A radio-frequency parameter configuration method, apparatus, and system, and a computer-readable storage medium are provided. The method includes acquiring radio-frequency operation data of multiple historical radio-frequency tasks; analyzing the radio-frequency operation data, to obtain and store respective radio-frequency parameter configuration schemes corresponding to various types of ablation objects in a preset database; acquiring, in response to a triggered parameter configuration instruction, a target type of a target operation object indicated by the parameter configuration instruction; and querying the database according to the target type, to obtain a target parameter configuration scheme, and configuring the radio-frequency parameter of a target radio-frequency operation system indicated by the parameter configuration instruction. By the present disclosure, automatic configuration of parameters for a radio-frequency operation system based on big data is realized, with simplified parameter configuration operation, saved configuration time, and improved configuration efficiency.

A surgical generator providing a high-frequency alternating voltage to a surgical instrument. It includes a control unit and a user interface connected thereto. The control unit is configured for controlling the surgical generator based on a set of functions. A signaling interface is provided for optical signaling in a bidirectional manner to and from the remote control. The signaling interface configures the control unit and/or the surgical generator dependent on communication from the remote control. Thereby the surgical generator can be re-configured by limiting certain functions for different fields of application by the remote control. Optical signaling avoids risks of radio transmission. It is an efficient short range communication usable within same room only, providing safety against external access. Thus, re-configuration can be accomplished in a safe and cost-effective manner.

An irreversible electroporation (IRE) method includes receiving a total number of IRE pulses to be applied by one or more electrodes of a catheter placed in proximity to a tissue in an organ. An IRE protocol is defined by defining a partitioning of the total number of the IRE pulses into multiple pulse trains separated by pauses, the partitioning defined so as to reduce a total duration of the IRE protocol while meeting a safety criterion. The IRE protocol is applied to the tissue using the electrodes.

A method for applying cold atmospheric plasma treatment on target tissue. The method comprises the steps of selecting through a graphical user interface on a display a particular cancer cell line associated with the target tissue, retrieving in response to the selecting, with a computing device connected to the display, settings data from a database of cell line data and associated settings data in a storage, applying, with the computing device, the retrieved settings data to a cold atmospheric plasma system, and treating cancer tissue with cold atmospheric plasma at the retrieved settings. The method may further comprise displaying the retrieved settings on a display.

Ablation systems of the present disclosure facilitate the safe formation of wide and deep lesions. For example, ablation systems of the present disclosure can allow for the flow of irrigation fluid and blood through an expandable ablation electrode, resulting in efficient and effective cooling of the ablation electrode as the ablation electrode delivers energy at a treatment site of the patient. Additionally, or alternatively, ablation systems of the present disclosure can include a deformable ablation electrode and a plurality of sensors that, in cooperation, sense the deformation of the ablation electrode, to provide a robust indication of the extent and direction of contact between the ablation electrode and tissue at a treatment site.

A multi-pole synchronous pulmonary artery radiofrequency ablation catheter may comprise a control handle, a catheter body and an annular ring. One end of the catheter body may be flexible, and the flexible end of the catheter body may be connected to the annular ring. The other end of the catheter body may be connected to the control handle. A shape memory wire may be arranged in the annular ring. One end of the shape memory wire may extend to an end of the annular ring and the other end of the shape memory wire may pass through a root of the annular ring and be fixed on the flexible end of the catheter body. The annular ring may be provided with an electrode group. The device possesses advantages of simple operation, short operation time and controllable precise ablation. The device can be used to treat pulmonary hypertension or heart failure with pulmonary denervation.

A method and system for automated and semi-automated predictable, consistent, safe, effective, and lumen-specific and patient-specific cryospray treatment of airway tissue in which treatment duration is automatically set by the system following entry of patient information and treatment location information into the system by the user, and treatment spray is automatically stopped by the system when the automatically selected treatment duration has been achieved as determined by the system.

An electrosurgical device may include a controller including an electrical generator, a surgical probe having a distal active electrode in electrical communication with an electrical source terminal of the electrical generator, and a return pad in electrical communication with an electrical return terminal of the electrical generator. The electrical generator may be configured to source an electrical current from the electrical source terminal, in which the electrical current combines characteristics of a therapeutic electrical signal and characteristics of an excitable tissue stimulating signal. The device may be configured to determine a distance from the electrode to an excitable tissue, based at least in part on an output signal generated by a sensing device in the pad. The device may also be configured to alter one or more characteristics of the therapeutic signal when the distance from the electrode to the tissue is less than a predetermined value.

Devices, systems, and methods of the present disclosure can overcome physical constraints associated with catheter introduction to facilitate the use of a catheter with a large distal portion as part of a medical procedure benefiting from such a large distal portion, such as, for example, cardiac ablation. More specifically, devices, systems, and methods of the present disclosure can compress an expandable tip of a catheter from an expanded state to a compressed state along a tapered surface of an insertion sleeve for advancement of the expandable tip into vasculature of a patient. The tapered surface of the insertion sleeve can, for example, apply compressive forces at an angle against the advancing expandable tip. As compared to other approaches to the application of compressive force to an expandable tip, compressing the expandable tip using an angled force can reduce the likelihood of unintended deformation of the expandable tip.

A surgical instrument is disclosed. The surgical instrument includes a shaft, a sensing array and a fluid detection circuit. The sensing array is positioned within the shaft. The fluid detection circuit is electrically coupled to the sensing array, and is configured to determine when a fluid originating from an environment external to the shaft is present within the shaft.