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The 3.2mm twist drill bit with 42mm flute length is designed for larger‑diameter intramedullary reaming and cortical screw hole preparation in major orthopedic fixation. At 127mm, the length suits extended drilling sequences in femoral and tibial shafts. The straight geometry maintains bore trajectory through dense cortex and cancellous bone.
Features & Benefits
The 3.5mm twist drill bit with 42mm flute delivers large‑volume bone removal for final intramedullary preparation and cortical fixation in major orthopedic procedures. Stainless steel construction resists corrosion through multiple sterilization cycles, while the straight geometry ensures consistent bore trajectory through diaphyseal cortex.
The 4.5mm twist drill bit with 34mm flute and round chuck end is designed for large‑diameter cortical and cancellous bone preparation in major femoral and tibial fixation. At 127mm, the length supports extended drilling during multi‑stage orthopedic procedures. Stainless steel construction ensures durability and corrosion resistance.
The 4.7mm twist drill bit with 34mm flute delivers precise large‑diameter bone preparation for cortical screw and plate fixation in major orthopedic trauma. The tight tolerance between 4.7mm bit and standard cortical screw patterns ensures reproducible fixation geometry. Stainless steel construction provides durability across multiple cases.
The 4mm twist drill bit with 45mm flute is engineered for maximum intramedullary preparation and large‑diameter cortical fixation in weight‑bearing orthopedic constructs. The extended flute length controls cutting engagement, while the 127mm overall length suits stable hand‑held or power‑assisted drilling. Stainless steel resists wear.
This 3.6mm twist drill enables rapid cortical and cancellous bone preparation for larger‑diameter guidewires and bone anchors. The straight geometry ensures perpendicular bone drilling without deflection, supporting precise pilot‑hole placement in vertebral bodies and long‑bone cortices. Stainless steel construction withstands repeated sterilization.
The 4mm twist drill accelerates bone preparation for intramedullary and larger cortical fixation elements. The straight cutting flutes produce clean bone chips without chatter or binding, while the 127mm length suits standard bone access. Stainless steel construction endures sterilization cycles and maintains dimensional accuracy.
This Ferris-Smith-Kerrison rongeur features a 5mm bite with 40-degree upbite configuration, sized for controlled removal of vertebral body fragments and laminar bone in orthopaedic procedures. The titanium nitride body resists corrosion and wear across numerous sterilization cycles, while the ejector footplate ensures rapid debris evacuation during extended operative sequences.
The 6mm variant of the Ferris-Smith-Kerrison rongeur offers increased bite capacity for larger bone fragments in spinal decompression. With a 40-degree upbite and titanium construction, it delivers durable performance in foramen widening and lamina excision procedures. The standard footplate and ejector provide reliable fragment management throughout extended surgical cases.
Extended to 230mm, this Ferris-Smith-Kerrison rongeur with 6mm bite and 40-degree upbite reaches deeper spinal anatomy in larger patients or complex decompression cases. Titanium construction sustains performance through high-volume orthopaedic and neurosurgical caseloads. The longer shaft maintains mechanical advantage while the upbite geometry preserves precision in confined vertebral spaces.
The Ulrich self‑retaining forceps feature angular 9mm jaws that lock securely without continuous hand pressure, making them ideal for holding bone fragments or ligament structures during complex reduction sequences. Speed lock engagement provides rapid one‑handed deployment, and the straight profile ensures stable grip through longer cases. Stainless steel construction is built for reliable performance across repeated orthopedic procedures.
The Ulrich self-retaining forceps with angular geometry deliver hands-free bone reduction and positioning during complex osteosynthesis. The speed-lock mechanism enables quick engagement, and the 184mm length provides stable, controlled hands-free fixation. Stainless steel construction sustains routine sterilization across many clinical cycles.
The mini Ulrich self‑retaining forceps features a straight profile and speed‑lock mechanism for hands‑free tissue retraction during orthopedic and general surgical procedures. The compact 184mm length suits limited surgical exposures while the ratchet lock holds tissue position without manual assistance. Speed‑lock design enables rapid positioning and release.
The Ulrich self-retaining forceps with straight, serrated 9mm jaws provide secure hands-free bone holding across extended surgical procedures. The speed-lock mechanism locks without hand fatigue, and the 280mm length reaches deep anatomic sites while maintaining secure grasp. Stainless steel durability ensures reliable sterilization and clinical reuse.
