Abstract: A drain catheter comprises a proximal drain tube having a proximal end adapted to outlet drained liquids and a distal end. A tube interface is at a distal end of the proximal drain tube, the tube interface having at least two canals open to a distal end of the proximal drain tube, the at least two canals being in fluid communication with the proximal drain tube. Two or more distal drain tubes each having a proximal end and a distal end, the proximal end of each said distal drain tube being connected to a corresponding one of the canals such that the distal drain tubes are each in fluid communication with the corresponding one of the canals, the distal end of each said distal drain tube being open to collect liquids, a lumen of the distal drain tubes being smaller than a lumen of the proximal drain tube.

Abstract: A drain catheter comprises a proximal drain tube having a proximal end adapted to outlet drained liquids and a distal end. A tube interface is at a distal end of the proximal drain tube, the tube interface having at least two canals open to a distal end of the proximal drain tube, the at least two canals being in fluid communication with the proximal drain tube. Two or more distal drain tubes each having a proximal end and a distal end, the proximal end of each said distal drain tube being connected to a corresponding one of the canals such that the distal drain tubes are each in fluid communication with the corresponding one of the canals, the distal end of each said distal drain tube being open to collect liquids, a lumen of the distal drain tubes being smaller than a lumen of the proximal drain tube.

Abstract: The blood pump comprises a stationary housing structure and a rotative impeller mounted within the stationary housing structure and defining with the stationary housing structure passages through which blood pumped by the rotative impeller flows through the pump. An inflow bearing comprises an inflow frusto-conical face of the rotative impeller and an inflow frusto-conical bushing of the stationary housing structure having an inner face. Similarly, an outflow bearing comprises an outflow frusto-conical face of the rotative impeller and an outflow frusto-conical bushing of the stationary housing structure having an inner face. The inner face of both the inflow and outflow frusto-conical bushings (a) comprises at least the axial grooves evenly spread out around a longitudinal axis of the blood pump, and (b) successively defines a taper and a land in the direction of rotation of the rotative impeller between each pair of successive grooves.

Abstract: The blood pump comprises a stationary housing structure and a rotative impeller. The stationary housing structure has a proximal end provided with an inlet, a distal end provided with an outlet, and an impeller housing. The rotative impeller is mounted within the stationary housing structure to circulate blood in a blood flow direction generally extending from the proximal end to the distal end. The rotative impeller also includes an impeller blade structure mounted in the impeller housing, and having a first annular face tapered in a direction opposite the blood flow direction and a second annular face downstream from the first annular face and tapered in the direction of the blood flow.

Abstract: The blood pump comprises a stationary housing structure, a rotative impeller, a first inlet and a second inlet. The stationary housing structure has a proximal end and a distal end, and is substantially symmetrical about a longitudinal axis. The rotative impeller is mounted within the stationary housing structure to circulate blood in a blood flow direction extending from the proximal end to the distal end. The first inlet is provided near the proximal end, and leads to a first passage. The second inlet leads to a second passage defining an acute angle with the longitudinal axis. The first and second passages join into a common passage between the second inlet and the rotative impeller.

Abstract: A mixed-flow blood pump presents features of both axial-flow and radial-flow pumps. This mixed-flow blood pump comprises a stationary housing structure defining at least one blood inlet, a blood outlet, and a blood conduit between the at least one blood inlet and the blood outlet, and a rotative impeller mounted in the blood conduit. The at least one blood inlet, the blood outlet, the blood conduit and the rotative impeller have respective structures and configurations that operate the mixed-flow blood pump at a given point of a maximum hydraulic efficiency curve relating a specific pump rotational speed and a specific pump diameter. This given point is located within a transition region of the maximum hydraulic efficiency curve between axial-flow and radial-flow pumps.

Abstract: A self converging, widescreen color picture tube system includes a widescreen, in-line color picture tube having a funnel, an electron gun assembly (28) for three in-line electron beams located in a neck at one end of the picture tube, and a faceplate with a viewing screen at the other end. The picture tube has a wide aspect ratio. A self converging widescreen deflection yoke (40) for deflecting the electron beams in the wide aspect ratio picture tube includes horizontal and vertical deflection windings. The yoke (40) is located by an initial flare section of the funnel and positioned along the longitudinal axis of the picture tube to make the tube reference line and the yoke deflection plane substantially coincident. To achieve substantial horizontal astigmatism correction at the extremes of the major axis of the wide viewing screen, the horizontal deflection winding is constructed to have a generally pincushion-shaped horizontal deflection field over the effective length of the field.