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The Lexer gouge with 10mm wide head and phenolic handle provides controlled scooping and hollowing of bone surfaces during orthopaedic procedures. The straight geometry and 275mm length support stable positioning and mechanical advantage, while stainless steel sustains durability across numerous sterilization cycles and operative cases.
Features & Benefits
The Lexer gouge, 15mm wide head with phenolic handle, enables larger-capacity bone removal and sculpting in orthopaedic procedures. The straight geometry supports direct chiseling motion, while the 275mm length provides extended reach and mechanical advantage. Stainless steel construction maintains durability and edge sharpness across repeated sterilization and use.
The Lexer gouge, straight with 10mm wide head and phenolic handle, balances scooping capacity with controlled bone manipulation in orthopaedic procedures. The straight geometry and extended 280mm length support stable positioning and mechanical advantage. Phenolic construction provides insulation and grip comfort, while stainless steel sustains edge sharpness across repeated sterilization and use.
The Lexer gouge, straight with 7mm head and phenolic handle, provides fine bone-scooping capability in orthopaedic procedures requiring delicate tissue handling. The straight geometry supports direct cutting motion, while the extended 280mm length provides reach and mechanical advantage. Phenolic handle and stainless steel construction ensure comfortable, durable performance across numerous cases.
Liston bone forceps cut through cortical bone and remove spicules during fracture care and orthopedic exposure. The angled jaws clear the surgeon's sight line on long‑bone shafts, while the single action mechanism and spring handle reset the cut between bites. The 191mm frame balances reach with the leverage needed to sever cortical edges.
The Liston bone forceps, straight with single-action spring handle and 216mm length, cuts bone with mechanical advantage during fracture reduction and bone removal in orthopedic procedures. Spring-return handle provides automatic jaw reset between cuts, improving cutting efficiency. Single-action mechanism generates powerful cutting force with minimal hand squeeze required.
A single‑ended Locke elevator with a 114mm overall length suits compact periosteal and soft‑tissue elevation in podiatric and small‑bone exposures. The straight shaft delivers a direct line of force from the handle to the working edge, useful for clean separation of periosteum from cortical bone. Stainless‑steel construction tolerates repeat sharpening and sterilization.
Extending the platform to 127mm, this single‑ended Locke elevator gives the surgeon a longer reach for periosteal lifting along the metatarsal shaft and small long bones. The straight profile preserves a direct force vector from handle to edge during stripping. Stainless‑steel construction sustains the cutting profile through repeat reprocessing.
The Love‑Gruenwald disc rongeur features a 45‑degree downward angle ideal for approaching the intervertebral disc space during posterior discectomy. Its 3 × 10mm bite removes nucleus and annular material, and the twin ring handles provide secure grip control. The 178mm working length balances reach with ergonomic hand positioning.
Love‑Gruenwald intervertebral discectomy rongeurs use dual ring handles and a 3mm × 10mm bite angled 45 degrees to facilitate controlled nucleus pulposus removal while protecting the adjacent vertebral endplate. The ring handle design distributes grip pressure evenly and prevents finger occlusion during repetitive strokes, and the compact 127mm working length supports access through standard laminotomy ports. Reusable stainless steel supports durable performance.
Love‑Gruenwald vertical disc rongeur angled downward 30 degrees, this instrument excels at controlled intervertebral disc material removal and vertebral endplate debridement. The 3 × 10mm jaw dimensions deliver proportional bite and purchase across osseous structures. Its 127mm working length provides stable mid‑field access.
Love‑Gruenwald vertical disc rongeur angled upward 30 degrees provides enhanced visualization during cranial‑ward intervertebral disc material removal and rostral endplate work. The 3 × 10mm jaw accommodates bone and disc fragments, while upward angling supports visualization across deeper disc levels. Its 152mm working length extends reach.
Love‑Kerrison laminectomy rongeurs deliver a 3mm bite with straight shaft and 90‑degree upbite jaw orientation that cuts perpendicular to the spinal lamina, optimizing cortical removal during decompression. The large handle accommodates firm grip during forceful cutting, and the regular footplate supports stable positioning at the lamina. The 203mm working length reaches laminae throughout the cervical and thoracic spine. Reusable stainless steel endures.
The Love‑Adson periosteal elevator combines a slender 6.5mm blade with straight geometry for delicate periosteal stripping along the spine and long bones. The 165mm length permits reach into moderate‑depth exposures while maintaining fingertip control. This eponymous pattern reflects proven technique for atraumatic subperiosteal dissection and soft‑tissue mobilization.
The Lowman bone clamp stabilizes bony fragments with its 1 × 1 jaw configuration, delivering reliable purchase across moderate‑sized reductions. The clamp mechanism secures hands‑free stability during plate and wire application, and the 184mm length provides balanced reach and control.
