Robotic catheter system and methods

What is claimed is: 1. A robotic medical system, comprising: an instrument driver comprising a motor and an instrument interface, the instrument interface comprising a drive element operatively coupled to the motor; a steerable catheter comprising: an elongate body defining a lumen, a control element extending through the elongate body to a distal end portion of the steerable catheter, and an instrument base operatively coupled to the instrument interface, the instrument base comprising a pulley operatively coupled to the control element and the drive element such that actuation of the drive element by the motor actuates the pulley causing actuation of the control element and the distal end portion; a controller having control logic configured to operate the motor of the instrument driver; and an ultrasound transducer integrated in the steerable catheter and configured to acquire data, wherein the data acquired from the ultrasound transducer during movement through a patient is used by the controller, based on the control logic, to control the motor of the instrument driver to actuate the distal end portion of the steerable catheter to navigate the steerable catheter through the patient. 2. The robotic medical system of claim 1 , wherein the control element comprises one or more control elements. 3. The robotic medical system of claim 2 , wherein the pulley comprises one or more pulleys, and wherein each of the one or more pulleys is operatively coupled to a respective one of the one or more control elements. 4. The robotic medical system of claim 3 , wherein the motor comprises one or more motors and the drive element comprises one or more drive elements configured to selectively actuate the one or more pulleys to tension the one or more control elements and effectuate steering of the distal end portion. 5. The robotic medical system of claim 1 , wherein the steerable catheter comprises a coaxial catheter system comprising an inner member and an outer member. 6. The robotic medical system of claim 5 , wherein the outer member comprises a flexible sheath and the inner member comprises a flexible guide. 7. The robotic medical system of claim 1 , wherein the data gathered is time of flight for acquiring images. 8. The robotic medical system of claim 1 , further comprising at least one localization sensor in the steerable catheter. 9. The robotic medical system of claim 8 , wherein the localization sensor and the ultrasound transducer enable capture of ultrasound slice data and a position and orientation of the ultrasound transducer at each acquired slice. 10. The robotic medical system of claim 8 , wherein a three dimensional tissue structure model is producible from the data acquired from the ultrasound transducer and the localization sensor. 11. The robotic medical system of claim 1 , wherein actuating the distal end portion of the steerable catheter comprises bending the distal end portion in a commanded direction. 12. The robotic medical system of claim 1 , wherein the controller is further configured to actuate one or more drive motors configured to linearly translate the steerable catheter. 13. The robotic medical system of claim 12 , wherein the controller is configured to control both actuation of the distal end portion and linear translation of the steerable catheter to navigate the steerable catheter in a desired position or path within a patient. 14. The robotic medical system of claim 13 , wherein the desired position is a center line of a tissue cavity. 15. The robotic medical system of claim 13 , wherein the desired position is against a wall of a tissue cavity. 16. The robotic medical system of claim 13 , wherein the desired position or path is within a gastrointestinal tract. 17. The robotic medical system of claim 13 , wherein the desired position or path is within a bronchial tract. 18. The robotic medical system of claim 13 , further comprising an operator workstation that comprises a user input device, wherein the controller is configured to receive a user input command from the user input device. 19. The robotic medical system of claim 18 , wherein the system comprises an automated driving setting wherein a navigation path of the steerable catheter is based on the ultrasound data. 20. The robotic medical system of claim 18 , wherein the system comprises a semi-automated driving setting wherein a navigation path of the steerable catheter is determined based on the user input command and automatically updated based on the ultrasound data.