Patent application number | Description | Published |
20090110150 | RADIOTHERAPY APPARATUS AND PARTS THEREOF - The detected positioning error in a geometry item of a radiotherapy apparatus is generally passed to a transfer function for the system, which outputs a signal that dictates the radiation output. If the detected error is within certain limits then the radiation is permitted whereas outside those limits it is not permitted; this corresponds to a transfer function that is a simple two step function. We propose a transfer function having a result that is (a) substantially zero outside a preset error tolerance, (b) has a maximum result at a point within that tolerance, and (c) has a result that is between zero and that maximum over a range of error values that lie between (i) the error value corresponding to the maximum output and (ii) the preset error tolerance. This means that if an error grows towards (but does not exceed) the error tolerance, the output of the radiation source will reduce and allow time for the geometry item to correct its position. | 04-30-2009 |
20090121155 | RADIOTHERAPY APPARATUS AND PARTS THEREOF - A geometry item (such as a gantry arm or an MLC leaf) of a radiotherapeutic apparatus needs to be moved in an accurate manner. The effect of inertia introduces a potential inaccuracy. A radiotherapeutic apparatus is therefore disclosed, comprising a geometry item, a radiation source capable of emitting a beam of therapeutic radiation, and a control unit, the geometry item being moveable to adjust the geometry of the beam, the radiation source having a variable dose rate, and the control unit being arranged to cause variations in the speed of movement of the geometry item and to adjust the dose rate of the radiation source for a period of time after a change in the speed of the geometry item. | 05-14-2009 |
20120083681 | Radiotherapy Planning and Delivery - Methods of radiotherapy planning and delivery are disclosed in which a radiation beam is directed towards a time-averaged mean position of the target during radiation-on. In addition, the radiation beam is gated to deliver radiation to the target only when the target is within a treatment volume centred on the mean position. Treatment plans according to embodiments of the present invention result in low doses to the surrounding healthy tissue, but high duty cycles and quicker treatment times. | 04-05-2012 |
20120215051 | Radiotherapeutic Apparatus - The ability to provide a fine resolution variation in the dose rate of radiotherapeutic apparatus would allow delivery times of VMAT and related techniques to be reduced significantly. A radiotherapeutic apparatus is described, comprising a source of radiation able to issue pulses of radiation at a base frequency, and a control apparatus arranged to permit pulses provided these match a pulse pattern chosen to achieve a selected time-averaged power level, the chosen pulse pattern being one selected from a plurality of pulse patterns that include patterns consisting of trains of pulses that include, relative to the base frequency, at least every n | 08-23-2012 |
20130289796 | VISION SYSTEM FOR RADIOTHERAPY MACHINE CONTROL - In various embodiments, a system for controlling radiotherapy equipment in a treatment environment includes a controller for receiving, from one or more image capture devices, data indicating the position of one or more objects in the treatment environment. Based on the position data, the controller defines one or more exclusionary zones from which the radiotherapy equipment is excluded. Each zone has a buffer area surrounding one or more of the objects. The controller further directs the radiotherapy equipment such that a radiotherapy treatment plan is delivered without the equipment entering into the exclusionary zones. | 10-31-2013 |
20130315367 | CT IMAGING APPARATUS AND METHODS - An apparatus has a patient support, a rotatable gantry supporting a source of imaging radiation, and a radiation detector that operates in a cyclical pattern of an exposure phase followed by a readout phase. For a first detector cycle in which the gantry has a first angle of rotation, the source of radiation is controlled to emit a first radiation beam pulse during the exposure phase, and respective first imaging data is read out during the readout phase. For a second, subsequent detector cycle, it is determined if the gantry has rotated through at least a threshold angular displacement relative to said first angle of rotation, and if so, the source of radiation is controlled to emit a second radiation beam pulse during the exposure phase, and respective second imaging data is read out during the readout phase. | 11-28-2013 |
20140114114 | Systems and methods for the management and provision of radiotherapy - Methods and apparatus for the management and provision of radiotherapy are described in which values for dosimetric parameters are re-evaluated just prior to treatment, on the basis of the treatment plan as loaded into the radiotherapy apparatus, and during treatment, on the basis of monitored machine parameters. By displaying dosimetric parameters rather than complicated machine parameters, the technician operating the radiotherapy apparatus is able to monitor the dose provided to a patient undergoing therapy. Misadministration of radiation as a result of corrupted data or corrupted control signals are prevented. | 04-24-2014 |
20160113570 | COMBINED RADIOTHERAPY AND MRI APPARATUS - The present invention provides a combined radiotherapy and MRI system in which an imaging coil is mounted on a mechanical arm. The position of the imaging coil is thus known and in embodiments can be controlled to prevent collisions with the patient and unfavourable interactions between the imaging coil and the radiation beam. | 04-28-2016 |