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Wide 6mm quick‑connect drill bits accommodate larger diameter pilot holes and thread holes during major fracture fixation and spinal instrumentation. The 195mm overall length with 170mm working dimension reaches deep within long bones and vertebral bodies, and the quick‑connect design permits efficient intraoperative bit changes. Reusable stainless steel maintains cutting edge performance across cases.
Features & Benefits
Sized at 0.4 × 5.5 × 25.5mm with a 4 × 5 tooth pattern, this oscillating saw blade cuts through cortical bone under power during orthopedic osteotomy and arthroplasty. The narrow kerf preserves bone stock, and the defined tooth count delivers consistent cut quality across the working face.
The oval‑egg burr carries a 4mm head with a 7.9mm head length and an eight‑flute cutting pattern, sized for shaping and contouring cortical and cancellous bone. Sterile single‑use delivery preserves flute sharpness across the case, and the 54mm overall length suits standard handpiece chucking.
The Overholt periosteal elevator doubles utility through its two distinct ends, lifting periosteum from cortical and cancellous bone during exposure and soft‑tissue dissection. Size 3 designation indicates moderate width suited to standard fracture and spinal approaches. Its double‑ended design reduces instrument count.
These parallel-jaw pliers provide consistent flat-face engagement for wire bending and manipulation in orthopedic frame assembly. The side-cut configuration allows surgeons to section wires cleanly without jaw deflection. The 185mm length and straight geometry support precise control during intraoperative adjustment of external fixation systems.
The Partsch Bruns variant combines lead-filled construction with a cylinder head at 22mm and a distinctive Bruns-style handle for enhanced tactile control during orthopedic percussion. At 6.9oz and 191mm length, the lighter profile suits medium spinal and periosteal work. Stainless steel resists corrosion.
The Partsch lead-filled mallet balances weight and force distribution for reliable percussion during vertebral body and laminal approaches. Its 22mm cylinder head and 7.1oz mass deliver consistent impact without excessive rebound. The hexagonal handle improves grip ergonomics during prolonged orthopedic procedures.
This Partsch variant maintains the lead-filled cylinder pattern at 22mm diameter but with a slightly shorter 181mm profile to accommodate confined spinal spaces. Weighing 7.2oz, the instrument delivers steady percussion during delicate foramen and laminal work. Hexagonal handle geometry provides secure tactile feedback.
This stainless steel Partsch mallet employs a cylinder head at 22mm and hexagonal handle for stable grip during vertebral body and periosteal manipulation. Weighing 6oz and measuring 193mm, the instrument supports medium-load orthopedic percussion. Stainless steel construction ensures reliable durability.
The Partsch hexagonal-handled mallet in this shorter variant (181mm) delivers controlled percussion to bone and periosteum with a 22mm cylinder head. At 6oz, the lightweight profile reduces surgeon fatigue during delicate laminal and foramen approaches. Stainless steel provides lasting clinical durability.
The Passow osteotome with 2.5mm narrow blade and 121mm compact length enables precise bone cutting in fine orthopaedic work, particularly in revision procedures and delicate anatomic areas. The straight geometry supports controlled hammer-driven cuts, while stainless steel construction ensures edge sharpness and durability across repeated sterilization and use.
The Passow osteotome with 3.5mm blade provides moderate-width cutting capacity in compact 121mm format, balancing precision with broader bone-removal capability. The straight geometry delivers controlled cuts in orthopaedic procedures, while stainless steel resists corrosion and maintains edge quality across numerous sterilization cycles and clinical cases.
This patella forceps captures and stabilizes the patellar bone during reduction and fixation of fractures and osteotomy sites. The 2 × 2 teeth pattern creates point‑contact grasp without crushing the articular cartilage or fragile fragments, and the speed lock mechanism allows rapid one‑handed clamping. At 178mm, it provides optimal reach for open knee exposures.
These patella forceps feature 2 × 2 interlocking teeth with offset geometry and speed-lock mechanism for secure patella reduction and fragment manipulation. The 8mm jaw gap accommodates varying fragment thicknesses, and the 178mm length provides stable, controlled grasp. Stainless steel construction sustains routine sterilization across many clinical cycles.
This Peapod intervertebral disc rongeur features a 2 × 6mm dual-fenestrated jaw that selectively removes disc material while allowing ligament and neural structures to escape through the fenestrations. The curved design follows the intervertebral disc space, while the 140mm working length provides access without excessive retraction. Stainless steel construction remains reliable through repeat use.