The universal rod bender accommodates rods up to 7mm diameter, bending intramedullary and fixation rods to required anatomic angles. The straight geometry and 280mm length provide stable control during rod contouring, and stainless steel composition sustains routine sterilization. The instrument channels force efficiently to avoid rod surface marring.
With a 12mm wide concave cutting edge, this US Army pattern gouge enables efficient bone removal during orthopedic excavation and cavity preparation. The concave geometry selectively removes bone while protecting underlying structures like marrow and vascular channels. The 178mm length provides adequate reach.
Built on the US Army pattern, this 18mm wide head gouge carves cancellous bone and reshapes cortical edges through the curved cutting profile of a gouge. The 180mm straight shaft balances reach against control during graft harvest and bone preparation. Stainless steel construction stands up to mallet impaction and repeat sterilization.
This US Army pattern gouge with a 6mm wide cutting surface provides controlled bone removal during orthopedic excavation and cavity preparation work. The concave cutting edge enables selective bone removal while protecting underlying structures, and the 178mm length provides adequate reach. The 6mm width suits fine bone work.
With a 12mm wide straight edge, this US Army pattern osteotome balances cutting efficiency with controlled bone sectioning during orthopedic osteotomy procedures. The proven military pattern geometry provides reliable cutting performance, and the 178mm length supports adequate surgical field reach. The wider blade enables efficient bone division.
At 18mm width, this US Army pattern osteotome delivers maximum cutting surface for efficient bone division in wide osteotomy sites. The straight edge provides direct cutting force, and the 178mm length supplies adequate reach. The 18mm width supports broad, controlled bone sectioning.
This US Army pattern osteotome with a 6mm wide straight edge provides precision bone cutting for controlled osteotomy work in orthopedic procedures. The traditional pattern delivers reliable cutting geometry, and the 178mm length provides adequate reach. The 6mm width supports fine bone sectioning in confined anatomic zones.
The Verbrugge bone‑holding forceps features 10mm wide serrated jaws and a long ratchet for secure purchase on cortical bone during major orthopedic fixation. The 254mm length and 52mm maximum opening accommodate larger bone segments while maintaining precise grip. Serrated jaw surfaces distribute pressure across bone surfaces without slipping during plate and screw application.
Verbrugge bone holding forceps deliver wide 11mm jaws engineered to grip cortical and cancellous bone surfaces without slipping. The long ratchet mechanism permits a maximum 48mm opening, accommodating varied bone segment widths encountered in fracture reduction and intramedullary work. Stainless steel jaws maintain edge sharpness across multiple reprocessing cycles.
This compact Verbrugge self‑centering forceps features a short ratchet designed for small bone work and delicate reductions where minimal intrusion is required. The 5mm wide jaws suit fine‑threaded screws and narrow bone corridors, and the 9mm engaged opening provides precision control. At 172mm, it remains highly maneuverable.
The Verbrugge bone-holding forceps with self-centering jaws and 10.5mm width deliver uniform compression across the bone surface during reduction. The speed-lock mechanism enables quick, secure closure, and the 50mm maximum opening accommodates variable fracture thicknesses. The 240mm length provides stable, controlled grasp during complex spinal and pelvic reductions.
This larger Verbrugge self‑centering forceps accommodates bigger fragments and bones while maintaining auto‑alignment during engagement. Its 11mm wide jaws increase contact surface area, and the 65mm maximum opening suits proximal femoral and pelvic reductions. The speed lock mechanism allows rapid single‑handed clamping.
Verbrugge bone holding forceps secure cortical bone fragments during plating and fracture reduction. The self‑centering 3mm wide jaws square onto the bone shaft from both sides, and the speed lock holds the 25mm maximum opening at the surgeon's chosen width. The 152mm straight frame keeps the working end close to the operative field.
The Verbrugge self‑centering bone forceps auto‑aligns fragments during engagement, reducing surgeon effort during difficult reductions. Its 7mm wide jaws maintain consistent pressure across the bite, the speed lock enables rapid one‑handed clamping, and a maximum 45mm opening accommodates varied fragment sizes. At 191mm, it remains compact.
This Verbrugge self‑centering model delivers maximum 65mm opening in a 280mm overall length, balancing extended reach with compact handling for bone fragment reductions. The speed lock mechanism enables rapid engagement without requiring ratchet adjustment, and the self‑centering jaw geometry simplifies fragment alignment during difficult reductions.
This reversed Volkmann bone forceps with long ratchet delivers secure clamping of cortical fragments during reduction and fixation of complex fractures. The ratchet mechanism maintains grip without hand tension, and the 165mm overall length supports controlled positioning in moderate‑depth fields.