- Condition: Factory New
- Warranty: Lifetime
-
Learn more:
- MFR: Sklar Ships from Manufacturer
- MPN: 60-7426
- Phone: (610) 756-7863
Frequently asked questions
Is this instrument made of high-grade materials?
Yes, the Sklar Turner-Warwick Abdominal Blade is constructed from high-quality stainless steel, specifically engineered to withstand the rigorous demands of frequent surgical use and repeated sterilization cycles.
Can this blade be used in government facilities?
Absolutely. This instrument is TAA (Trade Agreements Act) compliant, making it an appropriate choice for government and institutional procurement where strict regulatory standards are required.
Is it safe for individuals with latex sensitivities?
Yes, the product is 100% free of natural rubber latex, ensuring a safer environment for both clinical staff and patients who may have latex allergies.
How is the blade's shape optimized for surgery?
The instrument features a specialized curved profile. This geometric design is specifically tailored to provide optimal retraction and exposure during complex abdominal operative procedures.
Does this tool support facility-specific sterilization?
Yes. The instrument is delivered non-sterile, which allows surgical facilities to integrate it directly into their own validated sterilization protocols and infection control workflows.
Is this designed for long-term clinical use?
Yes, it is built for durability and repeated use. As a reusable surgical instrument, it is designed to maintain its structural integrity over time, supported by the manufacturer’s commitment to quality.
Does it meet professional surgical standards?
The blade is manufactured by Sklar, a brand known for meeting high-grade surgical requirements. It is a factory-new, precision-engineered instrument designed for reliable performance in professional clinical settings.
What is the expected maintenance requirement?
Because it is a reusable stainless steel instrument, it requires standard clinical sterilization procedures after every use. It is designed to be highly resistant to the wear typically associated with these processes.