Blood pumps

The invention claimed is: 1. An apparatus for use with a venous system of a subject that includes one or more tributary vessels that flow into a vein at junctions between the vein and the one or more tributary vessels, the apparatus comprising: a blood-pump-catheter comprising: a material configured to be placed at a downstream location that is downstream of the junctions and to at least partially occlude blood flow through the vein at the downstream location, the material defining a blood-outlet opening; a blood pump that comprises an impeller that is disposed within a frame, the impeller being configured to pump blood from a region of the vein that is adjacent to the junctions, and through the blood-outlet opening defined by the material, by the impeller rotating within the frame; a blood-flow pathway that passes between (a) a pathway-inlet opening disposed at an upstream location that is upstream of the junctions and (b) a pathway-outlet opening that opens to a downstream side of the material, the blood-flow pathway being configured to direct upstream venous blood flow from the upstream location to downstream of the material, without the upstream venous blood flow being pumped by the pump. 2. The apparatus according to claim 1 , wherein the blood pump comprises an elongate blood-pump tube, the elongate blood-pump tube defining a blood-inlet area which is disposed within an upstream portion of the elongate blood-pump tube, a blood-outlet area that is that is disposed within a downstream portion of the elongate blood-pump tube, and wherein the impeller is configured to pump blood into the blood-inlet area, through the elongate blood-pump tube, and out of the blood-outlet area. 3. The apparatus according to claim 1 , wherein the blood-pump catheter is configured for use with one or more lymphatic vessels that flow into a vein, and wherein the blood-pump catheter is configured to be placed within the vein, such that: the material is placed at a downstream location that is downstream of junctions of the vein with the one or more lymphatic vessels and such as to at least partially occlude blood flow through the vein at the downstream location, the impeller is configured to pump blood from a region of the vein that is adjacent to the junctions of the vein with the one or more lymphatic vessels, and through the blood-outlet opening defined by the material, and the blood-flow pathway passes between (a) the pathway-inlet opening, the pathway-inlet opening being disposed at an upstream location that is upstream of the region of the vein that is adjacent to the junctions of the vein and the one or more lymphatic vessels and (b) the pathway-outlet opening, the pathway-outlet opening opening to the downstream side of the material, the blood-flow pathway being configured to direct upstream venous blood flow from the upstream location to the downstream side of the material, without the upstream venous blood flow being pumped by the impeller. 4. The apparatus according to claim 1 , wherein the blood-pump catheter is configured to be placed within a vena cava of the subject, such that: the material is placed at a downstream location that is downstream of junctions of the vena cava with one or more renal veins of the subject and such as to at least partially occlude blood flow through the vena cava at the downstream location, the impeller is configured to pump blood from a region of the vena cava that is adjacent to the junctions of the vena cava with the one or more renal veins through the blood-outlet opening defined by the material, and the blood-flow pathway passes between (a) the pathway-inlet opening, the pathway-inlet opening being disposed at an upstream location that is upstream of junctions of the vena cava and the one or more renal veins and (b) the pathway-outlet opening, the pathway-outlet opening opening to the downstream side of the material, the blood-flow pathway being configured to direct blood flow from an infrarenal vena-caval bloodstream to downstream of the material, without the infrarenal vena-caval bloodstream being pumped by the impeller. 5. The apparatus according to claim 4 , further comprising a percutaneous left-ventricular assist device configured to assist with left-ventricular functioning of the subject. 6. The apparatus according to claim 4 , wherein the blood pump comprises an elongate blood-pump tube, the elongate blood-pump tube defining a blood-inlet area which is disposed within an upstream portion of the elongate blood-pump tube, a blood-outlet area that is that is disposed within a downstream portion of the elongate blood-pump tube, and wherein the impeller is configured to pump blood into the blood-inlet area, through the elongate blood-pump tube, and out of the blood-outlet area. 7. The apparatus according to claim 6 , wherein the elongate blood-pump tube is configured to be disposed such that the blood-outlet area is disposed within a pulmonary artery of the subject and the impeller is configured to pump blood into the subject's pulmonary artery via the elongate tube. 8. The apparatus according to claim 6 , further comprising an elongate tube that extends downstream from the material and that defines suprarenal blood-inlet openings that are configured to be disposed within a suprarenal vena cava of the subject, wherein the blood-inlet area of the elongate blood-pump tube is configured to be disposed downstream of the suprarenal blood-inlet openings and the impeller is configured to pump blood from a suprarenal vena-caval bloodstream into the subject's pulmonary artery. 9. The apparatus according to claim 4 , further comprising an elongate tube that is configured to extend into a pulmonary artery of the subject, wherein the blood pump is configured to pump blood into the subject's pulmonary artery via the elongate tube. 10. The apparatus according to claim 9 , wherein the elongate tube defines suprarenal blood-inlet openings that are configured to be disposed within a suprarenal vena cava of the subject, wherein the impeller is configured to be disposed downstream of the suprarenal blood-inlet openings and is configured to pump blood from a suprarenal vena-caval bloodstream into the subject's pulmonary artery. 11. The apparatus according to claim 4 , wherein diameters of one or more portions of the blood-flow pathway are modulable, such that flow from the infrarenal vena-caval bloodstream to a right atrium of the subject is modulable. 12. The apparatus according to claim 11 , further comprising a blood pressure sensor configured to detect blood pressure of the subject, and a computer processor configured to receive the subject's blood pressure and to automatically modulate the diameters of the one or more portions of the blood-flow pathway, in response to the detected blood pressure. 13. The apparatus according to claim 11 , wherein the diameters of the one or more portions of the blood-flow pathway are configured to be modulated in response to an input. 14. The apparatus according to claim 1 , wherein the blood-flow pathway comprises a funnel having a wide end and a narrow end, and one or more tubes, wherein the wide end of the funnel defines the pathway-inlet opening, and the narrow end of the funnel passes into the one or more tubes. 15. The apparatus according to claim 14 , wherein the funnel and the one or more tubes comprise a single continuous blood-flow pathway. 16. The apparatus according to claim 1 , wherein diameters of one or more portions of the blood-flow pathway are modulable, such that flow through the blood-flow pathway is modulable.