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The 2.7mm SQC bit accommodates larger-gauge screw-hole preparation and cannulated systems in trabecular and metaphyseal bone. At 100mm length with 29mm working depth, it reaches common orthopedic exposure depths while preserving margin for bone-layer variation. Carbide edge maintains geometry across repeated sterilization and use cycles.
Features & Benefits
The 2mm SQC drill bit bridges fine-fragment and standard screw-hole preparation in orthopedic fixation. At 100mm total length with 21.5mm working depth, it provides adequate reach and working margin for midline and lateral exposures. Carbide tip construction maintains edge geometry across repeated sterilization cycles in high-volume settings.
This extended 2mm SQC drill bit accommodates deeper intramedullary canal and vertebral body access. The 125mm shaft with 21.5mm working depth enables surgeons to reach through layered soft tissue and create pilot holes in cancellous bone without loss of trajectory. Carbide construction ensures consistent performance across surgical site variations.
This 3.5mm SQC bit provides primary screw-hole drilling for standard-gauge fixation in metaphyseal and diaphyseal bone. The 110mm length with 41.5mm working depth supports varied tissue depth and enables multi-stage drilling through cortical layers. Carbide construction maintains consistent cutting geometry under intraoperative loads.
This extended 3.5mm SQC bit reaches deeper intramedullary positions and posterior vertebral body sites during revision and spinal fusion cases. The 195mm shaft with 50mm working depth provides maximum reach while maintaining adequate margin for cortical breakthrough and trajectory control. Carbide tip geometry resists fatigue stress.
The 4mm SQC bit supports large-diameter screw-hole and intramedullary reaming applications in revision and structural bone repair. At 195mm length with 40mm working depth, it reaches deep cancellous and medullary sites while maintaining trajectory control. Carbide construction provides consistent performance through extended operating room use.
This quick-connect drill tap combines dual-scale markings in millimeters and inches for precise thread preparation in cortical bone. The 6.5mm cutting diameter and 203mm overall length enable reliable tap advancement into the intramedullary canal during screw fixation procedures. Straight geometry supports perpendicular entry into vertebral bodies and metaphyseal regions.
The Echlin rongeur features a delicate 2mm bite width with 12mm length, curved sideways to approach laminar and facet surfaces from optimal angles during posterior spinal decompression. The double‑action mechanism reduces hand fatigue, and the 229mm length provides controlled reach.
This Echlin rongeur enlarges the bite to 3 × 12mm while maintaining the curved‑sideways approach ideal for vertebral laminae and intervertebral disc spaces. The double‑action mechanism supports sustained use during extensive decompression, and the 229mm length suits posterior lumbar and cervical exposures.
An ejecting rongeur with 40‑degree upbite action, this Ferris‑Smith‑Kerrison variant supports rapid vertebral bone clearance during midline decompression. The 4mm bite and 203mm overall length (180mm working) deliver controlled access to posterior vertebral elements. Ejector function rapidly deposits bone chips away from the surgical corridor.
The English ingrown nail forceps' narrow blade and anvil pattern provide controlled grasping and elevation of deformed nail tissue during ingrown nail removal. The narrow profile allows precise engagement without trauma to surrounding nail bed and periosteum. At 127mm, the shaft supports fingertip control during delicate nail work. Stainless steel sustains multiple uses.
This Epker osteotome features a strongly curved 8mm wide blade with a 180mm overall length for controlled contouring in maxillofacial osteotomy work.
This Epstein curette in size 0 carries an oval cup on a reverse‑angled neck that reaches behind bony overhangs in the spinal canal and foramen, useful for clearing disc and granulation tissue from blind corners. The hollow Bruns handle reduces overall weight without losing torque control, and the 203mm length keeps the working tip in line with deep spinal exposures.
The Epstein reverse‑angled size 00 curette with oval cup and Bruns hollow handle is designed for precise posterior joint and vertebral body debridement in confined spaces. The reverse angle improves access to posterolateral vertebral bodies and joint recesses, while the small oval cup suits fine cancellous removal. The hollow handle reduces fatigue during prolonged spinal work.
The Epstein curette size 000 employs a reverse-angle head and small oval cup for controlled curetting of bone and periosteum in confined surgical spaces. The 203mm working length and Bruns hollow handle are sized for precise manipulation in narrow corridors, such as vertebral body or foramen debridement. Angled geometry directs the working surface toward target tissue without excessive pressure.
The Epstein spinal curette in size 0 with reverse angling permits controlled curettage of bone in confined spinal corridors where approach angle limits tool orientation. Stainless steel construction and precise angle geometry enable consistent debris removal without chipping cancellous bone or damaging neural structures. The 203mm length supports access to posterior elements.
