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This medium‑weight stainless steel mallet features a phenolic handle and larger 30mm cylindrical head for general orthopaedic impact work. The 243mm length and heavier 14.1oz mass provide forceful striking suitable for cortical bone manipulation and implant seating. Phenolic grip material improves ergonomics during extended procedures.
Features & Benefits
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.
Combining a silicone handle with a dual‑face 25mm head, this 11.44oz mallet pairs one metal disk and one plastic disk to let the surgeon choose strike profile mid‑case. The metal face transfers firm energy to osteotomes through cortical bone, while the plastic face spares delicate implant surfaces. Nylon disk construction and the 191mm shaft balance reach and damping across orthopedic impaction tasks.
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.
This mallet features two replaceable nylon caps, allowing the surgeon to switch between striking surfaces within a single case. The nylon material transmits force softly to delicate structures while maintaining impact efficiency, and the replaceable cap design extends instrument life. The instrument body is reusable, supporting cost‑effective clinical practice.
The Martin meniscus cartilage grasping forceps feature straight jaws engineered to engage and remove damaged meniscal tissue during arthroscopic knee procedures. At 6.5 inches (165mm) overall length, they fit comfortably within the narrow arthroscopic portal while maintaining adequate mechanical advantage for tissue mobilization. Stainless‑steel construction withstands repeated sterilization and gentle use across multiple cases.
The Martini bone curette pairs 4mm and 5mm cups on a double‑ended 133mm body for graded bone debridement during orthopedic and dental work. The double‑ended design allows the surgeon to step between cup sizes without an instrument exchange.
This McCulloch retractor blade reduces the tooth count to four while extending the length to 100mm, accommodating finer dissection spaces in orthopedic work. The narrower 20mm blade profile and four‑point contact distribute retraction force evenly, minimizing tissue trauma during delicate mobilization. Stainless steel meets all sterilization standards for reusable surgical practice.
Maximum reach with reduced contact: this 120mm McCulloch blade features four teeth across a 20mm width, ideal for deep orthopedic exposure where soft tissue sensitivity is paramount. The four‑point distribution prevents tenting of tissue, while the extended length penetrates to deeper muscle planes. Stainless steel durability supports routine reprocessing.
This compact 90mm McCulloch blade with four fixating teeth serves shorter orthopedic exposures where space is limited. The 20mm width combined with four‑point contact enables precise tissue positioning without broad dissection, protecting nearby neurovascular structures. Stainless steel composition ensures lasting edge and surface integrity.
Extended to 100mm, this McCulloch retractor blade maintains the same six‑tooth fixation over a longer profile, deepening access in orthopedic fields requiring greater reach. The 27mm‑wide blade provides ample surface for controlled soft‑tissue management, and stainless steel construction endures repeated sterilization cycles without loss of edge definition.
The 120mm variant of the McCulloch retractor blade offers the maximum reach in this series, enabling mobilization of soft tissues in extended orthopedic approaches. Its six teeth anchor tissue reliably across the 27mm blade width, while stainless steel composition ensures consistent performance through autoclave cycles and clinical reuse.
The McCulloch retractor blade features a straight 90mm × 27mm geometry with six fixating teeth designed to secure soft tissues during retraction in orthopedic fields. Stainless steel construction is built for reliable performance and lasting durability across repeat clinical use. The toothed configuration provides stable hold without excessive pressure, supporting precise visualization of the surgical bed.
This McCulloch wide muscle blade retractor is designed for broad tissue and muscle retraction in orthopaedic and spinal approaches. The 27 × 70mm blade dimensions provide generous surface area for holding fascial and muscular tissue without crushing. Black coating supports visualization in deeper surgical fields while reducing light reflection.
Used in forefoot and small‑bone surgery, this McGlamry bullneck curette presents a 4mm size‑4 cup on a stout neck that resists bending while scooping cancellous bone and cyst contents. The 127mm length suits the shallow working depths of metatarsal and phalangeal procedures. Stainless‑steel construction tolerates the focused loading of small‑bone curettage.
Designed for forefoot work, the McGlamry metatarsal elevator carries a sharp 11mm curved‑up blade that slips beneath the metatarsal head to free plantar capsule and surrounding soft tissue before osteotomy. The upward curvature seats against the inferior cortex, and the 165mm length supplies controlled leverage from outside the surgical field. Stainless‑steel construction sustains the sharpened edge through repeat use.
