The Endostat III Electrosurgical Generator is a self-timing energy system that is designed to limit the depth of burn penetration.

Two Bipolar Modes: Continuous or variable time, designed to vary the duration of energy delivery. The monopolar capabilities of the Endostat III generator are intended to provide physicians the ability to perform certain therapeutic procedures using standard monopolar devices such as polypectomy snares, sphincterotomes, and hot biopsy forceps.

The Endostat III
features a new safety standard that utilizes two separate warning systems intended to help identify the cause of a problem and prevent surgical error. The “pad fault” warning system is designed to detect a poor connection between the generator and the pad or between the pad and the patient. In the event of a fault, the RF power is designed to be inhibited until the connection is corrected.

• A self-limiting energy system that is designed to limit the depth of burn penetration.
• A variable speed peristaltic pump intended to provide precisely controlled irrigation.
• Two bipolar modes: CONTINUOUS or VARIABLE TIME, are designed to vary the duration of energy delivery.
• The monopolar capabilities of the Endostat III Generator are intended to provide physicians the ability to perform certain therapeutic procedures using standard monopolar devices such as polypectomy snares, sphincterotomes, and hot biopsy forceps.
• A choice of four individual RF waveforms: COAG, BLEND, CONTROL CUT, or CUT.
• Receptacles that accept widely used monopolar active cords and disposable dispersive electrodes (patient plates, or grounding pads).
• CONTROL CUT mode is designed to allow the operator to cut in increments by cycling the output power off and on at a predetermined rate
• Pad contact monitoring circuit is intended to provide enhanced procedural safety by monitoring contact between the patient and the pad
• Dual capability design is engineered to permit monopolar or bipolar energy
• Integrated variable-speed E-Z Load peristaltic pump is designed to produce irrigation flow to assist in clearing bleeding sites