A cautery pen tip accessory cover comprises a cylindrical member that can receive a cautery pen in a first end and the tip of the cautery pen can extend from a second opposite end when the cover is in a retracted configuration. The cylindrical member has an opened lateral exposure that allows the feel of the cautery pen therethrough. A cover exposure opening in the cylindrical member to provide access to a trigger of the cautery pen when the cautery pen tip cover is in the retracted configuration. The cylindrical member is easily retracted, allowing easy retraction of the cover by the operator squeezing the cover to a resistance bar stabilization system accessory configured over the cautery pen. The cover can include a suction device that removes blood and debris as well as the smoke plume to exist in a single instrument.

A system for imaging and treating tissue can include or use an imaging sensor adapted to receive imaging information from a location internal to a human or animal subject, a tissue therapy output for applying a tissue therapy to tissue at the location internal to the subject, and controller circuitry, comprising signal-processing circuitry configured for image-processing the imaging information to determine a structure or other characteristic at or near the location internal to the subject, and to tailor a parameter or algorithm, controlling the tissue therapy output, at least in part based on the imaging information.

System and methods for enhancement of nonthermal electroporation using thermal ablation include a system having a catheter for providing concomitant thermal energy and electroporation and a controller for controlling the concomitant delivery of the thermal energy and electroporation. The method includes controlled application of thermal energy in conjunction with electroporation to increase a region of irreversible electroporation.

A microsurgical probe employs an optional probe support structure; an optical fiber for providing a feed path for an emission wavelength; a chemical feed path for delivering a chemical; a resonator motor; and a probe accessory tool. A microsurgical system additionally employs a sensor and an artificial intelligence (AI) system to assess conditions based on data provided by the sensor. The system can be employed to remove tumor tissue that is interwoven with healthy tissue. This system can also be employed to fertilize old, inflexible ova.

An ablation system includes a retractable sheath including a lumen; a first electrode in the lumen; a pre-bent telescopic tube extendable from the lumen and including a second electrode, wherein the first electrode and the second electrode are configured to deliver an electric field energy to target tissue in a patient.

A method, consisting of providing a metal wire having a wire diameter and an end, and positioning a conductor at a distance from the end of the wire. The method further includes creating an electrical discharge between the conductor and the end, while setting the distance and an electrical potential of the discharge, so as to create a bead of a predefined size on the end. The method also includes assembling the wire with the created bead into an invasive probe, so that the bead is positioned at an outer surface of the probe.

A catheter has a distal assembly with at least one loop with ring electrodes. A single continuous puller wire for bidirectional deflection is pre-bent into two long portions and a U-shape bend therebetween. The U-shape bend is anchored at a distal end of a deflectable section which is reinforced by at least one washer having at least two holes, each hole axially aligned with a respective lumen in the deflectable section. Each hole is centered with a lumen so that each puller wire portion therethrough is straight and subjected to tensile force only. A proximal end of the support member is flattened and serrated to provide a better bonding to the distal end of the deflectable section.

A method, consisting of providing a metal wire having a wire diameter and an end, and positioning a conductor at a distance from the end of the wire. The method further includes creating an electrical discharge between the conductor and the end, while setting the distance and an electrical potential of the discharge, so as to create a bead of a predefined size on the end. The method also includes assembling the wire with the created bead into an invasive probe, so that the bead is positioned at an outer surface of the probe.

Systems, methods, and catheters for endovascular treatment of a blood vessel are disclosed. In one aspect, a catheter for endovascular treatment of a blood vessel. The catheter comprises a housing. The catheter further comprises a treatment portion. The catheter further comprises a fistula forming element. And the catheter further comprises an intravascular ultrasound imaging device.

The present invention relates to a conductive electrode for a monopolar handpiece used for an electrosurgical handpiece and particularly to a conductive electrode for an electrosurgical handpiece, which causes almost no tissue carbonization and does not generate smog.