Short DescriptionThe Argon Beam Coagulation Probe PA-05-360-L is a reusable electrosurgical instrument for non-contact hemostasis in open surgical procedures. It uses a directed flow of ionized argon gas to conduct high-frequency electrical current, enabling rapid, uniform coagulation across broad surfaces without direct tissue contact. Designed for repeated sterilization, it supports clinical efficiency and cost-effectiveness in hospital settings.
Features & Clinical Benefits- Non-Contact Coagulation: Provides effective hemostasis without tip-tissue contact, reducing tissue adherence and the risk of re-bleeding from eschar disruption.
- Enhanced Visualization: Continuous argon flow helps clear surgical smoke and fluids from the field, preserving visibility for the surgeon.
- Minimized Tissue Damage: Argon-assisted cooling produces a shallower, controlled depth of necrosis and limits lateral thermal spread versus conventional electrosurgery.
- Rapid Bleeding Control: Effective for diffuse capillary bleeding and highly vascular organs, improving operative efficiency.
- Optimized for Open Surgery: Available in straight and angled (e.g., 45°) configurations for ergonomic access to varied anatomical sites during open procedures.
- Reusable & Sterilizable: Constructed from durable materials compatible with standard hospital sterilization protocols (e.g., autoclave) for safe repeated use.
Technical Specifications / Caractéristiques- Model identifier: PA-05-360-L
- Product type: Reusable Argon Beam Coagulation (ABC) probe for open procedures
- Operating principle: Directed flow of ionized argon gas conducting high-frequency electrical current for non-contact coagulation
- Intended use: Hemostasis and coagulation over large surface areas in open surgical procedures
- Design options: Straight and angled variants (example: 45°) for ergonomic access
- Materials & reprocessing: High-quality, durable materials compatible with standard hospital sterilization (e.g., autoclave)
- Clinical benefits: Reduced tissue adherence, improved visualization, minimized thermal spread, rapid control of diffuse bleeding