Treatment beam path verification in a cancer therapy apparatus and method of use thereof

The invention claimed is: 1. A method for treating a tumor of a patient in a treatment room using positively charged particles, comprising the steps of: providing an approved current version of a radiation treatment plan for treatment of the tumor using the positively charged particles; implementing the current version of the radiation treatment plan using a cancer therapy system comprising a controller linked to a synchrotron; identifying an object, using a set of fiducial indicators, in a treatment vector of the radiation treatment plan; generating a modified version of the radiation treatment plan; receiving medical doctor approval of the modified version of the radiation treatment plan, the modified version of the radiation plan becoming the current version of the radiation treatment plan; and repeating said steps of implementing, identifying, generating, and receiving until completion of a session of treatment of the tumor using the positively charged particles. 2. The method of claim 1 , said step of implementing further comprising the step of: transporting the positively charged particles from said synchrotron, along a first beam transport line, and through an exit nozzle system to a treatment beam path. 3. The method of claim 2 , said step of identifying an object further comprising the steps of: generating a position signal using a fiducial detector detecting photons from a fiducial marker; and said main controller determining a position of the object using the position signal. 4. The method of claim 3 , said step of generating the modified treatment plan further comprising the step of: moving the exit nozzle system relative to the patient. 5. The method of claim 4 , said step of generating the modified treatment plan further comprising the step of: while the patient remains in the treatment room, sending the modified treatment plan to a doctor outside of the treatment room. 6. The method of claim 5 , said step of receiving medical doctor approval occurring without the medical doctor seeing the patient in the treatment room. 7. The method of claim 6 , further comprising the step of: the patient maintaining a position in a patient positioning system during said step of repeating said steps of implementing, identifying, generating, and receiving. 8. The method of claim 3 , said step of generating the modified treatment plan further comprising the steps of: disconnecting said exit nozzle system from said first beam transport line; and connecting said exit nozzle system to a second beam transport line; and switching a transport path of the positively charged particles, using a switching magnet, from said first beam transport line to said second beam transport line. 9. The method of claim 1 , further comprising the step of: defining voxels in the treatment room relative to a calibrated reference beam path; and said step of identifying further comprising the step of determining an intersection of first voxels in the treatment vector and second voxels of the object. 10. The method of claim 9 , further comprising the steps of: moving said nozzle system to a re-orientated nozzle position; and relating the calibrated reference beam path to the re-orientated nozzle position of said nozzle system. 11. The method of claim 1 , further comprising the step of: a patient positioning system maintaining position of the patient during said step of repeating said steps of implementing, identifying, generating, and receiving. 12. The method of claim 1 , said step of receiving medical doctor approval further comprising: a medical doctor overseeing a repeated automated implementation of said steps of generating the modified version of the radiation treatment plan and implementing the current version of said radiation treatment plan. 13. An apparatus for treating a tumor of a patient in a treatment room using positively charged particles, comprising: a cancer therapy system, comprising a main controller linked to a synchrotron, said cancer therapy system configured to: receive an approved current version of a radiation treatment plan for treatment of the tumor using the positively charged particles; implement the current version of the radiation treatment plan; identify an object, using a set of fiducial indicators, in a treatment vector of the radiation treatment plan; generate a modified radiation treatment plan; receive medical doctor approval of the modified radiation treatment plan; and during use repeat said steps of implementing, identifying, generating, and receiving until completion of a session of treatment of the tumor using the positively charged particles. 14. The apparatus of claim 13 , said set of fiducial indicators comprising: a first member, of said set of fiducial indicators, comprising a first known mounting position on a first element co-movable with said exit nozzle system; a second member, of said set of fiducial indicators, comprising a second known mounting position on the object in the treatment room, said first element and the object independently movable; and a fiducial detector configured to detect photons from a fiducial marker. 15. The apparatus of claim 14 , said object comprising at least one of: a component of an imaging system; and a component of a patient positioning system.