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This larger Ruskin rongeur expands the bite to 6 × 16mm for greater bone removal capacity during extensive spinal decompression. The curved jaw follows vertebral body and laminar contours, the double‑action spring handle minimizes hand fatigue, and the 184mm length suits posterior cervical and lumbar work.
Features & Benefits
Ruskin rongeurs scaled to a 3mm × 15mm bite offer precision work in anatomically constrained spaces where osteophyte removal or laminar trimming must avoid adjacent neural or vascular structures. The straight jaw permits exact cutting plane control, and the spring double‑action mechanism provides consistent leverage without fatigue. The 152mm length facilitates navigation in confined regions. Durable stainless steel supports repeated use.
Ruskin rongeurs employ straight jaw alignment and a substantial 6mm × 16mm bite for aggressive removal of vertebral bodies and laminar complexes during extensive decompression or reconstruction. The double‑action spring mechanism transfers mechanical advantage directly to the cutting edge, reducing hand strain during prolonged cutting work. The 184mm length provides stable control. Stainless steel edges maintain sharpness across many cases.
The straight Ruskin rongeur provides precise bite-and-remove action for bone work throughout orthopedic surgery. Its 4mm bite encompasses sufficient bone volume for efficient removal while preserving surgeon control. At 184mm working length, this instrument reaches moderately deep fields without excessive shaft whip.
The Ruskin rongeur in straight configuration with a 5mm bite offers intermediate cutting capacity for orthopedic and spinal bone work. The larger bite removes material efficiently while the straight geometry suits direct approach angles common in open procedures. Stainless steel construction provides lasting edge definition and mechanical reliability across reprocessing.
The Ruskin rongeur, straight with delicate 2 × 14mm bite, supports precision bone removal in spinal decompression and joint procedures where soft tissue injury risk demands gentle jaw geometry. Delicate jaw pattern reduces adjacent structure trauma during neural foramen enlargement and facet bone work. Straight orientation maintains perpendicular cutting force throughout the procedure.
The Ruskin‑Liston bone cutting forceps combines delicate straight blades with double‑action and spring‑handle mechanics for fine cortical bone sectioning. The 191mm length and delicate blade profile suit precision work near neurovascular structures. Double‑action amplifies cutting force while spring handle reduces operator hand strain during extended procedures.
The Ruskin‑Liston bone cutting forceps deliver heavy straight‑jaw geometry for controlled fracture reduction and cortical bone removal in orthopedic trauma. The powerful cutting edges bite through dense cortical and cancellous bone without slipping, while the 191mm length provides leverage for large fragment manipulation. Stainless steel jaws maintain edge sharpness across repeated intramedullary canal and metaphyseal work.
This smaller sagittal blade measures 0.4 × 5 × 16mm, narrowing the cutting footprint for precision bone work in confined spaces or when minimal bone removal is required. Designed for fine orthopedic sectioning, the compact geometry allows controlled access to anatomically sensitive areas where a full-sized blade would create excessive bone loss. Sterile-packaged and single-use, it eliminates sterilization delays between micro-cuts.
This sagittal saw blade with 0.5mm thickness and 11 × 41mm profile enables precise linear bone cuts during orthognathic and jaw‑reconstruction procedures. The ultra‑thin blade minimizes cortical crush and chip loss, supporting reproducible geometry during sagittal split and segmental osteotomy. Stainless steel construction endures cutting forces without deflection.
This 6.5mm sagittal saw blade at 25.5mm overall length cuts through cortical bone under power during orthopedic osteotomy and joint replacement. The narrow blade preserves bone stock, and the compact length suits standard sagittal saw handpieces.
Sized at 6 × 34 × 0.4mm, this sagittal saw blade is built for reciprocating cuts through cortical bone in arthroplasty and trauma osteotomies. The 0.4mm kerf preserves bone stock while the 34mm cut length suits femoral and tibial preparation. Stainless steel construction and single‑use packaging keep edge geometry consistent from case to case.
This sagittal saw blade is precision-ground with fine teeth and a rounded cutting edge to minimize thermal load and microchipping during bone sectioning in orthopedic surgery. The 9.5 × 25.5 × 0.4mm geometry fits standard sagittal saw handpieces, delivering clean cuts through cortical and cancellous bone without tissue crush. Sold sterile in individual Tyvek pouches, this disposable blade ensures fresh sharpness for each case.
Built for orthopedic bone sectioning, this sagittal blade combines fine teeth with a straight working edge to produce precise controlled cuts in cortical bone. The 9.5 × 25.5 × 0.4mm profile seats in standard sagittal handpieces, allowing the surgeon to maintain a consistent cutting plane through periosteal and intramedullary anatomy. Sterile-packaged and disposable, each blade delivers factory sharpness without resharpening downtime.
