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This asymmetric pelvic reduction forceps features pointed ball tips that engage bone surfaces without piercing cortical margins during fracture reduction. The 406mm length provides leverage across wide pelvic zones, and the ball‑tip geometry distributes reduction force evenly while protecting underlying soft tissue and peritoneal contents. The straight configuration supports direct reduction control.
Features & Benefits
The Bankart glenoid perforating forceps combine slightly curved jaws with a gentle curve geometry for secure grasping of bone fragments and soft tissue during shoulder and glenoid reconstruction. The 170mm length supports reach into the glenoid fossa and labral region without hand strain. Perforating teeth ensure reliable tissue purchase during fracture fixation and capsular repair.
The Bankart glenoid perforating forceps is engineered for securing tissue and bone fragments during shoulder girdle reconstruction. Strong angled jaws grip fibrous tissue, capsular margins, and labral fragments at the glenoid rim. The 170mm length reaches deep intra‑articular structures while the angled design preserves surgeon visibility during shoulder exposure.
Bishop bone holding forceps incorporate an adjustable jaw mechanism that accommodates variable bone thicknesses and contours without requiring manual readjustment between fragments. The 229mm length provides reach suitable for deeper orthopedic exposures, and straight geometry ensures stable control when securing reductions across the periosteal and cortical interfaces. Stainless steel construction endures repeated clinical use.
The Bohler bone rongeur forceps features a curved jaw geometry optimized for controlled bone nibbling in orthopedic procedures. The 4mm working width allows selective removal of bone fragments and cortical edges while the curved profile follows the surgical anatomy. Spring tension supports repetitive clamping without hand fatigue, and stainless steel construction ensures lasting durability through sterilization cycles.
The Bohler cutting forceps combine a curved bite geometry with bone‑cutting capability for removing or modifying cortical fragments during fracture reduction and joint reconstruction. A standard curve supports access to deeper anatomical structures, and the 146mm length permits control in confined spaces. The eponymous pattern reflects decades of spinal and extremity surgical refinement.
Straight bone cutting forceps cleanly transect cortical and cancellous bone during osteotomy and fragment sizing. The robust jaws slice through dense bone, and the straight configuration enables axial cutting force perpendicular to the bone surface. At 146mm, they are suited for hand‑held cutting in open procedures.
These bone reduction forceps carry curved jaws with one defined penetrating pointed tip and a long ratchet at 171mm, sized for grasping and reducing bone fragments during fracture fixation. The penetrating tip anchors into cortical bone, and the long ratchet holds reduction under sustained tension.
Bone reduction forceps with curved jaws and pointed tips enable precise fracture reduction and periosteal manipulation during orthopedic reconstruction. The long ratchet provides sustained compression without hand fatigue during final seating. The 135mm overall length supports stable control during complex multi‑fragment bone work.
These curved-jaw bone reduction forceps deliver smooth, controlled grasp along curved bone surfaces during complex pelvic and femoral reductions. The standard curve geometry follows natural anatomic contours, and the speed-lock mechanism enables quick closure without hand fatigue. The 229mm length provides stable, controlled reduction across deep surgical sites.
This curved bone reduction forceps features 10mm short serrated jaws and pointed tips for precise cortical edge alignment during fracture reduction. The 127mm compact length suits limited access fields while the serrated jaw surfaces maintain grip without slipping. Designed for controlled, atraumatic reduction of cortical and cancellous bone fragments.
Serrated jaws on this curved reduction forceps prevent slippage on periosteal or cancellous surfaces, while pointed tips allow precise engagement within fracture lines or narrow foramen. The 140mm overall length positions the instrument for ergonomic control during delicate realignment work at the vertebral margin or joint capsule. Reusable stainless steel maintains edge grip through cycles.
This compact curved bone reduction forceps measures just 140mm overall, making it well suited for intraoperative maneuvering in tight anatomic spaces where access is limited. The small size does not compromise jaw purchase; the curved profile facilitates control during subtle repositioning of bone fragments near vertebral bodies or joint capsule boundaries. Reusable stainless steel offers consistent performance across cases.
This long bone reduction forceps delivers a refined 0.035 inch tip profile for sensitive bone engagement during orthopedic reduction maneuvers. The extended length provides reach and leverage for complex fracture alignment, while the small tip enables precise contact at fracture reduction sites without excessive cortical disruption or soft‑tissue trauma.
