A medical device that includes an array of ultrasound elements and an integrated circuit, proximal to the ultrasound elements, having a thickness of less than 40 m, and having an array of ultrasound element driving-and-receiving contacts, matching the array of ultrasound elements and collectively electrically connected to each of the ultrasound elements. The integrated circuit also having a set of input-output signal contacts, the set being collectively switchable into contact with any one of a set of predefined blocks of driving-and-receiving contacts, and a set of control contacts, wherein inputs received by the control contacts collectively command some aspect of chip operation. The medical device further includes a set a protective covering.

Systems and methods for removing plaque from blood vessels by applying constant or time varying magnetic or electrical fields. In one embodiment a system includes winding configurations positioned about a central axis along which a body region may be placed. Each winding configuration generates a magnetic field in a direction which passes through the body region. A first winding configuration generates a first magnetic field component perpendicular to a second magnetic field component generated by a second winding configuration. In a related method for removing a deposit of plaque from a position along a wall of a blood vessel a magnetic field is applied which has a net direction predominantly orthogonal to the direction of the flow of blood through the vessel.

This disclosure discusses various methods and devices for capturing plaque that is to be removed from a blood vessel after the plaque has been separated from the blood vessel or remaining plaque.

This document describes methods and materials for treating ventricular fibrillation. For example, this document describes methods and devices for delivering pulse-electric field electroporation for ablation in a selective and non-thermal means that has high specificity for tissue destruction while minimizing collateral damage. In one aspect, this document is directed to a catheter device that includes: a catheter shaft; a balloon member attached at a distal end portion of the catheter shaft; one or more electrodes on an outer surface of the balloon or in an interior of the balloon member and configured to deliver pulsed-electric field non-thermal electroporation ablation energy to treat ventricular fibrillation of a heart; and a control system configured to adjust a pressure within the balloon member.

A neuromodulation catheter includes an elongate shaft and a neuromodulation element. The shaft includes two or more first cut shapes and two or more second cut shapes along a helical path extending around a longitudinal axis of the shaft. The first cut shapes are configured to at least partially resist deformation in response to longitudinal compression and tension on the shaft and torsion on the shaft in a first circumferential direction. The second cut shapes are configured to at least partially resist deformation in response to longitudinal compression on the shaft and torsion on the shaft in both first and second opposite circumferential directions.

A medical device that includes an array of ultrasound elements and an integrated circuit, proximal to the ultrasound elements, having a thickness of less than 40 m, and having an array of ultrasound element driving-and-receiving contacts, matching the array of ultrasound elements and collectively electrically connected to each of the ultrasound elements. The integrated circuit also having a set of input-output signal contacts, the set being collectively switchable into contact with any one of a set of predefined blocks of driving-and-receiving contacts, and a set of control contacts, wherein inputs received by the control contacts collectively command some aspect of chip operation. The medical device further includes a set a protective covering.

The present disclosure relates generally to devices, methods and systems for laser generators, and more specifically, to laser generators having an optical assembly, which allows fiber optic catheters to couple to laser generators while delivering laser beams.

A medical device that includes an array of ultrasound elements and an integrated circuit, proximal to the ultrasound elements, having a thickness of less than 40 m, and having an array of ultrasound element driving-and-receiving contacts, matching the array of ultrasound elements and collectively electrically connected to each of the ultrasound elements. The integrated circuit also having a set of input-output signal contacts, the set being collectively switchable into contact with any one of a set of predefined blocks of driving-and-receiving contacts, and a set of control contacts, wherein inputs received by the control contacts collectively command some aspect of chip operation. The medical device further includes a set a protective covering.

A catheter having a distal assembly with multiple spines with proximal ends affixed to the catheter and free distal ends. The spines have different lengths so distal ends of the spines trace different circumferences along an inner tissue surface of a tubular region to minimize risk of vein stenosis. The spine lengths can be configured so that the distal ends trace a helical pattern. The distal assembly may have a plunger which deflects the spines when moved longitudinally relative to the distal assembly. The catheter may include a second distal assembly distal of a first distal assembly wherein the first and second distal assemblies are separated by a fixed distanced or an adjustable distance.

Systems and methods for creating an arteriovenous (AV) fistula comprise an elongate member, a distal member connected to the elongate member and movable relative to the elongate member, and a heating member disposed on at least one of the movable distal member and the elongate member. The distal member comprises structure for capturing tissue to be cut to create the fistula, and the heating member is adapted to cut through the tissue to create the fistula. The elongate member comprises an elongate outer tube. A shaft connects the distal member to the elongate member, and is extendable and retractable to extend and retract the distal member relative to the elongate member.