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This fast‑cut burr is designed for rapid bone removal and contouring in orthopedic and spinal surgery. The 2mm diameter and 54mm length optimize access to vertebral bodies, laminae, and lateral recess structures during decompression procedures. High‑speed burrs require secure fastening and reliable flute geometry for bone debris clearance.
Features & Benefits
This C-SlimLine retractor handle accepts modular blade attachments for flexible soft-tissue retraction during orthopaedic exposures. The stainless steel construction and standardized coupling allow quick blade exchange to match varying exposure requirements across different surgical approaches. The handle design supports prolonged comfortable grip during extended retraction.
This C‑SlimLine double‑hinged longitudinal retractor frame is engineered for compact, hands‑free abdominal wall retraction. The dual hinge mechanism maintains stable blade positioning while permitting lateral movement to optimize visual field throughout a case. Lightweight construction reduces operative fatigue compared to single‑hinge designs.
This C‑SlimLine double‑hinged transverse retractor frame accommodates bilateral self‑retaining retractor blades for wide abdominal exposure during midline or transverse laparotomy. The dual‑hinge geometry permits independent blade positioning and tension adjustment, supporting exposure of deeper viscera. Lightweight frame construction reduces fatigue during extended procedures.
The C‑SlimLine lateral retractor blade delivers a compact 40mm profile for exposing the operative field during lateral access procedures. Micro‑tooth geometry on the blade tip secures superficial and deep soft tissue against the lamina and periosteal layers without slipping. Titanium construction provides rigidity and corrosion resistance across many sterilization cycles, while the 50mm overall length fits within confined surgical spaces.
The C-SlimLine lateral retractor blade at 45 × 20mm features micro-tooth geometry for precision retraction of delicate lateral soft-tissue structures. Titanium construction supports reliable performance without added bulk. At 57mm handle length, it positions well for lateral-approach orthopedic procedures.
This 50 × 20mm C-SlimLine lateral retractor provides wider lateral coverage with micro-tooth pattern for secure retraction of fascial and tendinous layers. Titanium's inherent strength allows lightweight construction. The 60mm handle supports excellent positioning during lateral-access procedures.
The 55 × 20mm C-SlimLine lateral retractor delivers substantial lateral coverage with precision micro-tooth retraction for complex lateral surgical exposures. Titanium construction ensures lasting performance without excessive weight. The compact 55mm handle maintains excellent tactile control.
The largest C-SlimLine lateral retractor at 60 × 20mm provides maximum lateral-approach coverage with micro-tooth engagement for reliable retraction of broad soft-tissue and fascial planes. Titanium composition ensures lightweight durability. The 70mm handle extends well into deep fields.
The C-SlimLine medial retractor blade combines a 40 × 20mm face with long teeth for secure periosteal and soft-tissue retraction during medial-approach orthopedic surgery. Titanium construction provides rigidity without excess weight, supporting reliable performance across many cases. The 50mm handle extension maintains control at deeper fields.
This larger C-SlimLine medial retractor extends to 45 × 20mm for broader periosteal and soft-tissue retraction during extensive medial surgical approaches. Titanium construction balances strength with low weight. The 57mm handle provides adequate reach and positioning control.
The 50 × 20mm C-SlimLine medial retractor provides substantial coverage for broad periosteal and soft-tissue flap retraction during open orthopedic approaches. Long-tooth design ensures reliable grasp without slipping. Titanium's low weight reduces operator fatigue in prolonged cases.
The 55 × 20mm C-SlimLine medial retractor delivers wide coverage for extensive soft-tissue and periosteal separation during large surgical exposures. Long-tooth design provides stable hold on deep fascia and ligamentous layers. Titanium composition ensures lightweight, durable performance.
The 60 × 20mm C-SlimLine medial retractor represents the widest medial configuration, supporting maximum periosteal and soft-tissue retraction during comprehensive joint and bone exposures. Long-tooth engagement ensures reliable hold on dense fascia. Titanium construction permits extended operative time without fatigue.
This compact calcaneal spreader combines a 6mm serrated blade with 1‑ 1/4 inch opening to manage foot and ankle fractures during reduction. The serrated working edge grips cancellous bone without slipping, and the compact 95mm profile supports precise hand positioning in limited plantar space.