The Sayre periosteal elevator's blunt double-ended design with 5mm and 9mm tips supports atraumatic periosteal separation from bone. Unlike sharp endpoints, blunt geometry minimizes tissue trauma when lifting periosteum away from the cortical surface. At 165mm, the shaft balances reach with control for orthopedic cases. Stainless steel resists routine sterilization.
The Sayre periosteal elevator with blunt double‑ends permits atraumatic periosteal lifting throughout exposure without risk of inadvertent periosteal injury. The blunt‑blunt configuration reduces tissue trauma when sweeping soft tissue from cancellous and cortical bone. Its 165mm length suits confined dissection planes.
Double‑ended with one blunt and one sharp tip, the Sayre periosteal elevator strips periosteum from cortical bone during soft‑tissue exposures and fracture reduction. The contrasting tips address both blunt plane dissection and sharpened entry. The 171mm length suits hand‑held elevation in open procedures.
The Sayre periosteal elevator's double-ended sharp design spans 5mm and 9mm, enabling controlled stripping of periosteum from bone during orthopedic exposures. The paired endpoints accommodate varied surface angles across different bone geometries. At 165mm, the shaft provides adequate reach while maintaining periosteal protection. Stainless steel ensures durability across cases.
The Schlesinger intervertebral disc rongeur removes nucleus pulposus and disc material during discectomy procedures with a straight 3 × 10mm bite and serrated jaw surfaces for reliable purchase. The 152mm working length suits cervical and lumbar approaches, and the stainless steel construction endures extended use.
The Schlesinger pituitary rongeur, in straight geometry with serrated cup jaws, delivers a 2 × 10mm bite for precise removal of bone in spinal and skull base procedures. The 150mm working length and serrated jaw edges provide secure grip on hard bony surfaces without slipping. This eponymous pattern reflects over a century of refined neurosurgical and spinal technique.
This Scoville curette combines a straight geometry with a 4mm x 10mm oval cup and hollow Bruns handle, configured for controlled curettage of bone and cartilage surfaces during joint and spinal work. The 254mm length and hollow handle design support fatigue-free handling during extended procedures.
This 3.5mm screwdriver is engineered for precision engagement of orthopedic bone screws in cervical, lumbar, and structural applications. The notched head prevents cam-out slippage during torque application, while the hexagonal handle provides rotational control and tactile feedback. At 254mm, the shaft length reaches deep surgical sites without compromising grip.
The cruciform screwdriver, 254mm overall length, engages Phillips-head orthopedic screws across varied plate and fixation systems. Extended length facilitates access to deep surgical fields while the straight geometry maintains perpendicular screw seating. Cruciform tip design ensures positive engagement without cam-out or screw head stripping.
This Semb variant adds a ratchet mechanism to the sideways‑curved jaw design, allowing hands‑free fragment stability during plating and wire application in complex pelvic and femoral reductions. The 8mm wide jaw with deep teeth maintains secure purchase on curved bone, and the 191mm length suits deep exposures.
The Semb bone‑holding forceps features a sideways curve that reaches deep bone surfaces while maintaining surgeon visibility of the reduction site. Its 8mm wide jaw and deep tooth pattern deliver secure purchase on curved cortical surfaces common in pelvic and proximal femoral work. The absence of ratchet keeps it light for sustained handling.
The Shannon burr is supplied sterile and disposable, ideal for single‑use bone cutting applications where sterility assurance and cross‑contamination prevention are priorities. Its 2 × 54mm geometry fits standard handpiece chucks and supports rapid bone removal in spinal decompression workflows. The 7mm cutting height accommodates multiple laminar and foraminal exposures.
With a 10mm cutting edge, this straight Sheehan osteotome delivers broader bone sectioning capability for larger osteotomy sites and wide bone cuts. The hexagonal handle provides reliable grip during mallet strikes, and the 159mm length maintains balanced handling. The 10mm edge enables efficient bone division while the straight profile supports direct cutting control.
This 12mm Sheehan osteotome combines a straight profile with hexagonal handle geometry for controlled bone sectioning in larger orthopedic osteotomy procedures. The wider 12mm edge enables efficient cutting across substantial bone zones, while the handle design supports balanced mallet strikes. At 159mm, it provides adequate reach for bone cutting without excessive length.
At 15mm width, this Sheehan osteotome delivers maximum cutting surface for efficient bone division in wide osteotomy sites and extensive bone cuts. The straight configuration supports direct cutting force, and the hexagonal handle maintains grip stability during repetitive mallet strikes. The 159mm length provides balanced reach and handling.
Sheehan osteotomes carry a fine 1mm cutting edge for measured osteotomies in hand, foot, and small‑joint work. The straight 160mm shaft pairs with a hexagonal handle that resists rotation under mallet strikes, keeping the edge true through cortical bone. Stainless steel construction holds the working edge across repeat autoclave cycles.