Renovascular treatment device, system, and method for radiosurgically alleviating hypertension

What is claimed is: 1. A radiosurgical method for treating a patient body having a renovascular system, the patient having hypertension, the method comprising: receiving a desired lesion pattern and planned radiation distribution; determining an estimated lesion of the renovascular system based on the planned radiation; displaying a graphical representation of the estimated lesion; simulating effects of gross misalignment between the patient and a radiosurgery treatment system; and outputting tracking errors on the estimated lesion location and shape prior to remodeling by the radiosurgery treatment system of a target portion of the renovascular system based on the estimated lesion. 2. The radiosurgical method of claim 1 , wherein the desired lesion pattern comprises a desired lesion of renal nerves in the renovascular system for treatment. 3. The radiosurgical method of claim 1 , wherein the desired lesion pattern is received from a user interface of a treatment planning module. 4. The radiosurgical method of claim 1 , wherein the estimated lesion comprises an estimate of renovascular tissue that receives a sufficient dose of radiation for therapeutic remodeling. 5. The radiosurgical method of claim 1 , wherein the graphical representation of the estimated lesion indicates an eventual tissue state of the renovascular tissue. 6. The radiosurgical method of claim 1 , further comprising displaying a graphical representation of a three-dimensional radiation dose pattern. 7. The radiosurgical method of claim 6 , wherein the three dimensional radiation does pattern comprises one or more portions that indicate tissue subjected to differing levels of radiation. 8. The radiosurgical method of claim 1 , wherein the graphical representation of the estimated legion comprises one or more two-dimensional planar sections through the renovascular system of the patient body. 9. The radiosurgical method of claim 8 , wherein the one or more two-dimensional planar sections each comprise at least one isodose line corresponding to an absorbed dose of radiation. 10. The radiosurgical method of claim 1 , further comprising: obtaining planning image data of the renovascular system of the patient body; and remodeling a target portion of the renovascular system of the patient body based on the estimated lesion. 11. A treatment system for treating a patient body having a renovascular system including a first renal artery and a second renal artery, the patient having hypertension, the treatment system including at least one computing device, the computing device configured to: receive a desired lesion pattern and planned radiation distribution; determine an estimated lesion of the renovascular system based on planned radiation; display a graphical representation of the estimated lesion; simulate effects of gross misalignment between the patient and a radiosurgery treatment system; and output tracking errors on the estimated lesion location and shape prior to remodeling by the radiosurgery treatment system of a target portion of the renovascular system based on the estimated lesion. 12. The treatment system of claim 11 , wherein the desired lesion pattern comprises a desired lesion of renal nerves in the renovascular system for treatment. 13. The treatment system of claim 11 , wherein the desired lesion pattern is received from a user interface of a treatment planning module. 14. The treatment system of claim 11 , wherein the estimated lesion comprises an estimate of renovascular tissue that receives a sufficient dose of radiation for therapeutic remodeling. 15. The treatment system of claim 11 , wherein the graphical representation of the estimated lesion indicates an eventual tissue state of the renovascular tissue. 16. The treatment system of claim 11 , wherein the computing device is further configured to display a graphical representation of a three-dimensional radiation dose pattern. 17. The treatment system of claim 16 , wherein the three dimensional radiation does pattern comprises one or more portions that indicate tissue subjected to differing levels of radiation. 18. The treatment system of claim 11 , wherein the graphical representation of the estimated legion comprises one or more two-dimensional planar sections through the renovascular system of the patient body. 19. The treatment system of claim 18 , wherein the one or more two-dimensional planar sections each comprise at least one isodose line corresponding to an absorbed dose of radiation. 20. The treatment system of claim 11 , wherein the computing device is further configured to: obtain planning image data of the renovascular system of the patient body.