Implantable infusion devices and methods

The invention claimed is: 1. An infusion device implantable in a patient's body, the infusion device comprising: a body implantable in the patient's body and having an outer wall, an infusion needle disposed within the body of the infusion device and having a tip end, and a drive unit coupled to the infusion needle which advances and retracts the tip end of the infusion needle to penetrate any fibrosis surrounding the infusion device, when the infusion device is implanted in the patient's body, said infusion needle and drive unit being implantable in the patient's body, the drive unit being operable when implanted in the patient's body, wherein the infusion needle is disposed within the body of the infusion device with the tip end of the infusion needle being arranged for penetrating a penetration area in the outer wall, the penetration area of the outer wall being made from a material which is self-sealing in respect of penetrations caused by the infusion needle, and wherein the drive unit further comprises an apparatus coupled to the infusion needle that laterally moves the tip end of the infusion needle within the body of the infusion device for variation of the injection site in the penetration area of the outer wall. 2. The infusion device of claim 1 , wherein the self-sealing material forms at least one window area in the outer wall, said window area being positioned for penetration by the tip end of the infusion needle. 3. The infusion device of claim 2 , wherein the window area is formed by a penetration membrane integrated in the outer wall by being sealingly press fitted into the outer wall. 4. The infusion device of claim 2 , wherein the self-sealing material is made from at least one of: a polymer material, a polymer selected from the group of materials comprising silicon and polyurethane, and a composite material. 5. The infusion device of claim 4 , wherein the composite material comprises at least one outer shape-giving layer an a self-sealing soft material contained within the outer layer. 6. The infusion device of claim 5 , wherein the self-sealing soft material is a gel. 7. The infusion device of claim 1 , wherein the infusion needle is disposed within a body of the device with the tip end of the infusion needle arranged for passing through an outer wall of said body and the drive unit is entirely disposed within the body of the device. 8. The infusion device of claim 1 , wherein the drive unit comprises at least one of: a movable carriage on which the infusion needle is mounted for lateral displacement of the tip end of the infusion needle, a movable carriage comprising a shuttle on which the infusion needle is mounted for lateral displacement of the tip end of the infusion needle, and a movable carriage comprising a shuttle in form of a slide on which the infusion needle is mounted for lateral displacement of the tip end of the infusion needle. 9. The infusion device of claim 8 , wherein the movable carriage comprises a turntable. 10. The infusion device of claim 1 , wherein the infusion needle has a tube-like body closed at the tip end and having a laterally arranged delivery exit port. 11. The infusion device of claim 1 , wherein a reservoir is coupled to the infusion needle. 12. The infusion device of claim 11 , wherein at least a section of a periphery of the reservoir is made from a flexible material permitting volume changes of the reservoir by deformation of the flexible material as infusion liquid is filled into or drawn out of the reservoir. 13. The infusion device of claim 11 , wherein the flexible material comprises a polymer membrane. 14. The infusion device of claim 11 , wherein drawing of liquid from the reservoir causes a negative pressure in at least part of the reservoir. 15. The infusion device of any of claim 14 , wherein the reservoir comprises a gas chamber and a liquid chamber, said chambers being separated by the polymer membrane. 16. The infusion device of claim 11 , wherein the reservoir has an injection port for refilling the reservoir. 17. The infusion device of claim 16 , wherein the injection port comprises a material which is self-sealing in respect of penetrations caused by a replenishing needle. 18. The infusion device of claim 11 , wherein the infusion needle is disposed within a body of the device with the tip end of the infusion needle arranged for passing through an outer wall of said body and the reservoir is separate from the body of the device for remote implantation within a patient's body. 19. The infusion device of claim 11 , wherein the infusion needle is disposed within a body of the device with the tip end of the infusion needle arranged for passing through an outer wall of said body and the reservoir is part of or is contained within the body of the device. 20. The infusion device of claim 19 , wherein at least a section of a periphery of the reservoir at least partially constitutes the outer wall of the body of the device. 21. The infusion device of claim 11 , wherein a pump is coupled to the reservoir for pumping infusion liquid from the reservoir to the infusion needle. 22. The infusion device of claim 21 , wherein the pump comprises a valve device having a first and a second valve member, each of said first and second valve members having a smooth surface facing each other so as to form a sealing contact between the first and second valve members and further having different liquid channels that can be brought into alignment by displacement of the two smooth surfaces relative to one another while maintaining the sealing contact. 23. The infusion device of claim 22 , wherein the first and second valve members are made from a ceramic material. 24. The infusion device of claim 21 , wherein the pump is a membrane type pump. 25. The infusion device of claim 24 , wherein the membrane type pump comprises a membrane displaceable by a piston as the piston moves, the piston being coupled to the valve device so as to slidably displace the first and second valve members relative to one another as the piston moves. 26. The infusion device of claim 21 , wherein the infusion needle is disposed within a body of the device with the tip end of the infusion needle arranged for passing through an outer wall of said body and the pump is contained in the body of the device or separate from the body of the device for remote implantation within a patient's body. 27. The infusion device of claim 1 , wherein a reservoir is coupled to the infusion needle and a pump is coupled to the reservoir for pumping infusion liquid from the reservoir to the infusion needle, and wherein actuating means are provided for direct manual actuation of at least one of the pump and the drive unit. 28. The infusion device of claim 27 , wherein the actuating means comprises a pressure sensitive switch for manual operation arranged so as to be operable when the device is implanted subcutaneously in a patient's body. 29. The infusion device of claim 27 , wherein the actuating means are arranged for directly actuating either the pump or the drive unit, thereby simultaneously indirectly actuating the other, i.e. the drive unit or the pump. 30. The infusion device of claim 1 , wherein a reservoir is coupled to the infusion needle and a pump is coupled to the reservoir for pumping infusion liquid f