Controller for flexible tissue ablation procedures
First Claim
1. An electrosurgical system comprising:
- an electrosurgical generator configured to supply radiofrequency (RF) energy, the generator being further configured to operate in a first operational mode and at least one other operational mode;
at least two electrodes configured to apply RF energy to tissue;
at least one return electrode configured to return the RF energy to the electrosurgical generator; and
a controller configured to selectively control the flow of the RF energy returning to the electrosurgical generator and the application of the RF energy to each of the at least two electrodes, the controller comprising a plurality of switching components configured to selectively switch the flow of the RF energy between each of the at least two electrodes and between the return electrode and at least one of the at least two electrodes based on the operational mode of the electrosurgical generator.
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Accused Products
Abstract
An electrosurgical system including a generator configured to supply radiofrequency (RF) energy is disclosed. The system includes at least two electrodes configured to apply RF energy to tissue and at least one return electrode for returning the RF energy to the generator. The generator may operate in a first operational mode and at least one other operational mode. The system includes a controller configured to control the application of RF energy to each of the two or more electrodes and the return of RF energy to the generator. The controller includes a plurality of switching components configured to selectively switch the flow of the RF energy between the two or more electrodes and between the return electrode and at least one of the two or more electrodes based on the operational mode of the generator.
168 Citations
20 Claims
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1. An electrosurgical system comprising:
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an electrosurgical generator configured to supply radiofrequency (RF) energy, the generator being further configured to operate in a first operational mode and at least one other operational mode; at least two electrodes configured to apply RF energy to tissue; at least one return electrode configured to return the RF energy to the electrosurgical generator; and a controller configured to selectively control the flow of the RF energy returning to the electrosurgical generator and the application of the RF energy to each of the at least two electrodes, the controller comprising a plurality of switching components configured to selectively switch the flow of the RF energy between each of the at least two electrodes and between the return electrode and at least one of the at least two electrodes based on the operational mode of the electrosurgical generator. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A system for heat ablation of tissue in a patient comprising:
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an electrosurgical generator configured to supply radiofrequency (RF) energy in a first operational mode configured for monopolar heat ablation and a second operational mode configured for bipolar heat ablation; at least two electrodes configured to apply RF energy to the tissue; at least one return electrode configured to return the RF energy to the electrosurgical generator during the first operational mode; and a controller configured to selectively control the flow of the RF energy returning to the electrosurgical generator and the application of the RF energy to each of the at least two electrodes, the controller comprising a plurality of switching components configured to selectively switch the flow of RF energy between each of the at least two electrodes and between the return electrode and the at least one of the at least two electrodes based on the operational mode of the electrosurgical generator. - View Dependent Claims (10, 11, 12, 13, 14, 15)
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16. A method for controlling a generator for an electrosurgical system comprising the steps of:
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providing at least two electrodes for insertion into tissue of a patient; generating radiofrequency (RF) energy for application to each of the at least two electrodes during a first operational mode and at least one other operational mode; placing at least one return electrode in contact with the patient, the return electrode being configured to return the RF energy to the generator; and selectively controlling the application of RF energy to each of the at least two electrodes and the return of said RF energy to the generator utilizing a plurality of switching components, wherein each of the plurality of switching components is configured to selectively switch the flow of RF energy between each of the at least two electrodes and between the return electrode and at least one of the at least two electrodes based on the operational mode of the system. - View Dependent Claims (17, 18, 19, 20)
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Specification