This precision stainless steel caliper measures anatomic dimensions up to 152mm in both metric and imperial units, essential for surgical planning in orthopedic trauma and reconstruction. The fine‑point arms provide consistent contact on bone landmarks, while the dual‑scale dial ensures accurate femoral condyle, acetabular, or vertebral body measurements. Reusable construction supports decades of clinical use.
This cannulated end‑cutting pin cutter trims K‑wires up to 1.6mm (0.062") at the desired length without leaving a sharp leading edge. The cannulated jaws slide along the wire for clean positioning before the cut, and the 191mm length supplies enough mechanical advantage for one‑handed shearing.
The cannulated pin cutter, designed for maximum pin sizes up to 1.6mm, delivers clean separation of fixation pins and wires during orthopedic hardware removal. Its straight cutting blades create flush cuts without deforming residual pin or wire ends. 191mm length and precision cutting edges support controlled pin extraction procedures across varied anatomical access points.
This Carroll tendon pulling forceps with curved geometry reaches tendons in soft tissue spaces during orthopedic repair procedures. The compact 114mm length supports hand positioning in confined anatomical compartments, and the curved profile follows tendon anatomy while providing secure purchase during manipulation.
Caspar bone tamp (3mm diameter, crisscross grip end) compacts cancellous bone and prepares vertebral endplate surfaces during fusion procedures and bone-graft consolidation throughout the exposure. The crisscross grip end improves mallet contact and prevents slipping during strikes. Eight-inch (203mm) phenolic handle supports stable positioning. Stainless‑steel sustains durability.
Larger Caspar bone tamp (5mm diameter, crisscross grip end) compacts larger bone surface areas and endplate margins during vertebral fusion and osteotomy closure throughout the extended procedure. The crisscross grip pattern improves mallet strike control and force transfer throughout the work. Eight-inch (203mm) phenolic handle enables stable positioning. Stainless‑steel sustains service.
This Caspar bone tamp with an 8mm diameter is designed for controlled impaction and seating of bone grafts or implants. The crisscross grip end provides tactile feedback during impact, helping the surgeon modulate force and prevent over-driving. The phenolic handle reduces hand transmission of mallet vibration during extended use.
These Caspar distraction pins provide the traction foundation for cervical vertebral body separation during anterior cervical fusion approaches. The pin geometry interfaces with the distractor body to maintain stable, anti-slip contact under load. Stainless steel construction withstands repeated sterilization and the mechanical stress of spinal distraction.
This Caspar distractor screw driver provides precise engagement with the threaded screw mechanism that controls vertebral distraction force during anterior cervical procedures. The driver tip geometry prevents cam-out and slippage under high mechanical loads. Stainless steel construction remains reliable across routine surgical use and sterilization.
This left-right‑specific Caspar distractor drill guide maintains alignment and entry angle during pilot-hole preparation for cervical distraction pin placement. The guide interfaces with the distractor body to ensure perpendicular approach to vertebral bodies. Stainless steel construction supports the mechanical stress of drilling through cortical bone.
This Caspar distractor twist drill is a specialized 1.7mm pilot instrument for initiating vertebral body distraction during anterior cervical fusion. The straight geometry aligns with the typical anterior midline approach to the cervical spine, and the compact 146mm length maintains operative field clarity. Stainless‑steel rigidity transfers torque reliably without deflection.
This straight Caspar rongeur features a 5mm bite optimized for controlled removal of bone and disc material during cervical decompression. The compact 152mm shaft length allows precision work within narrow neuroforaminal and disc spaces without bulk. Stainless‑steel construction provides durable bite edges across repeated surgical use.
This Caspar screwdriver engages distraction screws used with Caspar cervical systems. Its Radel PPSU handle provides a secure, heat‑resistant grip. The machined tip ensures precise seating and reliable torque transmission in deep operative fields.
Caspar type distraction screw, 12mm, provides reliable vertebral body purchase during controlled anterior cervical expansion. Thread pitch and flute geometry are optimized for dense cortical bone and cancellous architecture common at the C3‑C7 vertebral bodies.
Caspar type distraction screw, 14mm, delivers superior vertebral body engagement in wide‑body cervical anatomy. Thread geometry matches Caspar‑system rack‑and‑pinion distraction mechanisms, ensuring reliable force transfer during multi‑level expansion procedures.