A method of operating a modular surgical system including a control module, a first surgical module, and a second surgical module is disclosed. The method includes detachably connecting the first surgical module to the control module by stacking the first surgical module with the control module in a stack configuration, detachably connecting the second surgical module to the first surgical module by stacking the second surgical module with the control module and the first surgical module in the stack configuration, powering up the modular surgical system, and monitoring distribution of power from a power supply of the control module to the first surgical module and the second surgical module.

Described herein is a system including a catheter, an optical circuit, a pulsed field ablation energy source, and a processing device. The catheter includes a proximal section, a distal section, and a shaft coupled between the proximal section and the distal section. The optical circuit is configured to transport light at least partially from the proximal section to the distal section and back. The pulsed field ablation energy source is coupled to the catheter and configured to transmit pulsed electrical signals to a tissue sample. The processing device is configured to analyze one or more optical signals received from the optical circuit to determine changes in polarization or phase retardation of light reflected or scattered by the tissue sample, and determine changes in a birefringence of the tissue sample based on the changes in polarization or phase retardation.

An improved multifunction cable for use in an operating room avoids the usual tangle of wires and tubes can be a significant hazard. The cable comes pre-sterilized with a number of wires and tubes pre-installed in a protective housing making it easy to conduct myriad wires and tubes from one region of the operating room to another without any possibility of tangling or violation of sterility. At the sterile end of the cable a special terminus acts as a holder to keep the various operating instrument organized. The terminus is designed to accept a special smoke evacuating monopolar electrosurgery instrument.

An electrosurgical apparatus is provided including a connector, a flexible shaft, and a distal tip. The connector may further be coupled to an electrosurgical generator and gas supply. The distal tip of the electrosurgical apparatus may be grasped by a grasping tool, such that the orientation and position of the distal tip relative to the shaft may be manipulated to achieve a plurality of positions. The electrosurgical apparatus provides electrosurgical energy and inert gas to an electrode within the distal tip of the electrosurgical apparatus to generate a plasma beam. In one aspect, the distal tip is configured as a sheath that is extendable and retractable over the electrode to expose the electrode when the sheath is in a first position and conceal or cover the electrode when the sheath is in a second position.

This application provides an endoscopic device having at least one shaft with at least one portion deflectable, and having at least one deflection mechanism, which is configured to deflect the deflectable portion and includes at least one first connection member and at least one second connection member. When the connection members are arranged in a straight position relative to each other, a straight-position spacing exists defined by a shortest connection between a geometric midpoint of the first connection member and a geometric midpoint of the second connection member and, when the connection members are arranged in a deflection position relative to each other, a deflection-position spacing exists which is defined by a shortest connection between a geometric midpoint of the first connection member and a geometric midpoint of the second connection member, and the deflection-position spacing in the deflection position is greater than the straight-position spacing in the straight position.

A treatment device equipped with high frequency capability includes a pair of clasping jaws that serves as bipolar electrodes. Another treatment device equipped with high frequency capability includes a high-frequency knife that serves as monopolar electrode. An anti-fouling coating that minimizes or prevents adhesion of cauterized tissues is incorporated on the electrode surfaces. Durability and functioning of the anti-fouling coating is improved by one or a combination of increased coating thickness, increased density of the coating, and incorporation of glass and/or high molecular weight PFPE into the coating. The anti-fouling coating can be applied to different locations of the treatment portion, e.g., an insulated portion and a recess of an electrode, an insulated portion and a boundary portion with an electrode.

A configurable electrosurgical generator front panel. The configurable electrosurgical generator front panel has a front panel frame, a display screen or tablet computing device, and a plurality of connectors for connecting accessories to the front panel frame. The front panel in the front panel assembly provides a novel structure for inserting a screen or tablet device into the front panel frame and securing it in place.

An end effector of an electrosurgical device may include a first body, a first electrode on the left side of the first body, and a second electrode on the right side of the first body. The first and second electrodes may be configured to receive electrosurgical energy to treat tissue in a target treatment zone. The end effector may also include a fluid aspiration port in fluid communication with a fluid path. The fluid aspiration port may be configured to remove a material from the target treatment zone.

Planar end effector designs having irrigation are presented. The example end effectors are configured to be affixed to a distal end of a catheter and delivered through vasculature in a collapsed configuration and expand at an intracardiac treatment site to a deployed configuration. In some instances, the end effector can have an electrode array with sufficient density to perform mapping and irrigation for mapping. The end effector can include dedicated irrigation tubes and/or irrigating electrode-carrying spines to irrigate within the electrode array. Flow rate at positions within the electrode array can be controlled in a predetermined manner by varying pore/port size, flow direction, and/or flow path cross-section throughout an irrigation flow path in the end effector.

A medical punching/cauterizing device includes a handle having a body, a cap detachably coupled to a front portion of the body, a connection terminal coupled to the body and electrically connected to a power supply means, a conductor provided in the front portion of the body and having one end electrically connected to the connection terminal, and a guide wire provided on a front portion of the handle and having one end electrically connected to the conductor.