CERAMIC BLADE
Electrosurgical Scalpel
The ceramic blade is made up of a fine tungsten filament integrated into a non-conductive ceramic core. This blade incorporates Peripheral Plasma Blade Technology, a unique geometrical blade design that creates a high current density spark plasma at very low power settings on the very edge of the blade, resulting in a fast and clean tissue dissection whilst minimising thermal injury to the surrounding tissue.
At a glance
With low power energy it creates a very high-power density in the blade filament allowing fast, precise and safe dissection.
Able to provide a significant reduction in operative time in relevant procedures.
Less collateral tissue injury and associated complications will enhance the overall surgical outcome.
CERAMIC BLADE
Electrosurgical Scalpel
The ceramic blade is made up of a fine tungsten filament integrated into a non-conductive ceramic core. This blade incorporates Peripheral Plasma Blade Technology, a unique geometrical blade design that creates a high current density spark plasma at very low power settings on the very edge of the blade, resulting in a fast and clean tissue dissection whilst minimising thermal injury to the surrounding tissue.
At a glance
With low power energy it creates a very high-power density in the blade filament allowing fast, precise and safe dissection.
Able to provide a significant reduction in operative time in relevant procedures.
Less collateral tissue injury and associated complications will enhance the overall surgical outcome.
Overview
The Ceramic blade offers a remarkable combination of quick, precise and coagulative cutting, making it the perfect tool for modern plastic & cosmetic surgery procedures.
When used in reduction mammoplasty and mastectomy, it effortlessly cuts through dense breast tissue. In abdominoplasty, allows for rapid elevation of the abdominal flap reducing seroma formation and enhancing the overall surgical outcome.
Features
Efficient
The tungsten filament and the non-conductive ceramic core make it possible to achieve anextremely high-power density using low power settings, increasing the dissection efficiency whilst reducing thermal tissue injury and complications associated.
Faster
Focused blade geometry enables fast, precise and coagulative dissection of adipose tissue, providing for a significant reduction in operative time in relevant procedures.
Aesthetic
The minimal thermal spread produced by the Ceramic blade reduces the incidence of collateral tissue injury and associated complications enhancing the overall surgical outcome.
Comparison of adipose tissue dissection made with a Ceramic Blade and a NonStick Blade
Demonstration of skin opening with Ceramic Blade
Ceramic Blade used in a giant breast reduction
Ceramic Blade used in a abdominoplasty
Related Products
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