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The delicate Carmody tissue forceps delivers serrated jaws designed for atraumatic manipulation of fine tissue planes during microsurgical and ENT dissections. At 159mm overall length, it provides compact control in confined spaces. The serrated interlocking pattern maintains a reliable grip without crushing delicate structures like nerve and lymphatic tissue.
Features & Benefits
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.
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.
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.
The angled right‑handed Castroviejo corneal scissors deliver controlled cutting geometry for superior visibility during corneal and conjunctival procedures. The 16mm mid‑screw measurement and blunt tips support safe dissection of thin corneal lamellae, conjunctival flaps, and episcleral tissue without unintended perforation. Angular blade orientation improves access to lateral surgical fields while maintaining surgeon visual axis alignment.
This Castroviejo caliper measures anterior segment dimensions with 1mm precision across a 0‑40mm range. The adjusting screw mechanism locks measurement values, enabling accurate documentation of corneal diameter, limbal location, and surgical reference zones. The straight 178mm length supports stable positioning during pre- and intraoperative assessment.
This Castroviejo Colibri corneal forceps delivers ultrafine tissue engagement with a 0.12mm tip width and 1 × 2 tooth interlocking pattern. The 45‑degree tooth set supports precise iris and corneal surface grasping during fine anterior segment procedures. A wide serrated handle and polished finish provide stable, non-slip control during delicate microsurgical manipulation.
The left‑handed Castroviejo corneal scissors feature a curved blade profile and miniature design optimized for fine dissection in the anterior segment. Blunt tips minimize risk of inadvertent puncture into the iris, capsule, or deep corneal tissue during conjunctival, limbal, and episcleral dissection. The serrated flat handle and polished finish support precise one‑handed control and improved visibility during delicate conjunctival work.
Stromal tissue cutting during keratoplasty and lamellar surgery demands the power of the Castroviejo corneal scissors with its heavy curved geometry. Large 15mm blades and blunt tips enable controlled corneal dissection without damaging underlying structures. The three?hole handle distributes pressure evenly across extended dissection procedures.
The Castroviejo cyclodialysis spatula is an angled surgical implement designed for controlled separation of ciliary body from scleral wall during cyclodialysis procedures. Its 1mm × 16mm blade geometry provides fine leverage while minimizing tissue trauma. Polished finish and flat serrated handle support stable intraocular placement and manipulation.
Microsutures demand a needle holder with exceptionally fine, durable jaws�the Castroviejo microsurgery needle holder delivers both. Tungsten‑carbide jaws provide superior grip on delicate 7‑0 and finer microsutures without crushing or deforming needle metal. The flat serrated handle and straight 184mm shaft enable controlled one‑handed needle placement across precision microsurgical fields.
This curved Castroviejo needle holder incorporates 11mm smooth jaws and an integral locking mechanism for secure suture and needle control during anterior segment closure. The gentle curve follows the surgeon's natural hand arc and aids visibility in confined orbital and scleral spaces. A flat serrated handle improves grip security during wet-field suturing.
Curved jaws and a built‑in lock define this 147mm Castroviejo needle holder, sized for corneal and scleral suturing with fine ophthalmic needles. The curve follows the natural arc of the needle, and the locking mechanism holds the needle steady during knot rotation.
This Castroviejo needle holder features a tungsten carbide jaw construction built for reliable durability across repeat ophthalmic microsurgical cases. The straight geometry and locking mechanism provide secure needle purchase during fine corneal and anterior segment suturing. At 140mm overall length, it enables precise fingertip control for capsulorhexis closure and IOL fixation work.
Castroviejo needle holders in tungsten carbide combine precision jaw geometry with enhanced edge retention for microsurgical suturing. The straight 216mm length supports extended reach in deeper operative fields, while the smooth jaw design prevents needle splitting. Tungsten carbide construction delivers superior durability and reliability across many cases.
The Castroviejo needle holder is a hallmark instrument for ophthalmic microsurgery, offering curved geometry and medium jaw width for precision needle control during corneal, scleral, and IOL fixation work. The locking mechanism maintains needle security throughout tissue passage, while the round titanium handle supports extended procedure control.
The Castroviejo titanium needle holder combines lightweight, corrosion‑resistant titanium construction with a gently curved shaft and medium 11mm locking jaws for secure needle control during IOL fixation and anterior segment closure. The round grooved handle and 137mm overall length support extended surgical control with reduced hand fatigue. Locking mechanism enables single‑handed knot tying during wound closure.
This Castroviejo suture forceps delivers ultra-precision grasping for corneal, iris, and anterior capsule work with its 0.12mm platforms and 1 × 2 interlocking teeth set at 45 degrees. The ergonomic fenestrated handle and 110mm overall length provide optimal fingertip control during fine suturing. Straight geometry and micro-tip design support controlled needle passage without tissue trauma.
Castroviejo suturing forceps in the 40 degrees angled pattern engage 10‑0 corneal sutures away from the surgeon's line of sight. The 0.12mm teeth bite tissue cleanly at the wound edge, and the 6mm tying platform supports knot rotation against the forceps body. A wide serrated handle gives precise fingertip control across the 108mm length during corneal wound closure.
This Castroviejo suturing forceps is built for microsurgical wound closure and corneal work. The titanium construction combines exceptional rigidity with corrosion resistance across repeat sterilization and clinical use. At 110mm overall length with a 0.3mm tip and three‑hole handle, this instrument delivers fine tactile feedback during precise knot‑tying and suture positioning at the limbus or corneal margin.
The Castroviejo synechia spatula is a double-ended instrument designed for microsurgical lysis of anterior synechiae and delicate iris manipulation. Titanium construction delivers lightweight precision without sacrificing rigidity, supporting safe separation of fused iris from cornea or lens without tissue damage. The dual working ends enable efficient case management.
The Catalano corneoscleral forceps features a 1 × 2 tooth pattern, 60-degree angled platform with 5mm cross-serrated tying surfaces, and round knurled handle for secure engagement of corneal and scleral tissue during penetrating keratoplasty, corneal transplantation, and wound closure. The angled geometry supports improved visualization and control during limbal and corneoscleral work. This 108mm instrument is essential for keratoplasty procedures.