This extended 203mm Lowman clamp provides additional reach while maintaining the proven 1 × 1 jaw design for reliable fragment holding during fixation procedures. The clamp mechanism secures hands‑free stability, and the slightly longer length suits deeper exposures.
The Lowman bone clamp employs a 1 × 2 jaw configuration to apply controlled compressive force during fracture reduction without relying on continuous manual pressure. Straight geometry supports stable positioning at the operative field, and the compact 121mm length permits access to both superficial and modest‑depth bone work. Stainless steel construction resists corrosion and fatigue over many cases.
Lowman bone clamps secure cortical fragments during fracture reduction and plate fixation. The 1 × 2 tooth jaws bite into bone surfaces and resist rotation under wrist load, and the 203mm straight frame keeps the working end at the operative bone. Stainless steel construction holds the jaw geometry through repeat sterilization.
The Lowman bone clamp, 1 × 2 jaw configuration and 184mm length, provides dual-jaw bone securement during orthopedic fragment reduction and fixation placement. Its rectangular jaw pattern distributes clamping force evenly across bone surfaces, minimizing point loading and fracture propagation. Straight orientation and ergonomic handle enable precise positioning in confined reduction fields.
Lucae stainless steel mallet with hour‑glass‑shaped head and compact design delivers fine‑precision striking for delicate arthroscopic and otologic bone procedures. The 18.7mm head diameter and 6.8oz weight suit controlled handheld percussion in confined surgical spaces. Its 190mm length provides optimal surgeon control.
The Lucae mallet delivers controlled percussive force to bone-shaping instruments, particularly useful during orthopedic approaches to the vertebral body and periosteal work. Its hourglass head geometry and 19.4mm diameter provide balanced striking surface contact. Stainless steel construction ensures reliability across repeated sterilization and clinical reuse.
Large mallet #2 with stainless steel head and phenolic handle provides substantial striking force for major bone fracture reduction and osteotomy procedures. The 50.3mm head diameter and 2lb 11.6oz weight deliver high‑momentum impact suitable for dense cortical bone work. Its 268mm overall length maintains surgeon control during prolonged use.
Mallet #6 with stainless steel head and phenolic handle balances weight and control for percutaneous bone work and arthroscopic procedures. The 30mm head diameter and 1lb 6.3oz weight suit fine‑precision striking in limited surgical fields. Its 260mm length provides stable handheld control.
Large mallet #7 combines stainless steel head and phenolic handle with 30mm diameter for controlled striking in arthroscopic and percutaneous procedures. The 1lb 4.6oz weight delivers moderate impact force suitable for cartilage and cortical bone work. Its 268mm overall length supports stable handheld control.
This dual-head mallet combines a 32mm stainless steel head on one side and nylon head on the other, enabling selective force application during bone work and osteotomy while protecting soft tissue from metal impact. The phenolic handle reduces vibration transmission, and the 1-pound-4-ounce weight balances strike force with control.
Mallet with candle‑holder‑shaped stainless steel head and phenolic handle delivers controlled striking force during bone fracture reduction and chisel guidance. The 42mm head diameter provides balanced impact distribution, while the 1lb 3.5oz weight suits prolonged orthopaedic and arthroscopic procedures. The 268mm overall length enables stable two‑handed control.
This candle‑holder‑shaped mallet combines a substantial 42mm diameter head with a 1lb 7.5oz weight and phenolic handle to deliver consistent, controlled force during osteotomy and chisel work. The geometry distributes impact across a wide bone surface, minimizing localized stress concentration at the periosteum and articular interface. At 268mm overall, the balanced weight and length reduce hand fatigue in lengthy orthopedic procedures.
This all-phenolic mallet large variant features a 43.3mm head and 257mm length for controlled atraumatic percussion during major orthopedic bone work on vertebral bodies and periosteum. At 8.6oz, the lighter plastic profile reduces operator fatigue during prolonged procedures. Plastic construction eliminates metal-to-bone contact trauma.
This compact nylon‑cap mallet delivers controlled impact force during orthopedic procedures without marring instrument heads or bone surfaces. The 20mm diameter nylon cap disperses striking energy across wide contact areas, protecting delicate articular cartilage and guide structures. Stainless steel construction maintains durability across many surgical cases.
This solid copper mallet delivers controlled, non-recoiling force for precise impaction of orthopedic implements and chisels. The copper head minimizes ricochet and maintains contact force across deep strokes, unlike steel mallets that create unnecessary vibration in periosteum and bone. Copper's natural properties reduce reactive stress to surrounding soft tissue.