This metatarsal elevator with sharp 13mm blade and upward curve accesses and lifts the periosteum from metatarsal heads during forefoot procedures. The curved geometry positions the blade tangentially to bone, enabling clean separation without crushing soft‑tissue attachments. Stainless steel maintains edge sharpness essential for precise periosteal work.
The McGlamry metatarsal elevator combines a 15mm wide curved blade with sharp working edge for controlled elevation of soft tissue attachments around metatarsal bone. The upward curve geometry improves approach angle to deeper soft tissue planes during forefoot surgery. Sharp edge facilitates clean dissection of fascial and ligamentous attachments without crushing.
This wider metatarsal elevator with 17mm sharp blade accesses larger metatarsal surfaces and extended periosteal regions during midfoot and hindfoot procedures. The curved upward geometry maintains tangential approach to bone, while the larger blade area distributes lifting force across broader periosteal attachments. Stainless steel construction supports repeated sterilization.
This McGlamry metatarsal elevator presents a sharp, slightly curved 9mm wide blade measuring 165mm in length, designed for controlled elevation and periosteal stripping during foot and ankle orthopedic work. The curved geometry improves angle of approach to metatarsal shafts and joint surfaces.
The Mead mallet uses replaceable white nylon heads to provide gentle, atraumatic striking forces when working with periosteum and sensitive bone structures. The cylinder-shaped head measures 26mm and the whole instrument weighs 11.5oz, offering substantive percussion without metal-to-bone contact that could cause tissue trauma. Finger grip and round handle support secure control.
These 20mm nylon replacement caps fit Mead mallets to restore the impact face after wear. The nylon surface delivers controlled strikes on osteotomes and chisels without metal‑on‑metal noise, and the threaded fit holds the cap against repeated mallet impacts.
This metatarsal elevator features a 9mm width for controlled separation of metatarsal heads during forefoot surgery and bunion work. The straight 165mm handle supports precision at the forefoot, and stainless steel construction withstands repeated use in the saline‑rich surgical environment.
Meyerding finger retractors hold soft tissue away from the operative bone during hand surgery and small‑joint orthopedic exposure. The size 1 blade measures 7mm wide by 18mm deep, and the finger ring registers the surgeon's index against the handle for one‑handed retraction. The 178mm overall length suits small‑field tendon, ligament, and capsule exposure.
This large Meyerding laminectomy retractor features sharp teeth on a 50mm wide x 94mm long blade with ergonomic handle, configured for hands-free retraction of lamina, ligamentum flavum, and dura during spinal decompression. At 254mm overall length, it extends reach while maintaining secure tissue grip across the surgical field.
The Meyerding laminectomy retractor medium with sharp teeth and ergonomic handle is designed for controlled vertebral lamina and facet joint exposure during spinal decompression. The 25 × 80mm blade with sharp interlocking teeth holds bone edges securely without slipping, while the curved geometry follows laminar architecture. At 229mm, the length suits midline and lateral spinal approaches.
Built for spinal exposure, the Meyerding laminectomy retractor carries a 17 × 55mm blade with sharp teeth that anchor in paraspinal muscle and fascia, holding the corridor open over the lamina. The ergonomic handle distributes pulling force comfortably during sustained retraction, and the 229mm length matches the depth of posterior spinal access. Stainless‑steel construction tolerates repeated heavy loading.
This microdiscectomy cervical bone waxer carries a straight XL bayonet shaft with a black handle and a 104mm working length over a 241mm frame. The wax‑application tip seats bone wax onto cancellous bleeding surfaces in the cervical disc space, where electrocautery near neural elements is contraindicated. The bayonet offset preserves the microscope sight line during application.
This microdiscectomy cervical curette in size 0 pairs a forward angled cup with an XL bayonet shaft for disc and endplate work in the cervical spine. The bayonet keeps the shaft offset from the line of sight down the tubular retractor, and the angled forward geometry engages cancellous bone at the disc margin. The 104mm working length matches standard cervical microdiscectomy depth.
Microdiscectomy cervical curette, size 000, configured with a forward angled cup on an XL bayonet shaft for disc and endplate preparation in the cervical spine. The 2.4mm‑class cup steps up bite volume from finer sizes while the bayonet keeps the shaft offset from the working sight line. 104mm working length suits standard tubular microdiscectomy depth.