Particle therapy apparatus for eye treatment

The invention claimed is: 1. A particle therapy apparatus for irradiating a diseased part of a patient's eye with a charged particle beam, comprising: a particle accelerator to generate the charged particle beam; a movable irradiation nozzle adapted to receive and direct the charged particle beam towards the patient's eye according to different beam directions; a patient support adapted to receive and hold the patient in a treatment position; a movable marker arranged in such a way that it is visible by the patient while the patient is in the treatment position; a controller configured to move said marker to a pre-determined and patient-specific position before an irradiation of the diseased part of the patient's eye with the charged particle beam; and a pencil beam scanning subsystem configured to scan the charged particle beam over the diseased part of the patient's eye. 2. A particle therapy apparatus according to claim 1 , further comprising an isocentric gantry rotatable about an axis Y, said gantry comprising a sequence of bending magnets arranged along a beam path to receive the particle beam along the axis Y, to first bend the particle beam away from the axis Y and to finally bend and direct the particle beam back towards the axis Y, and in that the irradiation nozzle is arranged on said gantry and downstream of a last bending magnet of said sequence of bending magnets. 3. A particle therapy apparatus according to claim 1 , wherein the pencil beam scanning subsystem is a spot scanning type subsystem. 4. A particle therapy apparatus according to claim 1 , wherein the apparatus is configured to perform a complete irradiation treatment of the diseased part of the patient's eye with a single nominal beam direction with respect to a single direction of the optical axis of the patient's eye. 5. A particle therapy apparatus according to claim 1 , wherein the movable marker is mechanically linked to the irradiation nozzle. 6. A particle therapy apparatus according to claim 1 , wherein the movable marker comprises a light source, preferably a point source. 7. A particle therapy apparatus according to claim 1 , wherein the patient support is adapted to receive and hold the patient in a supine treatment position or in a seated treatment position. 8. A particle therapy apparatus according to claim 1 , wherein the irradiation nozzle comprises a collimator to reduce a lateral dose fall-off. 9. A particle therapy apparatus according to claim 1 , wherein the apparatus further comprises a video camera placed in such a way that a field of view of said camera covers the patient's eye when the patient is in the treatment position, and in that the controller is further configured to acquire images from said video camera and to monitor the position and/or orientation of the patient's eye while the patient is in the treatment position. 10. A particle therapy apparatus according to claim 9 , wherein the controller is further configured to monitor the position and/or orientation of the patient's eye before starting irradiation of the diseased part of the patient's eye with the particle beam, and to start said irradiation only when the controller detects that the marker is placed at the pre-determined and patient-specific position and that the patient's eye is gazing at said marker. 11. A particle therapy apparatus according to claim 9 , wherein the controller is further configured to monitor the position and/or orientation of the patient's eye while irradiating the diseased part of the patient's eye with the particle beam, and to stop said irradiation as soon as the controller detects that the marker is not placed at the pre-determined and patient-specific position or that the patient's eye is not gazing at said marker. 12. A particle therapy apparatus according to claim 1 , wherein the particle beam is a beam of electrically charged particles, excluding electrons, and preferably a beam of protons or a beam of carbon ions. 13. A particle therapy apparatus according to claim 1 , wherein the particle accelerator is a cyclotron or a synchrotron. 14. A particle therapy apparatus according to claim 13 , wherein the irradiation nozzle comprises an energy absorber to reduce the energy of the charged particle beam. 15. A particle therapy apparatus according to claim 14 , wherein the energy absorber is configured to reduce the energy of the charged particle beam to less than 70 MeV at an output of the nozzle.