Blood pump with flow cannula

The invention claimed is: 1. A flow cannula for a blood pump for supporting a patient's heart, the flow cannula comprising: a distal end of the flow cannula; a proximal end of the flow cannula opposite the distal end of the flow cannula along a longitudinal axis of the flow cannula, the distal end of the flow cannula configured to be connected to a patient's heart or a blood vessel in order to establish a fluid communication between the blood pump and the patient's heart or between the blood pump and the blood vessel, respectively; a distal portion of the flow cannula including the distal end of the flow cannula; a proximal portion of the flow cannula including the proximal end of the flow cannula; and an intermediate portion attached to either the distal portion of the flow cannula or the distal portion of the flow cannula and the proximal portion of the flow cannula, wherein the intermediate portion allows twisting thereof with a lower force than at least one of the distal portion of the flow cannula and the proximal portion of the flow cannula, wherein the intermediate portion is configured to be fully occluded by twisting thereof when the intermediate portion is attached to the distal portion of the flow cannula and the proximal portion of the flow cannula, and wherein at least a portion of the intermediate portion, alone or in combination with the distal portion of the flow cannula, is configured to be permanently attached to the patient's heart or the blood vessel. 2. The flow cannula of claim 1 , wherein the intermediate portion has a distal end and a proximal end, the distal end of the intermediate portion being attached to the distal portion of the flow cannula and the proximal end of the intermediate portion being attached to the proximal portion of the flow cannula. 3. The flow cannula of claim 1 , wherein the intermediate portion is attached to the distal portion of the flow cannula and the proximal portion of the flow cannula in a fluid tight manner in order to conduct a blood flow between the distal portion of the flow cannula and the proximal portion of the flow cannula. 4. The flow cannula of claim 1 , wherein the intermediate portion is attached to the distal portion of the flow cannula and the proximal portion of the flow cannula such that the intermediate portion at least partially overlaps either the distal portion of the flow cannula or the distal portion of the flow cannula and the proximal portion of the flow cannula. 5. The flow cannula of claim 1 , wherein the distal portion of the flow cannula and the proximal portion of the flow cannula are releasably connected to each other. 6. The flow cannula of claim 5 , wherein the intermediate portion is axially gathered when the distal portion of the flow cannula and the proximal portion of the flow cannula are connected to each other. 7. The flow cannula of claim 1 , wherein the intermediate portion comprises an attachment member at a distal end of the intermediate portion, the attachment member configured to be attached to the patient's heart, wherein a proximal end of the intermediate portion is attached to the proximal portion of the flow cannula. 8. The flow cannula of claim 1 , wherein the intermediate portion is attached to the distal portion of the flow cannula and the proximal portion of the flow cannula such that the distal portion of the flow cannula and the proximal portion of the flow cannula are axially spaced from each other and the intermediate portion is disposed between the distal portion of the flow cannula and the proximal portion of the flow cannula. 9. The flow cannula of claim 1 , wherein the intermediate portion is a flexible tubular member. 10. The flow cannula of claim 1 , wherein the intermediate portion is stretchable in a direction of the longitudinal axis of the flow cannula. 11. The flow cannula of claim 1 , wherein the intermediate portion has a wall thickness of about 5 μm to about 1,000 μm. 12. The flow cannula of claim 1 , wherein the intermediate portion comprises a tubular polymer film configured to induce tissue ingrowth into the tubular polymer film. 13. A blood pump for supporting a patient's heart, the blood pump comprising: a pump casing including at least a first inlet and a first outlet; an impeller disposed in the pump casing, the impeller configured to draw blood into the pump casing; an outflow cannula having a proximal end and a distal end, the proximal end of the outflow cannula coupled to the pump casing at the first outlet, the distal end of the outflow cannula configured to be attached to a patient's aorta; and an inflow cannula coupled to the pump casing at the first inlet, the inflow cannula comprising: a distal end of the inflow cannula; a proximal end of the inflow cannula opposite the distal end of the inflow cannula along a longitudinal axis of the inflow cannula, the distal end of the inflow cannula configured to be connected to a patient's heart or a blood vessel in order to establish a fluid communication between the blood pump or between the blood pump and the patient's heart and the blood vessel, respectively; a distal portion of the inflow cannula including the distal end of the inflow cannula; a proximal portion of the inflow cannula including the proximal end of the inflow cannula; and an intermediate portion attached to either the distal portion of the inflow cannula or the distal portion of the inflow cannula and the proximal portion of the inflow cannula, wherein the intermediate portion allows twisting thereof with a lower force than at least one of the distal portion of the inflow cannula and the proximal portion of the inflow cannula, wherein the intermediate portion is configured to be fully occluded by twisting thereof when the intermediate portion is attached to the distal portion of the inflow cannula and the proximal portion of the inflow cannula, and wherein at least a portion of the intermediate portion, alone or in combination with the distal portion of the inflow cannula, is configured to be permanently attached to the patient's heart or the blood vessel. 14. The blood pump of claim 13 , wherein the blood pump is sized and configured to be placed in a thoracic cavity of the patient. 15. The flow cannula of claim 4 , wherein the intermediate portion at least partially overlaps each of the distal portion of the flow cannula and the proximal portion of the flow cannula. 16. The flow cannula of claim 7 , wherein the distal portion of the flow cannula and the proximal portion of the flow cannula are integrally formed. 17. The flow cannula of claim 11 , wherein the intermediate portion has a wall thickness of less than about 150 μm. 18. The flow cannula of claim 11 , wherein the intermediate portion has a wall thickness of less than about 50 μm. 19. The flow cannula of claim 11 , wherein the intermediate portion has a wall thickness of about 30 μm. 20. The flow cannula of claim 12 , wherein the tubular polymer film comprises polyethylene terephthalate. 21. The flow cannula of claim 1 , wherein the intermediate portion comprises a polymer tube configured to induce tissue ingrowth into the polymer tube. 22. The flow cannula of claim 21 , the polymer tube comprising one of silicone or polyurethane. 23. A system comprising: a flow cannula, wherein the flow cannula is the flow cannula of claim 18 ; and a blood pump, the blood pump comprising: a pump casing including at least a first inlet and a first outle