RU62792U1 - TOPOMETRIC PHANTOM - Google Patents

Abstract

The utility model relates to medicine, namely to radiation diagnostics and radiation therapy, and is intended for experimental topometric studies of brain tumors. The purpose of the utility model is to simplify and improve the accuracy of experimental topometric studies of brain tumors. This goal is achieved by the fact that inside the hollow ball located on the stand, with an outer diameter of 190 mm and a wall thickness of 5 mm, there is a radiopaque non-hollow ball with an outer diameter of 40 mm imitating a brain tumor. A graduated spoke is drawn and rigidly fixed through the central axis of a ball of smaller diameter. A spoke with a ball is located inside the head phantom, while passing through its central axis. A ball of small radius freely moves inside a large ball along the central axis, and its position is controlled on a scale on the spoke. A number of reference points and marking lines are applied to the surface of the phantom. The application of the utility model allows to achieve the goal. 1 p.p.

Description

The utility model relates to the field of medicine, namely to radiation diagnostics and radiation therapy, and is intended for experimental topometric studies of brain tumors. In the theoretical development of new methods for the topometric planning of radiation therapy for implementation in everyday practice, confirmation of their effectiveness in practice is necessary. But in this case, experimental studies on people associated with exposure to ionizing radiation are prohibited, and therefore are carried out on various phantoms [1]. A phantom from a macerated human skull is known [2], but its essential drawbacks are, firstly, the need for a natural anatomical part of the human body, and secondly, the complexity of manufacturing.

The purpose of the utility model is to simplify and improve the accuracy of experimental topometric studies of brain tumors.

The essence of the utility model is reflected in figure 1.

Inside the hollow ball is a radiopaque non-hollow ball that mimics a brain tumor. For a stable position of the phantom on the table, it is placed on a special transparent plastic stand in the form of a hollow cylinder without a base and a bottom so that the phantom, being on the stand, touches the plane of the desktop of an X-ray simulator or computer tomograph (Fig. 1).

A thin wooden needle is drawn through a smaller diameter ball, graduated by a scale with 1 mm divisions along the entire length. The spoke passes through the central axis of the ball and is rigidly fixed with it at the midpoint. A spoke with a ball is located inside the head phantom, while passing through its central axis (figure 2). A spoke with a small ball fixed on it moves freely inside the large ball along the central axis. The position of the small ball is controlled on a scale on the visible segments of the spokes extending beyond the phantom through diametrically opposite holes.

The phantom is placed on the simulator desktop so that its central axis, indicated by the spoke, is parallel to the median longitudinal axis of the desktop. On a phantom using a system of laser centralizers

X-ray simulator cause a number of lines and points (Fig.3, a) View of the phantom from above b) View of the phantom from the side):

- a line simulating the intersection of the median sagittal plane and the scalp, - the median sagittal line (s);

- two points on the phantom surface (p1, p2) imitating the upper edges of the auricles: the points lie on the same line perpendicular to the median sagittal line on the phantom, are equidistant from it, as well as from the plane of the simulator desktop on which the phantom is located;

- a line simulating the intersection of the horizontal plane of the phantom and the scalp passing through the points (p1, p2), - the horizontal line (g); arbitrarily one of the same hemispheres, separated by a horizontal line, is considered cranial (Cr), the other is caudal (Cd);

- a point at the crosshairs of the median sagittal and horizontal lines (p3).

This device was used for experimental topometric studies of brain tumors. Its components are available for visualization both during examination by X-ray computed tomography and during examination on an X-ray simulator. The phantom is easy to use, including for reproducibility of identical styling due to the visibility of the marked lines and dots on it.

Thus, this useful model makes it possible to simplify and increase the accuracy of experimental topometric studies of brain tumors.

Literature:

1. Georgievsky A.S. Methodology and methodology of scientific research in medicine / A.S. Georgievsky. - Leningrad: Medicine, 1981. - 256 p.

2. Speransky B.C. The shape and design of the skull / B.C. Speransky, A.I. Zaichenko. - M .: Medicine, 1980 .-- 280 p.

Claims (1)

A device for experimental topometric studies of brain tumors containing two balls, characterized in that inside the hollow ball that simulates the head and is located on a stand in the form of a hollow cylinder without a base and a bottom of such height that the phantom touches the plane of the X-ray machine’s working table, there is a radiopaque non-transparent a ball of a smaller diameter imitating a brain tumor through a central axis of a small ball a wooden needle is drawn and rigidly fixed at the mid-level, graduir It is defined by 1 mm divisions, while a spoke with a small ball is placed inside the large ball, passes through its central axis and moves freely along it, and the position of the small ball is controlled on a scale on the visible segments of the spoke.