall separation and periosteal lift, reducing the risk of excessive depth penetration toward neural structures. The 184mm working shaft offers improved reach while depth lines remain clearly visible.
This junior Lambotte osteotome offers a standard curve at 5mm width with depth calibration lines for reliable bone work in vertebral and facet procedures. The graduated markings track cutting depth and prevent inadvertent penetration into the joint capsule or intramedullary space. The 184mm shaft provides a balance of reach and instrument rigidity.
Curving the Junior Lambotte osteotome lets the surgeon scoop into bone surfaces and follow curved cortical contours during foot and hand work. The 5mm wide edge sits on a 180mm shaft with a standard curve that tracks the bone profile. Stainless steel construction preserves the working edge through repeat mallet impaction and routine reprocessing.
At 6mm width with a gentle curve and calibration markings, this junior Lambotte osteotome suits intermediate‑scale orthopedic bone work with depth control. The etched lines assist in vertebral body access and periosteal separation while minimizing risk of overcut toward the spinal canal. The 184mm length distributes force evenly across larger exposure areas.
The 8mm standard curve junior Lambotte with calibration markings offers reliable control in mid‑scale orthopedic exposures, particularly for facet joint and vertebral body work. The etched depth lines guide periosteal separation and prevent unintended overcut toward the spinal canal or joint capsule. The 184mm working length balances reach with instrument responsiveness.
The Junior Lambotte osteotome at 10mm wide and straight at 178mm bridges the Mini and full‑size Lambotte ranges for moderate cortical osteotomies. The 10mm cutting edge handles foot, ankle, and hand work where the Mini widths are too narrow and the full‑size Lambotte too long.
Junior Lambotte osteotomes scale the Lambotte profile to small‑bone orthopedic work. This 20mm wide straight edge sits on a 180mm shaft, giving the surgeon a broader cortical cut than the mini variant while keeping the instrument close to the field. Stainless steel construction holds the working edge through repeat mallet strikes and routine sterilization.
At 25mm wide, this Junior Lambotte osteotome extends the cutting edge for broader cortical passes during foot and ankle osteotomies. The straight 180mm shaft and standard Lambotte profile let the surgeon take a wider bite per strike without sacrificing control. Stainless steel construction stands up to repeated mallet impacts between cases.
K mallet with round knurled handle and stainless steel cylinder‑shaped head provides balanced striking force for bone reduction and osteotomy guidance. The 40mm head diameter and 1lb 15.5oz weight suit general orthopaedic procedures, while the round knurled grip enhances security. Its 185mm length maintains surgeon control.
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.
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.