These pelvic reduction forceps with 1 × 2 jaw configuration and long pointed ball tips engage pelvic fragments with precision during fracture reduction. The ball-tip geometry distributes reduction force without crushing cancellous bone, and the 400mm extended length reaches deep pelvic anatomy. Stainless steel construction sustains routine sterilization across many surgical cycles.
These short pelvic reduction forceps combine angled-inward jaws with short pointed-ball tips and ring handles for controlled reduction in confined pelvic and acetabular spaces. The angled geometry improves approach angle, and the 250mm length balances reach with precise control. Stainless steel durability ensures reliable sterilization and clinical reuse.
The single‑prong pelvic retractor combines a 24mm wide curved blade with 273mm overall length for controlled soft‑tissue retraction in pelvic exposures. Its standard curve follows anatomic contours of the pelvis, displacing peritoneum and viscera away from the surgical field without crushing underlying tissue. Stainless steel construction supports routine instrument reprocessing.
The periarticular bone reduction forceps features a medium C‑shaped jaw that stabilizes comminuted fracture fragments near the joint capsule and articular surface. Sharp spikes bite into cancellous bone, while the ball stop stabilizer prevents overshoot. The speed lock mechanism and 230mm length support rapid reduction and temporary holding.
Periosteal elevator, curved with 3mm sharp straight edge and phenolic handle, delivers precise periosteal separation during bone exposure and soft‑tissue elevation. The sharp edge cleanly releases periosteum from cortical bone surface without maceration. Phenolic handle provides insulation and shock absorption during repetitive mallet strikes.
Periosteal elevator with 6mm round edge and curved profile delivers atraumatic subperiosteal separation where tissue bluntness prevents deeper bone surface damage. The rounded edge distributes force across broader tissue interface, reducing periosteal perforation during challenging dissections. Phenolic handle provides ergonomic support during extended procedures.
Periosteal elevator, curved with 6mm sharp straight edge, performs subperiosteal dissection and soft‑tissue mobilization during extensive bone exposure. The wider 6mm blade covers larger surface areas while maintaining periosteal tissue integrity. Phenolic handle reduces fatigue during sustained elevation work.
The periosteal elevator, size 9, is designed to separate soft tissue and periosteal layers from underlying bone during orthopedic dissection. Its 180mm length and straight geometry provide reach and control for flap elevation without binding. Stainless steel construction ensures reliable surface finish for clean, repeatable lifting.
This periosteal elevator combines a straight profile with a fourteen millimeter oval sharp edge, engineered for elevation of periosteum and soft‑tissue attachments during bone exposure and orthopedic approaches. The phenolic handle provides ergonomic grip with thermal insulation, and the 197mm overall length maintains comfortable hand positioning during subperiosteal dissection. Stainless‑steel construction supports reliable reprocessing.
This 3mm phalangeal elevator carries a reverse‑angled, deeply arched blade for periosteal elevation along the small bones of the hand and foot. The deep arch lifts soft tissue away from the cortical surface in a single pass, and the 152mm length keeps the surgeon's hand clear of the small operative field.
This phalangeal elevator features a 5mm wide, deeply arched blade angled for controlled subperiosteal dissection during digit and hand surgery. The reverse angle geometry allows access to challenging anatomical positions while maintaining visibility and minimizing soft-tissue trauma. Stainless steel construction ensures reliable performance across repeated surgical use.
This end‑cutting pin cutter is engineered to section guide pins and fixation pins up to 4.8 millimeters diameter in trauma and reconstruction cases. The medium double‑action mechanism provides controlled power without excessive hand fatigue during repetitive cutting. The extended 406mm working length keeps the surgeon's hands clear of the operative field while maintaining precise pin engagement.
This small pin cutter with end-cutting geometry and double-action mechanics cuts pins and hardened steel up to 3.2mm diameter with reduced hand fatigue. The 254mm extended length provides leverage advantage during implant removal, and the stainless steel composition sustains routine sterilization. Double-action design distributes cutting force across the hand.
This tungsten carbide pin cutter features a straight 229mm shaft engineered for controlled cutting of fixation pins and wires in orthopedic procedures. The double-action mechanism provides maximum mechanical advantage when sectioning pins up to 7/64 inch diameter. Tungsten carbide construction delivers lasting durability and edge retention across repeated sterilization cycles.
Pin pulling pliers with tungsten carbide construction and a 3mm grooved jaw geometry is designed for controlled extraction of orthopedic pins and wires from bone and intramedullary canal locations without shearing or deforming the hardware. The groove jaw profile prevents slipping, while carbide composition withstands repeated use.