The Epstein spinal fusion curette combines 3‑0 (Size 3‑0) dimension with reverse‑angle geometry for accessing the caudal vertebral body and fusion bed during interbody arthrodesis. The specialized curvature directs the cup inferiorly and posteriorly. At 203mm, it provides adequate reach for fusion site preparation.
Pattern #90 combines an excavator end for scooping cancellous bone with a packer end for compacting graft material back into the defect. The two complementary tips on a single shaft cut down on instrument exchanges at the field during bone grafting steps. Stainless‑steel construction tolerates the repeated compaction loads of packing against cortical walls.
This periosteal raspatory with curved edge and sharp 13mm blade strips periosteum cleanly from cortical bone during vertebral body and long‑bone exposure. The curved design allows the surgeon to work tangentially to bone surfaces, minimizing chatter and preserving periosteal viability. Stainless steel blade maintains edge sharpness across multiple reprocessing cycles.
The Farabeuf periosteal raspatory features a 13mm curved blade with sharp working edge optimized for elevating periosteum away from cortical bone. The curved geometry follows the natural contour of bone surfaces, allowing controlled stripping without excessive soft tissue trauma. Stainless steel construction maintains edge acuity across repeated use during extensive bone exposure.
The femoral head caliper provides direct measurement of the femoral head diameter for sizing prosthetic components during hip arthroplasty. Its straight 190mm working length supports positioning on the exposed articulation while maintaining surgical sight lines. Precision arms ensure stable contact on the bone surface.
The Ferris-Smith-Cloward laminectomy rongeur with 6mm bite and angled-up jaw provides excellent visualization and engagement of posterior laminar bone in wide-field decompression and fusion. The upward-angled jaw directs the cutting surface toward the lamina while the surgeon's hand remains clear of the operative field, and the 6mm bite accommodates larger-volume bone removal. The ring handle and 178mm length support controlled positioning in deep lumbar and thoracic work.
The Ferris-Smith-Cloward laminectomy rongeur employs an angled-up jaw geometry with 3mm × 10mm bite capacity, designed for controlled removal of vertebral body bone and endplate material during anterior cervical approaches. The ring handle offers balanced grip during demanding high-leverage cutting. At 178mm, the shaft provides adequate working length. Stainless steel construction sustains repeated use.
This Ferris-Smith-Cloward rongeur delivers a larger 6mm × 12mm bite with angled-up geometry for removal of vertebral body and endplate bone during extensive anterior cervical decompression. The ring handle distributes grip pressure evenly across the surgeon's hand. At 178mm, the extended profile supports controlled leverage in deep anterior approaches. Stainless steel resists corrosion.
The Ferris-Smith-Cloward laminectomy rongeur with 2 × 10mm bite and straight geometry is designed for controlled posterior vertebral body and laminar bone removal during laminectomy and fusion approaches. The rectangular bite geometry enables efficient engagement of laminar bone parallel to the spinal axis, and the ring handle provides secure grip during powerful cutting strokes. At 178mm length, the instrument offers balanced leverage without compromising reach to lower lumbar levels.
This Ferris-Smith-Cloward laminectomy rongeur combines a straight geometry with a 3mm bite and ring handle, designed for controlled removal of lamina, bone, and ligamentum fragments during spinal decompression. The 178mm length and balanced spring action support precise bone removal while minimizing soft-tissue trauma.
This Ferris-Smith-Cloward laminectomy rongeur with larger 4mm bite and straight cutting geometry expedites bone removal during wide laminar exposure and fusion preparation. The ring handle ensures a secure, fatigue-resistant grip during prolonged use in major cases, and the straight profile directs force along the spinal axis for efficient vertebral body access. The 178mm length provides stable working position and adequate reach to lower segments.
The Ferris‑Smith‑Cloward laminectomy rongeur features a 6 × 10mm bite opening configured for precise removal of laminar bone during spinal decompression. The ring handle provides stable grip control during repetitive cutting motions through dense vertebral lamina. Straight jaw alignment enables perpendicular approach to laminar surfaces during posterior spine work.
This Ferris‑Smith‑Kerrison ejector rongeur combines a 40-degree upbite jaw with a 3mm bite width, specifically designed for controlled laminar and bone-edge removal during spinal procedures. The straight 203mm shaft delivers mechanical precision for bone resection adjacent to neural structures. The ejector mechanism safely ejects cut bone fragments without requiring separate instrumentation.
Ferris‑Smith‑Kerrison rongeurs deliver a 5mm bite with 90‑degree downbite jaw orientation that cuts beneath laminar overhang and foramen edges during laminectomy decompression. The thin footplate minimizes tissue trauma during jaw insertion, and the small handle permits precise positioning in confined spinal anatomy. The 203mm working length reaches deep cervical and thoracic laminae. Reusable stainless steel endures.