Centrifugal blood pump with hydrodynamic bearing

The invention claimed is: 1. A centrifugal blood pump without a mechanical bearing, comprising: a pump casing with a central axis, a blood flow inlet disposed on the central axis and a blood flow outlet disposed on a circumference of the pump casing, an impeller arranged in the pump casing so as to be rotatable about said central axis and freely moveable axially and radially within a limited axial clearance and limited radial clearance, the impeller being provided with permanent magnets or permanently magnetized magnetic regions and further with radially extending blades defining passages therebetween for radial blood flow, and an electromagnetic drive adapted to cooperate with the permanent magnets or the permanently magnetized magnetic regions of the impeller so as to set the impeller rotating about said central axis, wherein said radial clearance is 100 μm or less so as to form a hydrodynamic radial bearing for the impeller and said radial clearance is defined by an outer circumference of the impeller and an inner surface of a continuous wall that is arranged in a circle about said central axis within the pump casing, wherein said wall has a plurality of circumferentially spaced through openings for blood to flow from the impeller towards the blood flow outlet. 2. The centrifugal blood pump according to claim 1 , wherein the radial clearance comprises a plurality of radially converging clearance sections, as seen in a direction of rotation of the impeller. 3. The centrifugal blood pump according to claim 1 , wherein the electromagnetic drive comprises a plurality of coils without a ferromagnetic core, the coils being arranged in a plane axially spaced from the impeller. 4. The centrifugal blood pump according to claim 1 , wherein the electromagnetic drive comprises a plurality of coils arranged in a plane axially spaced from the impeller on both sides of the impeller. 5. The centrifugal blood pump according to claim 3 , wherein the coils are potted in a polymer matrix. 6. The centrifugal blood pump according to claim 3 , wherein the coils are directly or indirectly mounted on a ceramic plate so as to form an integral component therewith, the ceramic plate limiting said axial clearance. 7. The centrifugal blood pump according to claim 1 , wherein the radial clearance is 50 μm or less. 8. The centrifugal blood pump according to claim 1 , wherein the impeller comprises a first disc and a second disc which are axially spaced apart, each disc having magnetic regions and a central opening arranged for axial blood flow through the first and second discs, the blades of the impeller being arranged between the discs. 9. The centrifugal blood pump according to claim 8 , wherein the blades are integrally connected by at least one circular rim axially extending from an axial side or both axial sides of the blades and surrounding an outer circumference of at least one or both of said first and second discs, said circular rim forming a part or all of said outer circumference of the impeller. 10. The centrifugal blood pump according to claim 8 , wherein at least one or both of said first and second discs have a circular outer circumference which forms a part or all of said outer circumference of the impeller. 11. The centrifugal blood pump according to claim 8 , wherein surfaces of the first and second discs which axially face away from each other are planar and are each axially spaced from an adjacent planar wall so as to allow blood to flow between the planar disc surfaces and the adjacent planar walls. 12. The centrifugal blood pump according to claim 8 , wherein surfaces of the first and second discs which axially face away from each other are each axially spaced from an adjacent wall provided by or arranged in the pump casing so as to allow blood to flow between the disc surfaces and the adjacent walls, whereby one or both of the disc surfaces and/or one or both of the adjacent walls provide ramps extending about the central axis in a circumferential direction so as to create a hydrodynamic axial force lifting the impeller from the respective adjacent wall upon rotation of the impeller. 13. The centrifugal blood pump according to claim 1 , wherein the impeller comprises a disc with a central opening arranged for axial blood flow through the disc and wherein the blades of the impeller extend axially from both axial sides of the disc and are formed as magnets or have magnetic regions. 14. The centrifugal blood pump according to claim 13 , wherein all distances between two adjacent through openings are smaller than all distances between adjacent radially outer ends of the impeller blades. 15. The centrifugal blood pump according to claim 13 , wherein the disc has a circular radially outer surface and wherein said wall extends radially inward so as to form together with the circular radially outer surface of the disc said hydrodynamic radial bearing. 16. The centrifugal blood pump according to claim 13 , wherein the impeller blades have upper and lower surfaces axially spaced from adjacent walls provided by or arranged in the pump casing so as to allow blood to flow between said upper and lower surfaces and the adjacent walls, either or both of said upper and lower surfaces providing a plurality of ramps extending about the central axis in a circumferential direction so as to create a hydrodynamic axial force lifting the impeller from the respective adjacent wall upon rotation of the impeller. 17. The centrifugal blood pump according to claim 16 , wherein the plurality of ramps of one or more of the upper and lower surfaces of the impeller blades is formed by a curved or tapered leading edge of the blades, as seen in the direction of rotation of the impeller. 18. The centrifugal blood pump according to claim 13 , wherein the disc has a plurality of circularly arranged axial through openings and wherein the blades are inserted through the circularly arranged through openings so as to extend from one axial side of the disc to the other axial side thereof. 19. The centrifugal blood pump according to claim 18 , wherein the disc comprises or is entirely made up of a polymer material. 20. The centrifugal blood pump according to claim 13 , wherein the disc and the blades are composed of two semi-shells within which the magnets or magnetic regions are housed. 21. The centrifugal blood pump according to claim 1 , wherein the blades of the impeller are formed together as an integral injection moulded piece. 22. The centrifugal blood pump according to claim 13 , wherein both the disc and the blades are made of magnetized ferromagnetic material. 23. The centrifugal blood pump according to claim 13 , wherein the disc and the blades are formed as an integral piece of ferromagnetic material, said piece, including the disc, being magnetized. 24. The centrifugal blood pump according to claim 1 , wherein the radial dimension of at least one or all of the impeller blades increases circumferentially, radially outer surfaces of these blades forming part or all of said outer circumference of the impeller. 25. The centrifugal blood pump according to claim 1 , wherein the blades of the impeller have a leading surface, as seen in the direction of rotation of the impeller, which is convex with respect to its radial extension. 26. The centrifugal blood pump according to claim 1 , wherein the blades of the impeller have an axially extending leadin