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The maximum-reach variant of the Casper fenestrated rongeur extends working length to 185mm, accommodating wide ventral exposures in multi-level anterior cervical procedures. The 2 × 12mm dual-fenestrated jaw maintains selective tissue protection across extended reach. Stainless steel construction withstands the mechanical demands of deep-field bone removal.
Features & Benefits
This Casper dual-fenestrated rongeur combines a 2 × 12mm bite with back-fenestration serrations that selectively grasp bone while allowing soft tissue escape. The serrated portion prevents upward migration of calcified fragments during removal from the vertebral body or lateral recess. The 140mm working length minimizes retraction trauma to neural and vascular structures.
This extended Casper rongeur variant maintains the 2 × 12mm dual-fenestrated design while extending the working length to 160mm for deeper spinal exposures. The increased reach enables surgeons to access anterior vertebral body lesions and IVD pathology without additional retraction. Serrated back-fenestration selectively contains bone fragments.
This 3‑prong cast spreader is designed for controlled cast splitting and removal during orthopedic procedures. The three‑prong geometry distributes spreading force evenly across the cast material, minimizing pressure points and protecting underlying skin and subcutaneous tissue. At 230mm, it provides sufficient leverage for efficient cast disruption without excessive hand fatigue.
Cervical distractor set delivers complete instrumentation for controlled multi‑level vertebral body separation during anterior cervical fusion. The set includes left and right 100mm rack distractors, precision distraction screws (12mm and 14mm), dedicated screwdrivers, and anodized aluminum storage case for organized sterilization. All components optimize disc‑space exposure and maintain anatomic alignment.
The cervical vertebral body distractor is designed for right-sided approach use, enabling controlled separation of vertebral bodies from C5 through T1‑T2, and left-sided approaches for upper cervical spine access. Its geometry aligns with trajectory-specific surgical approaches during anterior cervical fusion and discectomy. Stainless‑steel construction provides the rigidity and corrosion resistance required for high-tension distraction.
The extra large Chandler elevator extends periosteal elevation reach to 254mm, accommodating lengthy orthopedic exposures in the femur, tibia, and humerus where standard instruments leave blind zones. The straight blade geometry concentrates force linearly along the bone shaft, separating the periosteum without lateral shear that might damage adjacent soft tissue and the intramedullary canal entrance. Stainless steel blade withstands repetitive force application in extensive cases.
This large Chandler bone elevator features a straight blade geometry suited to forceful elevation of periosteum from cortical bone during extensive orthopedic exposures and intramedullary canal preparation. The substantial blade length (229mm overall) distributes effort across a wide arc, reducing point stress on the periosteal attachment and minimizing tearing at the bone margin. Stainless steel construction supports durability across high‑force repetitive use.
The Chandler bone elevator features a 12mm straight blade for broad, atraumatic soft-tissue and periosteal separation during orthopedic dissection. Its 200mm length provides excellent reach and mechanical advantage for elevating fascia and periosteum away from underlying bone surfaces. Stainless steel maintains clean gliding during repetitive use.
The Chandler small bone elevator features a straight working blade optimized for controlled elevation and separation of soft tissue planes from cortical bone surfaces. The compact 178mm length enables precise manipulation in confined surgical spaces during fracture reduction and bone exposure. Stainless steel construction withstands lever‑force applications without deformation.
Chandler elevators raise periosteum and lift soft tissue off bone during orthopedic and spinal exposure. This straight blunt blade widens from a 17mm tip to a 25mm maximum, giving the surgeon a graduated working surface against periosteal planes while the 229mm overall length carries the working end into deeper fields. The blunt edge protects underlying soft tissue against sharp avulsion.
This Chandler elevator features a blunt 8mm tip and straight profile for controlled elevation and dissection of periosteum and soft tissue during orthopedic approaches. The 191mm length balances reach with control during bone exposure and fracture site preparation. The blunt working edge protects underlying structures while enabling reliable periosteal elevation.
This Chichirelli rongeur features 45 degree curve with 4 × 13mm bite for efficient bone removal from facet joints and vertebral structures. The curved geometry improves approach angle to the lamina and vertebral body. Stainless steel is engineered for durable performance and edge retention across repeated surgical use.
With a 12mm head, this US Army pattern chisel balances cutting efficiency with controlled bone sectioning during orthopedic procedures. The straight profile supports direct cutting force application, and the 178mm length provides adequate surgical field reach. The 12mm head enables efficient bone division.
At 18mm width, this US Army pattern chisel delivers maximum cutting surface for efficient bone division in wide sectioning sites. The straight edge provides direct cutting force, and the 178mm length supplies adequate reach. The 18mm head supports broad, controlled bone work.
