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Lister bandage scissors provide angled access for safe dressing and cast removal in wound and orthopedic care. The probe tip threads beneath rigid materials without traumatizing underlying tissue. Angled blade geometry improves visibility and approach control during timed removal procedures.
Features & Benefits
This Lister bandage scissors feature an angled geometry with probe tip for safe, controlled cutting of sutures and dressings without risk to underlying skin. The 140mm length provides adequate reach and leverage for cutting tasks. Stainless steel construction ensures durability across repeated use and sterilization.
These Lister bandage scissors provide efficient dressing and wound covering removal without risk to underlying tissue. The straight blade geometry and extended 184mm length support safe bandage and cast material cutting from a distance, protecting the surgical site. The characteristic Lister design has been clinically validated for over a century.
The Littauer ligature scissors' compact, straight geometry supports controlled suture cutting in general closures and knot trimming. The instrument's precision tips deliver clean cuts without tissue nicking. Its proven design has established reliable performance in vascular and general surgical suture management.
Straight Littauer scissors with a notch in the blade catch and cut suture material flush against the skin during stitch removal, with the notch lifting the suture clear before the cut. The 127mm length keeps the working tips at the surgeon's fingertips for fine clinic work.
Straight Littauer scissors provide compact, controlled cutting geometry for fine tissue dissection in confined surgical spaces. The 140mm length combined with the Littauer pattern supports precision work in limited-access fields. Ring-handle design ensures stable grip during extended use.
London‑College forceps with grooved and serrated tips provide dual‑texture gripping surfaces for maximum retention of calculus, dentin fragments, and restorative materials during intraoral procedures. The lock mechanism stabilizes the grasp without continuous muscular input, improving ergonomics during prolonged restorative or periodontal work. This 152mm instrument is indispensable for secure handling in the challenging wet environment of the oral cavity.
London‑College forceps with grooved tips deliver secure, tactile feedback during extraction and manipulation of dental structures. The grooved surface pattern grips calculus, fragments, and fine dental materials without slipping, improving procedural control in the tight oral cavity. Designed for endodontic and general restorative procedures, this 152mm instrument maintains precision during delicate periapical and periodontal work.
London‑College forceps with a locking mechanism and grooved tips enhance security during sustained grasping of dental materials and tissue in the periodontal and endodontic fields. The lock maintains jaw position without muscular effort, reducing hand fatigue during root canal preparation and extraction. Grooved surfaces ensure reliable purchase on wet or calcified deposits along the gingiva and alveolar bone.
The Love nerve retractor delivers precise 45‑degree angled blade retraction for spinal and neural structure visualization. Its 7mm width and shallow 5mm depth minimize trauma to adjacent soft tissue while providing controlled nerve protection. The 216mm length accommodates standard handheld spinal exposure.
This Love nerve retractor features a 7 × 5mm angled blade at 90 degrees, designed for spinal procedures requiring precise nerve root and soft-tissue retraction. The angled blade architecture improves approach angles beneath bone overhangs and in confined spaces. Its 216mm overall length provides adequate reach for spinal exposures.
This Luer S-retractor is a double-ended instrument offering 6mm and 15mm blade options in a single tool. The straight 146mm shaft supports bilateral retraction in moderate-depth surgical fields, while the alternating blade widths address variable tissue thickness. Stainless-steel construction provides reliable performance.
Designed specifically for uterine closure, this size 1 Martins uterine needle combines a half‑circle profile with a cutting edge. The cutting geometry enables penetration through dense myometrial and fascial layers during cesarean delivery or hysterectomy repair. Compact size 1 scale permits precise placement in tight uterine spaces.
Addressing broader uterine closure needs, this size 2 Martins needle combines the half‑circle profile with a cutting edge appropriate for thicker myometrial tissue. The cutting design handles the density of uterine muscle and visceral peritoneum during cesarean repair. Disposable delivery supports sterile field integrity in obstetric procedures.
Supporting intermediate uterine closure demands, this size 3 Martins needle offers a half‑circle profile and cutting edge suited to moderately dense myometrial tissue. The cutting geometry penetrates reliably without excessive tissue trauma. Disposable single‑use format preserves needle sharpness and sterility throughout closure sequences.
