Abstract: The present invention concerns a device for controlling the radiotherapy treatment of cancer patients, comprising a gas chamber (10) with flat and parallel electrodes (7), placed at a certain distance (d), a window (2) placed above an electrode (7) and insulating means (4, 5, 6) placed below the electrode (7). The chamber (10) is connected to a collector (8) through which a noble gas is introduced into a cavity (11) of the chamber (10), so that the electric field inside the chamber (10) is due to the polarisation of the chamber (10) and to the charges generated by the radiation pulse. The invention also concerns the related control method.
Abstract: Described is a device for radiotherapy treatment with a high dose rate of ionizing radiation, comprising an accelerating guide (11) of a medical radiofrequency accelerator, at least two simultaneously thermostated resonant cavities (10) and comprising a first pick-up (12), a second pick-up (12B) in at least two resonant cavities (10) and an optical system (20) of the beam.
Inventors:
Giuseppe FELICI, Giuseppe CARELLA, Massimo DI FRANCESCO, Salvatore BARONE, Luigi FAILLACE, Mauro MIGLIORATI, Bruno SPATARO, Luigi PALUMBO, Andrea MOSTACCI
Abstract: An IORT device (10) for radiotherapy treatment of cancer patients, comprising a source of particles, an accelerating device (11), which sends a beam of particles (12) on a target (14) through an applicator (15), a scattering filter (16), which allows the distance between the source of particles and the target (14) to be kept within a range compatible with the use of IORT devices (10) in standard operating rooms, and an optical system for collimating the beam of particles (12), which is placed between the scattering filter (16) and the applicator (15); specifically, the optical collimating system of the beam of particles comprises a primary screen (17), configured to shield the radiation produced by the scattering filter (16), a secondary screen (18), configured to shield the photons produced on the primary screen (17), and a collimating apparatus (19), which provides for housing the monitor chambers (20).
Abstract: An IORT device (10) for radiotherapy treatment of cancer patients, comprising a source of particles, an accelerating device (11), which sends a beam of particles (12) on a target (14) through an applicator (15), a scattering filter (16), which allows the distance between the source of particles and the target (14) to be kept within a range compatible with the use of IORT devices (10) in standard operating rooms, and an optical system for collimating the beam of particles (12), which is placed between the scattering filter (16) and the applicator (15); specifically, the optical collimating system of the beam of particles comprises a primary screen (17), configured to shield the radiation produced by the scattering filter (16), a secondary screen (18), configured to shield the photons produced on the primary screen (17), and a collimating apparatus (19), which provides for housing the monitor chambers (20).
Abstract: The present invention concerns a device for shaping an electron beam of a machine for intraoperative radiation therapy (IORT—Intra Operative Radiation Therapy) using a tubular applicator (3) having a duct through which the electron beam is transmitted, the device being characterised in that it comprises a slab (1), provided with a hole (2) corresponding to the duct of the tubular applicator (3), and at least one planar element (10) comprising an upper plate (11) and a lower plate (12) removably attachable to each other through first mechanical coupling means (13), said at least one planar element (10) being removably attachable to the slab (1) through second mechanical coupling means (13, 14) so that the arrangement of said at least one planar element (10) with respect to the slab (1) is adjustable so as to define an aperture (20) of lower area than that of the section of the duct of the tubular applicator (3), the upper plate (11) of each planar element (10) being made of a first sterilisable biocompatible m