SU1076127A1 - Method of controlling and reproducing object position in rotary radiotherapy by the beam of ionizing radiation - Google Patents

Abstract

METHOD OF CONTROL AND PLAYING THE POSITION OF THE OBJECT AT ROTATIONAL BETTER THERAPY WITH A BEAM OF IONIZING RADIATION, including the preliminary application of restrictive lines and labels that characterize the area of exposure, with the subsequent alignment of the applied lines and labels with the light source, and the source of the lines, and the ones that have the same characterized in that, in order to prevent overexposure of healthy tissues when irradiated by heavy charged particles, The application of restrictive lines and marks on the surface of the object is carried out when the latter rotates around the axis of rotation, the restrictive lines are applied along the intersection line of the planes perpendicular to the axis of rotation and bounding the irradiation zone vertically with the surface of the object, and the marks are applied at the intersection points bounding lines with planes passing through the axis of rotation, with the subsequent control of combining the bounding and light lines and marks during spatial movement of an object during rotation (L The radiation is continuously n simultaneously over the entire length of the limiting lines.

Description

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The invention relates to medicine, more specifically to compositions for monitoring and reproducing the position of an object during rotational radiation therapy with an ionizing radiation beam, namely, heavy charged particles.

The known method of controlling and reproducing the position of an object during radiation therapy with an ionizing radiation beam involves applying a label to the object's surface marking the center of the tumor with further alignment of this label with the light generated by the light center installed on the 1J beam axis.

A disadvantage of the known device is that it does not allow to control the position of the irradiated object relative to the axis of the ionizing radiation beam 25 during the irradiation process, moreover, the presence of one center does not allow to accurately reproduce the position of the object upon repeated irradiation.

The closest to the invention is a method of controlling and reproducing an object's position during rotational radiation therapy with an ionizing radiation beam, which includes the preliminary application of restrictive lines and marks with light created centralizers fixed fixed relative to the axis of the ionizing radiation beam 2.

The disadvantage of this method is the inability to control and reproduce the position of an object during rotational radiation therapy with a beam of heavy charged particles, due to the fact that this type of chemo therapy is carried out taking into account the features of accelerators of heavy charged particles, a horizontally directed, non-diverging, fixed beam ionizing radiation.

The purpose of the invention is to prevent over-irradiation of healthy tissues during rotational therapy with a beam of heavy charged particles.

This goal is achieved by the fact that, according to the method of controlling and reproducing the position of an object during rotational radiation therapy with an ionizing radiation beam, including the preliminary application of restrictive lines and marks characterizing the irradiation zone, followed by combining the lines and marks created by

caeiuubiMH centralizers fixedly positioned relative to the beam axis, ionizing radiation, preliminary drawing of restrictive lines and marks on the object's surface is carried out while the latter rotates around the axis of rotation, and restricting lines are applied along the line of intersection of the planes perpendicular to the axis of rotation and bounding the irradiation zone vertically, with the surface of the object, and labels are plotted at the points of intersection of the bounding lines with the planes passing through the axis of rotation, with the following control even restrictive and light lines and marks, with the spatial movements of the object during irradiation continuously and simultaneously along the entire length of the limit lines.

The drawing schematically shows a scheme for implementing the method.

The method is carried out as follows.

Object 1 is fixed on a rotary. End 2 with drive for vertical movement and rotation around the axis of rotation. Rotating the object about the axis of rotation, bounding lines 3, are applied to it. then, in accordance with the irradiation program, marks 4 are placed on the limiting lines, combined with the light moving the object on the stand. Light lines are created with the help of light centers 5, which have the ability to move in a vertical direction synchronously with the bench and control the combination of light and restriction lines continuously and along the entire length using the telecontrol system b, or automatically using sensors that detect the mismatch of the restriction and light lines. The point of entry of a beam of heavy charged particles into an object is indicated by an additional source of light 7 placed on the accelerator collimating device.

During the second and subsequent irradiation sessions, the method is carried out in a similar way with the exception of the procedure for applying lines and labels to an object.

The invention provides the ability to control the processing of the radiation therapy program and reduce the radiation load on healthy tissues.

Claims (1)

METHOD FOR CONTROL AND REPRODUCTION OF OBJECT POSITION AT ROTATIONAL RADIATION THERAPY BY A BEAM OF IONIZING RADIATION, including preliminary drawing of boundary lines and marks characterizing the irradiation zone, with subsequent alignment of the drawn lines and marks with the light emitted from the center and the light emitted from the light axis characterized in that, in order to 'prevent over-irradiation of healthy * tissues upon exposure to heavy charged particles, preliminary The boundary lines and marks are crossed onto the surface of the object when the latter rotates around the axis of rotation, and the boundary lines are drawn along the line of intersection of the planes perpendicular to the rotation axis and bounding the irradiation zone vertically with the surface of the object, and the marks are applied at the points of intersection of the boundary lines with the planes, passing through the axis of rotation, with subsequent monitoring of the combination of restrictive and light lines and marks during spatial movements of the object during irradiation UPE and simultaneously the entire length of the boundary lines. >