This size 4 Martins uterine needle is engineered for heavier myometrial and fascial closure in cesarean or hysterectomy procedures. The half‑circle profile combined with a cutting edge addresses the density and toughness of uterine tissue. Disposable format ensures reliable performance across the range of obstetric closure scenarios.
Supporting the most demanding uterine closure scenarios, this size 6 Martins needle balances the robust gauge required for thick myometrial tissue with the cutting‑edge geometry that penetrates tissue reliably. The half‑circle profile maintains the anatomically appropriate angle for obstetric closure. Disposable single‑use format supports case‑to‑case standardization.
The largest size 8 Martins uterine needle is designed for the most challenging myometrial and fascial reconstruction in obstetric and gynecologic surgery. The robust gauge resists bending during passage through thick, scarred, or edematous tissue. The cutting edge combined with the half‑circle profile delivers reliable penetration and consistent closure geometry.
This Mayo catgut needle combines a half‑circle configuration with a tapered point, making it suitable for softer tissue planes and visceral closure. The tapered geometry distributes pressure gradually across tissue, reducing trauma to bowel serosa or mesentery. Disposable delivery supports standardized catgut suture techniques in gastrointestinal work.
The Mayo catgut suture needle combines a trocar point with a half-circle arc, designed for controlled penetration through tough fascial layers during abdominal closure. The trocar tip creates a self-guiding puncture path that reduces splitting of absorbable suture materials. Twelve per package supports efficient case setup with minimal waste.
Mayo dissecting scissors with tungsten carbide (TC) construction feature curved blades with thin beveled edges for fine dissection across general surgical procedures. The tungsten carbide edges maintain superior sharpness and edge retention through repeated sterilization cycles. At 171mm, the length and curved profile support precise control in confined operative fields.
Mayo dissecting scissors in tungsten carbide provide reliable performance for general tissue separation across varied surgical applications. The straight blade and compact 140mm profile allow controlled cutting with good visibility. Carbide edge durability ensures lasting sharpness through routine reprocessing.
Straight Mayo dissecting scissors with tungsten‑carbide cutting inserts at 171mm handle heavier tissue and suture cutting during general surgery. The TC inserts preserve edge sharpness across high‑volume use, and the straight profile delivers in‑line cuts through dense tissue planes.
This extended‑length Mayo‑Harrington scissors provides superior reach for major abdominal and thoracic surgical procedures. At 280mm, it bridges the gap between standard scissors and long retractors, delivering reliable straight‑blade cutting leverage deep within operative fields. The ring‑handle design supports two‑handed control of this substantial instrument.
The Mayo‑Hegar bulldog needle holder in the short broad pattern carries a 14 × 4mm jaw with an integrated wire twister on a 178mm frame, combining suture needle holding with sternal and orthopedic wire manipulation. The broad jaw suits heavier needles encountered in cardiothoracic and orthopedic cases.
Extended 14-inch Mayo-Hegar needle holder in stainless steel provides maximum reach for suturing in deep abdominal, pelvic, or thoracic fields where standard length proves limiting. The straight geometry and long shaft support controlled needle manipulation at depth. Stainless steel construction ensures durability across routine reprocessing.
This straight Mayo‑Hegar needle holder provides reliable performance across general surgical closures. The 203mm length offers extended reach while maintaining balanced spring tension. Its proven design supports consistent needle manipulation from skin through deep fascial layers.
The Mayo‑Hegar needle holder combines a serrated jaw surface with balanced spring action and 203mm extended length for reliable needle grasp during open surgical closure and fascial approximation. The versatile geometry suits general, abdominal, and trauma surgical applications. Stainless steel construction ensures durability.
Extended‑length tungsten carbide Mayo‑Hegar needle holder combines a locking jaw mechanism with exceptional edge hardness for sustained suturing across lengthy closures. Tungsten carbide jaws resist dulling and maintain reliable needle purchase through multiple sutures. Extended 305mm shaft supports reach to deeper or distant wound edges.
The Mayo-Hegar needle holder features tungsten-carbide jaws that maintain precise needle grip through hundreds of surgical cases without dulling. The straight 152mm design provides optimal control and visibility during general and vascular suturing. Carbide construction combines reliable edge retention with corrosion resistance over extended clinical use.