Push device for the axial insertion of an elongate, flexible body

The invention claimed is: 1. A push device system for axial insertion of a blood pump into a sheath, the push device system comprising: a compressible and self-expandable pump head configured to expand in a heart chamber, a sheath having proximal-most and distal-most ends and an axis, with an inner lumen configured to receive the pump head through the proximal-most end of the sheath, a holding element having proximal and distal regions, a flange at the distal region of the holding element, a distal-most end of the flange comprising a distal surface that abuts a proximal surface of the proximal-most end of the sheath to couple the holding element directly to the proximal-most end of the sheath; and, wherein the holding element is configured to allow the pump head to withstand an axial push force without buckling. 2. The push device system according to claim 1 , wherein the holding element is connected to the sheath by a central thread, a bayonet closure, by way of a fit surface by way of adhesion forces, by way of a magnetic device, by way of an eccentric screw connection, by way of a gluing connection, a cone connection, a snap connection, an electrostatic connection, by way of elastic holding elements or by way of inserting a fit piece of the sheath into a fittingly shaped recess of the holding element. 3. The push device system according to claim 1 , wherein a guide device is coupled to the sheath and the guide device is configured to radially support the pump head, wherein the holding element is either arranged in a stationary manner relative to the guide device or is guided on a predefined movement path. 4. The push device system of claim 1 , further comprising a drive shaft contained within a catheter. 5. The push device system of claim 1 , wherein the holding element is configured to apply the axial push force on the catheter. 6. The push device system of claim 1 , wherein the pump head is configured to be compressed within the holding element and within the sheath. 7. The push device system of claim 1 , wherein the holding element is configured to couple to the drive shaft and apply the axial push force on the drive shaft. 8. The push device system of claim 1 , wherein the holding element is configured to limit radial deflections of the sheath by minimizing a distance between (i) where the axial push force is applied onto the pump head and (ii) the proximal-most end of the sheath. 9. The push device system according to claim 1 , wherein a rotor is configured to rotate about a longitudinal axis. 10. The push device system of claim 9 , wherein the rotor is configured to rotate at a high rotation speed to deliver blood out of a heart and into a blood vessel. 11. The push device system of claim 1 , wherein the proximal surface of the proximal-most end of the sheath is oriented at a first non-zero angle relative to the axis of the sheath, and the distal surface of the distal-most end of the flange is oriented at a second non-zero angle relative to the axis of the sheath. 12. The push device system of claim 11 , wherein the first non-zero angle and the second non-zero angle are both about 90 degrees. 13. The push device system according to claim 1 , wherein a speed of advance of the pump head is controlled. 14. The push device system according to claim 13 , wherein the axial push force and a push movement is controlled in dependence on a push resistance of the pump head. 15. The push device system of claim 13 , wherein the speed of advance of the pump head is controlled in order to prevent the pump head from buckling due to the axial push force. 16. The push device system according to claim 3 , wherein the holding element comprises a radial clamping device which by way of pressing a clamping tool onto the pump head in the radial direction, produces an adhesion to the pump head, which serves for applying a push force or holding force in an axial direction of the pump head. 17. The push device system according to claim 16 , wherein the clamping tool is configured to roll on the pump head. 18. The push device system according to claim 17 , wherein the clamping tool comprises at least two friction wheels, and the at least two friction wheels at least partly lie opposite one another with respect to the pump head. 19. The push device system according to claim 18 , wherein the at least two friction wheels are controllable with regard to their rotation.