This US Army pattern chisel with a 6mm head delivers precise cutting capability for controlled bone sectioning in orthopedic procedures. The straight profile supports direct cutting force, and the 178mm length provides adequate reach. The 6mm head is suited for fine bone work in confined anatomic zones.
The Cleveland bone cutting forceps deliver a single bite through cortical bone segments and small bony processes. The spring handle returns the jaws to open between cuts, and the 152mm straight frame suits hand, foot, and small joint orthopedic work. Stainless steel construction preserves the cutting edge across repeat reprocessing.
Cleveland rongeurs feature a 4mm × 9mm bite sized for controlled vertebral body resection and laminar edge removal during decompression procedures. The spring handle provides tactile feedback and reduces hand fatigue during multiple cutting strokes, and the standard curve facilitates controlled jaw approach to cortical surfaces. Stainless steel construction supports robust performance across complex spinal cases.
The Cloward retractor blade features an angled shaft with a 13mm concave blade, designed to follow and protect neural structures during cervical spine procedures. The concave geometry stabilizes the blade against bone edges, preventing slippage during deep retraction. Stainless steel construction withstands repeated sterilization while maintaining blade concentricity and edge definition.
Scaled to 18mm, this Cloward retractor blade broadens the exposure in cervical spine procedures without sacrificing neural structure protection. The concave profile distributes retraction load evenly along the blade length, and the angled geometry maintains clear visualization of operative depth. Stainless steel responds reliably to autoclave sterilization.
The 20mm variant of the Cloward retractor provides maximum blade width in this series while maintaining the angled shaft and concave profile. This configuration suits larger cervical approaches where broad neural protection is needed, and the concave curve distributes retraction forces evenly. Stainless steel composition ensures lasting durability.
The largest Cloward blade at 23mm, this retractor accommodates the broadest cervical exposures while maintaining the protective concave geometry. The extended blade width distributes retraction load across the maximum surface area, minimizing focal pressure points on neural tissue. Stainless steel construction withstands multiple sterilization cycles without dimensional change.
The Cloward‑Harper rongeur combines a 40-degree angled jaw with a 3mm bite, designed for controlled removal of bone from vertebral bodies and intervertebral discs during anterior cervical decompression. The straight 203mm shaft delivers mechanical advantage without excessive bulk in the operative field. The angled bite geometry aligns with vertebral endplate contours.
This Cloward mallet is sized for larger-scale spinal fusion and vertebral body work, featuring a ball-and-pean head that distributes striking force across wider surgical surfaces. Weighing 14.6oz at 25.3mm diameter, the instrument supports controlled intervertebral disc preparation and bone impaction. Round-handle geometry provides secure grip during high-force applications.
The Cloward mallet is engineered for anterior cervical discectomy and fusion work, featuring a small ball‑and‑pean head geometry that concentrates force onto vertebral bodies and graft materials. The 17.3mm head diameter and 191mm shaft length provide the compact profile essential for cervical exposure. Stainless steel construction ensures durability across repeated surgical applications.
The Cloward rongeur features a serrated bite with 6 × 10mm jaw dimensions and angled‑up geometry for controlled removal of small bone fragments during mastoid surgery and ossicular bone work. The serrated cutting surface prevents slipping on hard bone while the angled‑up head orients the bite upward for optimal visualization. At 5 inches, the length provides adequate handheld control during intricate tympanic cavity work.
The Cloward rongeur with serrated cutting surfaces removes bone and promote hemostasis during cervical spine and laryngeal procedures. Its straight 6 × 10 jaw configuration fits confined surgical corridors. The 127mm length maintains optimal hand positioning.
This wider 25mm Cobb osteotome extends reach into deeper orthopedic fields while maintaining the characteristic gentle curve for safe periosteal dissection. The sharp cutting edge cleanly separates the periosteum from bone, and the 280mm shaft length supports controlled access in extended procedures. Reusable stainless steel construction supports sustainable surgical practice.
The Cobb 32mm osteotome is engineered for wide-field periosteal mobilization in major spinal and orthopedic exposures. Its gentle curvature follows the spinal lamina and vertebral body contours, enabling smooth elevation and protecting underlying neural structures. Sharp cutting geometry and 280mm length combine reach with controlled blade positioning.
The Cobb curved osteotome with 13mm sharp blade provides expanded working width for larger curved osteotomies across vertebral body and facet transitions. The gentle curve follows bone anatomy while maintaining sharp edge contact, and the straight 280mm shaft provides stable reach throughout extended spinal work.