With a 0.062 inch tip, this long bone reduction forceps provides larger surface contact for secure fracture engagement during complex multi‑fragment reduction scenarios. The extended length enables leverage across substantial fracture fields, and the refined tip geometry balances surface area with precision access. The stainless‑steel construction withstands repetitive reduction force.
This ratchet‑style bone reduction forceps features a two‑inch ratchet length that opens to four inches, enabling staged bone reduction during complex fracture fixation. The ratchet locks fragment position once alignment is achieved, freeing the surgeon to position fixation devices. The 203mm overall length and straight profile suit broader exposures where sustained reduction force is needed.
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.
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.
Crafted from tungsten carbide, this Cushing dissecting forceps delivers superior edge retention for delicate periosteal and tissue plane dissection during orthopedic exposures. The straight 178mm profile supports precise control when separating muscle from bone or elevating periosteum from the cortical surface. Tungsten carbide construction combines lasting durability with the sharpness required for meticulous soft‑tissue work.
The mini Kern bone‑holding forceps (150mm) provides secure purchase on small bone fragments and cortical edges during orthopedic fixation and reconstruction. The ratchet mechanism locks bone fragments in place hands‑free, supporting safe positioning during screw insertion and plate application. Stainless steel jaws resist wear across hundreds of reprocessing cycles.
The Kern bone‑holding forceps secures bony fragments during reduction and fixation of fractures throughout the skeleton. Its straight jaws engage cortical bone surfaces directly, and the ratchet mechanism locks segments in position hands‑free during drilling, plating, or wiring. The 230mm length provides balanced reach and control.
The Kern bone-holding forceps without ratchet deliver flexible grip strength for temporary bone reduction and positioning. The 210mm length and straight geometry provide reach and direct control, and the absence of ratcheting allows quick application and removal during complex reductions. Stainless steel durability ensures reliable sterilization and clinical reuse.
The Kleinert‑Kutz bone cutting forceps features straight delicate blades with double‑action and spring‑handle mechanics for precision bone sectioning in hand and orthopedic surgery. The 152mm compact length suits limited exposures while maintaining full cutting capability. Designed for safe, controlled bone work within confined spaces.
This extended‑length Lambotte variant (267mm) carries the same swivel‑head design and click ratchet mechanism into deeper operative fields where standard instruments cannot reach cortical edges or intramedullary landmarks. The adjustable jaw remains responsive at full extension, ensuring secure positioning of complex periosteal reconstructions. Reusable stainless steel maintains performance through many cases.
Lambotte design scales to maximum length (292mm) for access to deep intramedullary or lower spinal exposures where shorter instruments prove inadequate. The swivel head and adjustable jaw architecture remain responsive even at full extension, and the click ratchet locks positively without drift during prolonged reduction sequences. Stainless steel construction ensures reliable performance across many procedures.
Lambotte bone holding forceps feature a swivel head that rotates independent of the handle shaft, allowing surgeons to reposition the jaw angle without releasing grip�critical during complex periosteal or intramedullary canal work where interim fixation orientation must shift. Click ratchet engagement ensures fail‑safe locking, and the 216mm length balances reach with control. Stainless steel offers lasting reliability.
This extended 330mm Lane bone forceps provides secure fragment holding in long bone fixation across the femur, tibia, and humerus. The absence of a ratchet mechanism keeps the instrument lighter for sustained one‑handed holding, and the straight jaws maintain consistent bone contact through reduction and plate application. Stainless steel endures extended surgical use.
This extra‑long 432mm Lane bone forceps extends reach for securing fragments in lengthy long bone reductions, particularly during femoral intramedullary work and tibiofibular fixation. The ratchet‑free design minimizes weight, and straight jaws deliver consistent purchase on cortical bone. At 432mm, it accommodates surgeons who prefer maximum reach.
This heavy‑pattern Lane forceps handles dense cortical bone and large fragments requiring substantial holding force. The ratchet mechanism locks fragments hands‑free, and the straight jaws maintain direct cortical contact during demanding plating procedures. At 432mm, the extended length suits femoral and tibial work.
The Lane bone-holding forceps, light model with straight jaws and ratchet mechanism, secures fracture fragments and bone segments during orthopedic reduction and fixation. Straight jaw geometry ensures parallel bone contact across the clamping surface. Ratcheted handle maintains secure hold without requiring sustained hand pressure, freeing the surgeon for simultaneous plate or screw placement.