Robotic surgical system and method for automated therapy delivery

What is claimed is: 1. A therapeutic device control system, said system comprising: a servo-driven therapeutic device manipulation system, said manipulation system having at least three degrees of freedom; at least one therapeutic device carried by said manipulation system; a user interface including an input device that permits a user to define a plurality of target points on a tissue surface; a controller for actuating said manipulation system to navigate said at least one therapeutic device to at least one target point of said plurality of target points responsive to the user's definition of the plurality of target points; a memory device for storing a plurality of reference points, wherein said plurality of reference points is generated by periodically measuring a position of the therapeutic device while navigating the at least one therapeutic device to the at least one target point; and a processor for generating a return path from said plurality of reference points, wherein said controller actuates said manipulation system to maneuver the at least one therapeutic device along the return path. 2. The system according to claim 1 , wherein said controller includes software for automatically actuating said manipulation system to navigate said at least one therapeutic device to said at least one target point. 3. The system according to claim 1 , further comprising a positional feedback system for determining a location of said at least one therapeutic device, and wherein said controller utilizes information from said positional feedback system in actuating said manipulation system to navigate said at least one therapeutic device to said at least one target point. 4. The system according to claim 1 , wherein said controller includes software for automatically actuating said manipulation system to maintain contact between said at least one therapeutic device and the tissue surface. 5. The system according to claim 4 , wherein said software for automatically actuating said manipulation system to maintain contact between said at least one therapeutic device and the tissue surface comprises software for automatically synchronizing movement of said at least one therapeutic device to movement of the tissue surface. 6. The system according to claim 1 , wherein said user interface comprises: a display for presenting a graphical model of at least a portion of the tissue surface; and an input device for designating said plurality of target points on said graphical model. 7. The system according to claim 6 , wherein said input device is selected from the group consisting of a touchscreen, a joystick, a touchpad, a mouse, and a trackball. 8. The system according to claim 1 , wherein said manipulation system comprises three servo motors for manipulating said at least one therapeutic device in three degrees of freedom. 9. The system according to claim 1 , wherein said at least one therapeutic device is selected from the group consisting of catheters, syringes, electrophoration devices, iontophoresis devices, transdermal pharmaceutical delivery devices, myoblast delivery devices, stem cell delivery devices, ablation devices, pacemaker leads, and any combinations thereof. 10. A system for defining and navigating a treatment path within a body of a patient, said system comprising: a display for presenting a graphical model of at least a portion of the body of the patient; a user input device for defining the treatment path on said graphical model of at least a portion of the body and for identifying at least one treatment location on the treatment path; a servo-driven manipulation system for maneuvering a therapeutic device within the body of the patient; a positional feedback system for determining a location of the therapeutic device within the body of the patient; a controller for automatically actuating said manipulation system to maneuver the therapeutic device within the body and along the treatment path by utilizing information from said positional feedback system; a memory device for storing a plurality of reference points, wherein said plurality of reference points is generated by periodically measuring a position of the therapeutic device while maneuvering the therapeutic device along the treatment path; and a processor for generating a return path from said plurality of reference points, wherein said controller actuates said manipulation system to maneuver the therapeutic device along the return path.