Abstract: A stent manufacturing device and methods for making intravascular stents and other medical devices. The stent manufacturing device may include a base, a laser or other cutting device coupled to the base, a horizontal motor coupled to the base, and a rotary motor coupled to the horizontal motor. A workpiece can be attached to the cutting device, for example adjacent the rotary motor, and the workpiece can be cut with the cutting device.

Abstract: Medical devices and methods for making and using the same. An example method for manufacturing a medical device may include providing a metallic tubular member, cutting a plurality of slots in the tubular member, and chemically treating at least a portion of the tubular member to remove material from the tubular member and define a treated portion. The tubular member may include an outer diameter and an inner diameter. The slots may have a slot width. The treated portion may have one or more of a decreased outer diameter, an increased inner diameter, or an increased slot width in at least some of the slots.

Abstract: A dynamic bushing and/or gripper mechanism comprises an apparatus for retaining a tubular member in a position during processing so that the tube does not move transverse to the longitudinal axis of the bushing, but wherein the tube may be rotated within the confines of the bushing and/or in the case of the gripper mechanism the tube may be moved longitudinally within the confines of the gripper.

Abstract: A stent assembly has a first stent body and a second stent body. The first stent body defines a first lumen having a first longitudinal axis therethrough, and the second stent body defines a second lumen having a second longitudinal axis therethrough. An end of the second stent body is hingedly engaged to a portion of the first stent body, and the first lumen and the second lumen are in fluid communication with one another. The stent assembly has a undeployed and a deployed state. In the undeployed state the first longitudinal axis and the second longitudinal axis are substantially parallel to one another and the second lumen is positioned entirely within the first lumen. In the deployed state the second longitudinal axis forms an oblique angle with the first longitudinal axis.

Abstract: A stent and a method of making a stent from a tubular member. The stent includes a pattern and an opening cut into the wall of the stent and extending from the first end to the second end. One or more connectors may be cut in the tubular wall and extend into the opening cut in the tubular member. The connectors may aid in subsequent expansion and/or forming of the stent.

Abstract: A stent manufacturing device and methods for making intravascular stents and other medical devices. The stent manufacturing device may include a base, a laser or other cutting device coupled to the base, a horizontal motor coupled to the base, and a rotary motor coupled to the horizontal motor. A workpiece can be attached to the cutting device, for example adjacent the rotary motor, and the workpiece can be cut with the cutting device.

Abstract: A system and method for processing a tubular member comprises a hollow tubular member, a laser and a media flow. The laser is constructed and arranged to transmit laser energy to the tubular member. The laser energy is transmitted to the tubular member through a fluid column according to a predetermined pattern. The media flow is injected into the lumen of the hollow tubular member.

Abstract: A dynamic bushing and/or gripper mechanism comprises an apparatus for retaining a tubular member in a position during processing so that the tube does not move transverse to the longitudinal axis of the bushing, but wherein the tube may be rotated within the confines of the bushing and/or in the case of the gripper mechanism the tube may be moved longitudinally within the confines of the gripper.

Abstract: A system for processing a work piece comprises a laser jet mechanism having a laser and a fluid source. The laser is constructed and arranged to transmit laser energy to the work piece and the fluid source is constructed and arranged to direct a fluid stream to the work piece. The laser energy is transmitted to the work piece through the fluid stream. The fluid stream comprises at least one processing solution selected from the group consisting of: at least one etchant, at least one abrasive, at least one polish, at least one cleaner, at least one detergent and any combination thereof. The fluid stream optionally comprises water.