Medical implant

What is claimed is: 1. A medical implant comprising an implantable stimulation electrode having a tight substrate and a porous contact region, wherein the implant comprises a sintered body with graduated porosity; wherein the implant is produced through co-sintering a first sinter fraction and a second sinter fraction in a sinter mold; and whereby the first and second sinter fractions consist of powders or slurries with sinter particles of a conductive material that differ in the average particle size and/or composition of the material with respect to the melting point. 2. The medical implant according to claim 1 , wherein the sinter particles of the first and second sinter fractions comprising Pt, PtIr, TaNbW, Pd, PdIr, Au, Ti, Nb, TiNb or alloys thereof. 3. The medical implant according to claim 1 , wherein the average particles sizes of the particles of the first and second sinter fractions are in the range between 1 μm and 50 μm. 4. A lead of a cardiac pacemaker having an implantable stimulation electrode according to claim 1 , whereby the lead contacts the substrate of the stimulation electrode through being coiled around it and/or through welding or solder spots. 5. A medical implant comprising an implantable stimulation electrode having a tight substrate and a porous contact region, wherein the implant comprises a sintered body with graduated porosity; wherein the implant is produced through co-sintering a first sinter fraction and a second sinter fraction in a sinter mold; and wherein the average particle sizes of the first sinter fraction and second sinter fraction differ by a factor of more than 1.5. 6. A medical implant comprising an implantable stimulation electrode having a tight substrate and a porous contact region, wherein the implant comprises a sintered body with graduated porosity; wherein the implant is produced through co-sintering a first sinter fraction and a second sinter fraction in a sinter mold; and wherein the average particle sizes of the first sinter fraction and second sinter fraction differ by a factor of between 2 and 10 or between 5 and 8. 7. A medical implant comprising an implantable stimulation electrode having a tight substrate and a porous contact region, wherein the implant comprises a sintered body with graduated porosity; wherein the implant is produced through co-sintering a first sinter fraction and a second sinter fraction in a sinter mold; and wherein the melting points of the material employed in the first sinter fraction and of the material employed in the second sinter fraction differ by more than 10° C., or by more than 30° C. 8. An implantable stimulation electrode with graduated porosity comprising: a tight substrate; and a porous contact region; wherein the porous contact region derives from a first sinter fraction and the tight substrate derives from a second sinter fraction; and wherein the melting points of the material employed in the first sinter fraction and of the material employed in the second sinter fraction differ by more than 30° C. 9. The medical implant according to claim 8 , wherein the average particle sizes of the first sinter fraction and second sinter fraction differ by a factor of more than 1.5. 10. The medical implant according to claim 8 , wherein the average particle sizes of the first sinter fraction and second sinter fraction differ by a factor of between 2 and 10 or between 5 and 8. 11. The medical implant according to claim 8 , wherein the average particles sizes of the particles of the first and second sinter fractions are in the range between 1 μm and 50 μm. 12. An implantable stimulation electrode comprising: a substrate; and a head; wherein the head and substrate together form a mushroom-like structure where the head is wider than the substrate thereby defining a neck therebetween; wherein the substrate and at least a portion of the head comprises a first conductive material that substantially fills around the neck; wherein at least a portion the head comprises a second conductive material that is different that the first conductive material; and wherein the average particle size and/or composition of the first conductive material is different than the second conductive material. 13. The implantable stimulation electrode of claim 12 , wherein the melting points of the first conductive material and of the second conductive material differ by more than 30° C. 14. The implantable stimulation electrode of claim 12 , wherein the average particle sizes of the first conductive material and second conductive material differ by a factor of more than 1.5. 15. The medical implant of claim 12 , wherein the average particle sizes of the first conductive material and second conductive material differ by a factor of between 2 and 10 or between 5 and 8. 16. The medical implant of claim 12 , wherein the average particles sizes of the particles of the conductive materials are in the range between 1 μm and 50 μm. 17. A pre-sintered implantable stimulation electrode comprising: a first sinter fraction comprising a head and a second sinter fraction comprising a substrate; wherein the first and second sinter fractions consist of powders or slurries with sinter particles of a conductive material that differ in the average particle size and/or composition of the material with respect to the melting points. 18. The electrode according to claim 17 , wherein the melting points of the material employed in the first sinter fraction and of the material employed in the second sinter fraction differ by more than 30° C. 19. The electrode according to claim 17 , wherein the average particle sizes of the first sinter fraction and second sinter fraction differ by a factor of more than 1.5.