A rotational intravascular ultrasound probe for insertion into a vasculature and a method of manufacturing the same. The rotational intravascular ultrasound probe comprises an elongate catheter having a flexible body and an elongate transducer shaft disposed within the flexible body. The transducer shaft comprises a proximal end portion, a distal end portion, a drive shaft extending from the proximal end portion to the distal end portion, an ultrasonic transducer disposed near the distal end portion for obtaining a circumferential image through rotation, and a transducer housing molded to the drive shaft and the ultrasonic transducer.

One aspect is a method of manufacturing a lead connector for an implantable medical device. The method includes connecting proximal ends of a plurality of conductive pins to a corresponding one of a plurality of ring contacts to form a plurality of ring-pin subassemblies, assembling each of the plurality of ring-pin subassemblies on an assembly frame, including inserting the plurality of conductive pins in a corresponding plurality of openings within the assembly frame such that the corresponding plurality of ring contacts are spaced along a longitudinal dimension of the assembly frame, arranging the assembly frame along with the conductive pins and corresponding ring contacts within a mold cavity, filling the mold cavity with a mold material that surrounds the assembly frame, and removing a resulting lead connector from the mold cavity.

An alignment tool to be used in a method for the manufacture of an electrode catheter assembly includes an alignment handle, a grooved longitudinal axis which is opposed to the alignment handle and which includes a channel or groove in the radial direction, wherein the grooved longitudinal axis has alignment grooves and alignment surfaces to precisely allow alignment and separation of electrode rings; two arms or tines formed by the channel or groove, wherein the arms or tines are compressible in radial direction to the grooved longitudinal axis; a removable proximal shoulder ring, wherein the proximal shoulder ring has a shoulder surface and an internal opening, wherein the internal opening allows the shoulder proximal ring to slide on or off the grooved longitudinal axis, a control surface, and a distal shoulder surface.

A method for producing a surface heater for heating a sub-region of a vehicle includes a first step, a second step, a third step, and a fourth step. The first step includes arranging heating wires on a film and either: i) the film is subsequently formed to a predefined shape, or ii) providing a film which has been formed to a predefined shape. The second step includes inserting the formed film into an injection-molding tool. The heating wires point either toward the wall or into the hollow space of the injection-molding tool. The third step includes overmolding with a predefined material. The fourth step includes applying a transparent lacquer layer to the finished injection-molded part.

A process for producing molded products having portions formed with two separate materials is provided. The process involves forming a first component over a structural core in a first step, and forming a second component that is secured to the first component and the core in a second step. The second component can be formed directly over the first component or can be secured thereto after formation. The first and second components can additionally be formed with indicia thereon, or with recesses within which inserts containing the desired indicia can be positioned. Additionally, the first component can be formed with a ridge disposed on a projection formed on the first component that effectively seals off a portion of the first component when the second component is formed around the core and the first component to ensure the portion of the first component surrounded by the ridge remains visible after formation of the second component.

A plug connector for a cable includes a housing having at least one opening and at least one cavity, wherein the cable is insertable into the at least one cavity through the at least one opening. At least one undercut is formed on a circumference of the at least one cavity. A secondary lock is releasably engageable with at least one the undercut. The cable is fastenable in the housing by the secondary lock. The secondary lock comprises a main body which is formed in one piece with a seal such that the housing is sealable by the secondary lock in a watertight manner.

A wiring harness (1010), a motor vehicle component (1000), a mold (15) for manufacturing a wiring harness (1010), a mold system (10) and a method for manufacturing the wiring harness (1010), the wiring harness (1010) comprising at least one bunch (1020) of at least two cables (1025) and a sheath (1030), at least some sections of the bunch (1020) of cables being embedded in the sheath (1030).

A method is disclosed for manufacturing a fiber-reinforced implant structure. A fiber-reinforced rigid insert is provided, comprising continuous fibers impregnated with a first thermoplastic polymer. A molding cycle is performed by overmolding. The insert is placed into a mold cavity; and a second thermoplastic polymer in melted form is injection or compression molded into the mold cavity. The insert is thus at least partly covered by the second thermoplastic polymer. The second thermoplastic polymer injection or compression in the mold cavity is cooled, thereby obtaining a molded fiber-reinforced implant structure containing the at least partly covered insert. The insert is in a predefined location in the mold cavity during said injection or compression molding and during said cooling. The first thermoplastic polymer and the second thermoplastic polymer are the same or different. Also disclosed is an implant structure, and an implant comprising said implant structure.

A method of constructing a catheter assembly having an integrated septum. The method comprising molding a catheter hub having a distal end, a proximal end, and an internal wall defining an internal fluid passageway therebetween, the internal fluid wall defining an injection mold window located between the distal end and the proximal end; seating a catheter tube within the internal fluid passageway of the catheter hub, such that a proximal end of the catheter tube resides within the internal fluid passageway of the catheter hub, and a distal end of the catheter tube extends distally from the distal end of the catheter hub; plugging at least a proximal end of the catheter hub with a mold core shut off pin; and injection molding a septum in at least a portion of the internal fluid passageway between the mold core shut off pin and the proximal end of the catheter tube through the injection mold window.

A method for manufacturing an object having a polymer part, including inserting a core through a movable element via a hole passing through the movable element, inserting the polymer part in a mould, inside which the movable element is arranged, so that the polymer part is in contact with the movable element on a first side of the movable element, displacing the movable element in the mould by exerting a force, originating from the polymer part, on the movable element in such a way that the movable element slides along the core, the movable element constraining, at an entrance of the hole on the first side, at each instant and as the movable element is displaced, the position of the portion of the core in the course of being covered with polymer at this instant.