Infusion of drugs

We claim: 1. A method of treating a human being or an animal by implanting at least part of an implantable system for injecting a substance into a patient's body, the implantable, system comprising: at least one flexibly bendable infusion needle with a tip end of each of said at least one infusion needle arranged in at least one first housing for penetrating the first housings outer wall in at least one penetration area and having the respective other end arranged in at least one second housing, the first and second housings being adapted for implantation inside the patient's body, wherein the at least one second housing is provided for implantation inside the patient's body remote from the at least one first housing and wherein the injection needle is sufficiently long to bridge the distance from the at least one second housing for remote implantation to the at least one first housing and further through the first housing up to the outer wall of the first housing, and at least one drive unit adapted for being coupled to the at least one infusion needle and arranged and adapted at least for advancing the tip end of the at least one infusion needle so that the at least one infusion needle penetrates with the tip end or ends thereof said at least one first housing's outer wall in said at least one penetration area to inject the substance into the patient's body, wherein the method, comprising the steps of: cutting the skin, dissecting free at least one area within the patient's body, placing the at least one first housing accommodating the tip end or ends of the at least one long, flexibly bendable infusion needle within said dissected area such that the tip end, when penetrating the first housing's outer wall, can penetrate into the patient's tissue so as to allow for injecting a substance through said at least one penetration area via the at least one infusion needle, and placing the at least one second housing accommodating the respective other end or ends of the at least one infusion needle within the patient's body remote from the at least one first housing. 2. The method according to claim 1 , implanting a sheath between the first and second housings, wherein the infusion needle is guided. 3. The method according to claim 1 , wherein the step of placing the at least one second housing, comprises at least one of the following steps: implanting at least a part of the at least one drive unit remote from the at least one first housing, and implanting at least a drive of the at least one drive unit in the second housing for advancing and retracting the at least one infusion needle. 4. The method according to claim 1 , wherein the step of placing the at least one first housing, comprises the following step: implanting at least a part of the at least one drive unit placed in the first housing for advancing and retracting the at least one infusion needle. 5. The method according to claim 1 , comprising the step of implanting a mechanical drive element for transmitting kinetic energy to the at least one infusion needle. 6. The method according to claim 5 , wherein the mechanical drive element comprises at least one of: a screw-drive or threaded connection for advancing and retracting the infusion needle. 7. The method according to claim 5 , wherein the mechanical drive element comprises at least one rotating shaft directly or indirectly cooperating with the at least one infusion needle so as to cause movement of the infusion needle upon rotation of the rotating shaft, wherein turning the rotating shaft about its axis of rotation causes the infusion needle to advance and/or retract, wherein the method comprising the step of implanting the rotating shaft. 8. The method according to claim 7 , wherein the rotating shaft comprises at least one of a screw or threaded drive connection, and a worm screw. 9. The method according to claim 5 , wherein the mechanical drive element comprises at least one wire for directly or indirectly cooperating with the infusion needle so as to cause movement of the needle upon actuation of the wire, wherein pulling at least one of the at least one wire causes the infusion needle to advance or retract, wherein the method comprises the step of implanting the at least one wire. 10. The method according to claim 1 , wherein the at least one drive unit comprises a hydraulic drive for transmitting hydraulic energy to the at least one infusion needle for advancing the tip end of the infusion needle, wherein hydraulic fluid of the hydraulic drive is guided through a conduit or sheath connecting the at least one infusion needle with at least one reservoir, and wherein the system is adapted to use as the hydraulic fluid to be injected into the patient's body, wherein the step of placing the at least one second housing, comprises at least one of the following steps: implanting the hydraulic drive placed in the second housing, and wherein the method further comprises the step of implanting a conduit and connecting the at least one infusion needle with the at least one reservoir. 11. The method of claim 10 , using a secondary fluid different from the hydraulic fluid to be injected into the patient's body. 12. The method according to claim 1 , wherein the at least one drive unit comprises a drive comprising at least one of; at least one electric motor, at least one pump and an electromagnetic drive, the method comprising the steps of placing one or more of the following elements within the patient's body within or remote from the first, second, or first and second housing: at least part of the drive unit (D), a reservoir, a pump, and at least one motor for actuation at least one of: the drive unit, a drive driving the drive unit, the pump and any other energy consuming part of the system. 13. The method according to claim 12 , wherein the reservoir comprises at least one first compartment accommodating or adapted to accommodate a first substance and at least one second compartment accommodating or adapted to accommodate a second substance, wherein the implantable system is adapted to cause the two injected substances to be mixed within the body, wherein the substance contained in the at least one second compartment is in at least one of: a fluid, powder form and freeze-dried form. 14. The method according to claim 1 , further comprising the steps of: placing a wiring for transmitting electric energy from at least one of a remote location within the patient's body, the first housing and the second housing, to the at least one of: at least one motor, at least one pump, energy consuming parts of the implantable system and an electromagnetic drive. 15. The method according to claim 1 , wherein the at least one infusion needle has a tube-like body closed at the tip end and having a laterally arranged delivery exit port. 16. The method according to claim 1 , the method comprising the steps of placing one or more of the following elements within the patient's body within or remote from the first housing, the second housing, or the first and second housing: an energy storage source for providing energy to at least one of the pump, the drive unit and the motor, wireless coupling elements adapted to connect either the motor or the energy storage source or both to allow an extra-corporal primary energy source to transmit energy to either the motor or the energy storage means or both in non-contacting fashion, and wireless energy transforming means. 17. The method according to claim 16 , providing feedback information relating to an energy balance which is defined as the