Systems and methods for patient positioning during radiotherapy

What is claimed is: 1. A system for delivering radiotherapy to a patient, the system comprising: a patient support structure configured to receive a patient during a radiotherapy process using a radiotherapy source to deliver a therapy to the patient when positioned on the patient support structure; a patient positioning system configured to adjust a position of the patient support structure relative to the radiotherapy source; a flexible actuator configured to secure the patient to the patient support and adjust a position of at least a portion of the patient relative to the patient support; an imaging system configured to acquire imaging data of the patient, the patient support, and the flexible actuator during the radiotherapy process; a computer system configured to: control adjustment of the flexible actuator in at least one dimension; receive the imaging data and direct the patient positioning system to adjust the position of the patient support structure during the radiotherapy process and direct the flexible actuator to immobilize the patient as the patient positioning system adjusts the position of the patient support structure and reposition at least the portion of the patient relative to a radiotherapy plan; and wherein the flexible actuator forms an artificial muscle that contracts in one direction. 2. The system of claim 1 , wherein the radiotherapy plan incorporates a positioning of the patient relative to the radiotherapy source or adjustment of the particle beam to utilize a Bragg peak in the radiotherapy process. 3. The system of claim 1 , wherein the computer system is configured to control adjustment of the flexible actuator in at least two dimensions, and further comprising a vacuum pump in fluid communication with the flexible actuator and in electrical communication with the controller to effectuate adjustment of the flexible actuator in the at least two dimensions. 4. The system of claim 1 , wherein the computer system is further configured to direct the controller to adjusts the flexible actuator to counteract gravitational forces on the patient as the patient positioning system adjusts the position of the patient support structure relative to the radiotherapy source. 5. The system of claim 4 , wherein the computer system is further configured to direct the controller to adjust the flexible actuator to reposition the patient to correct for gravitational forces on the patient when the patient positioning system adjusts the position of the patient support structure relative to the radiotherapy source. 6. The system of claim 1 , wherein the radiotherapy source is configured to deliver radiotherapy using a fixed beam to a patient during a radiotherapy process and wherein the patient positioning system is configured to adjust a position of the patient support structure relative to the radiotherapy source in 3, 4, 5, or 6 degrees of freedom. 7. The system of claim 1 , wherein the flexible actuator extends proximate to one or more of a waist of the patient and one or more shoulders of the patient. 8. The system of claim 1 , wherein the flexible actuator that forms the artificial muscle contracts in the one direction and expands in another direction simultaneously. 9. The system of claim 1 , wherein the flexible actuator includes a fluid-driven origami orifical muscle (FOAM) system. 10. The system of claim 9 , wherein the FOAM system includes a Miura fold. 11. The system of claim 1 , wherein the computer system is configured to control adjustment of the flexible actuator in at least two dimensions, and wherein the flexible actuator forms a strap extending over at least a portion of the patient and wherein the at least two dimensions includes an in-plane contraction across the strap and a direction transverse to the in-plane direction of the strap. 12. A system for delivering radiotherapy to a patient, the system comprising: a radiotherapy source configured to deliver radiotherapy using a fixed beam to a patient during a radiotherapy process; a patient support structure configured to receive the patient during the radiotherapy process; a patient positioning system configured to adjust a position of the patient support structure relative to the radiotherapy source; a flexible actuator configured to secure the patient to the patient support and adjust a position of at least a portion of the patient relative to the patient support; an imaging system configured to acquire imaging data of the patient, the patient support, and the flexible actuator during the radiotherapy process; a computer system configured to: control adjustment of the flexible actuator in at least one dimension; receive the imaging data and direct the patient positioning system to adjust the position of the patient support structure during the radiotherapy process and direct the flexible actuator to immobilize the patient as the patient positioning system adjusts the position of the patient support structure and reposition the at least the portion of the patient relative to a radiotherapy plan; and wherein the flexible actuator forms an artificial muscle that contracts in one direction. 13. The system of claim 12 , wherein the radiotherapy source is a particle radiotherapy system. 14. The system of claim 12 , wherein the computer system is further configured to direct the controller to adjusts the flexible actuator to counteract gravitational forces on the patient as the patient positioning system adjusts the position of the patient support structure relative to the radiotherapy source. 15. The system of claim 12 , wherein the computer system is further configured to direct the controller to adjust the flexible actuator to reposition the patient to correct for gravitational forces on the patient when the patient positioning system adjusts the position of the patient support structure relative to the radiotherapy source. 16. The system of claim 12 , wherein the flexible actuator that forms the artificial muscle contracts in the one direction and expands in another direction simultaneously. 17. The system of claim 12 , wherein the flexible actuator includes a fluid-driven origami orifical muscle (FOAM) system. 18. The system of claim 12 , wherein the computer system is configured to control adjustment of the flexible actuator in at least two dimensions, and wherein the flexible actuator forms a strap extending over at least a portion of the patient and wherein the at least two dimensions includes an in-plane contraction across the strap and a direction transverse to the in-plane direction of the strap. 19. The system of claim 12 , wherein the portion of the patient includes a target region identified in the radiotherapy plan. 20. A method for restraining and repositioning a patient during a radiotherapy procedure, the method including steps comprising: i) determining a current position of a patient on a patient support, wherein the patient is positioned to receive radiotherapy from a radiotherapy source during a radiotherapy process following a radiotherapy plan that includes a relative position of the patient to the radiotherapy source; ii) repositioning the patient during the radiotherapy process using a patient positioning system configured to adjust a position of the patient support structure relative to the radiotherapy source; iii) controlling a flexible actuator forming an artificial muscle that contracts in one direction that secures the patient to the patient support and adjust a position of the patient rela