SU935864A1 - Method of obtaining x-ray diagnostic pictures - Google Patents

Description

(54) METHOD OF OBTAINING RENTAL DIAGNOSTIC The invention relates to medical X-ray technology and can be used to control the quality of X-ray diagnostic images. When receiving X-ray images of a patient, the patient is irradiated with an X-ray beam at a given anode voltage and anode current on the X-ray tube during a period specified in advance or with a relay, and the patient passing through is recorded from; teaching using an x-ray film, with the anode current and anode voltage being chosen based on the condition of obtaining the best image contrast, as well as the minimum allowable residence time and the dose tl absorbed by the patent. in the known methods, the selection of the required modes is made on the basis of the exposure tables, and there is no possibility of determining the radiologist responsible for the poor quality of the images. IMAGES of setting the wrong settings, wm technician, neprevsh1no spent photo processing film. A known method of obtaining X-ray diagnostic images, concluded in the patient's irradiation with an x-ray beam at a given anode voltage and anode current of the x-ray tube, recording the radiation transmitted through the patient using an x-ray film, and t exhibiting two exemplary wedges, one of which is placed on the free part of the film, and another one directly on the part of the film, on which the image is recorded, after which the p-junk of the examined organ of the patient is photo-processed. This method allows you to control the sign-off of X-ray and other GFI serial imaging systems; 21 The disadvantage of this method is the impossibility of detecting, under the condition of obtaining a poor-quality image, which conditions are violated by x-ray or phonograph .. The method for obtaining x-ray diagnostic images, consisting in the irradiation of the patient by an x-ray beam at a given anide voltage and anode current X-ray tube, registering radiation transmitted through a patient with an x-ray film when shielding its area, exposing this area to Lenka in the past through a set of absorbers with varying degrees of absorption of light radiation, obtained by means of an electroluminescent panel embedded in an X-ray cassette, and photo-processing of an X-ray film. This method gives you the ability to determine what conditions are violated in the case of obtaining a snapshot of a poor quality SPZ. A disadvantage of the known method is the need to use specialized cassettes of a rather complex structure. Besides; In the known method, periodic control of the glow intensity of the electroluminescent panel is necessary in order to observe the optimal exposure modes of the film in the light beam passing through a set of absorbers. The purpose of the invention is to simplify the means of implementing the method. The goal is achieved by the fact that. According to the method of obtaining X-ray imaging images, involving the patient being irradiated with an X-ray beam at a given anode voltage and anode current of the X-ray tube, recording the radiation transmitted through the patient with an X-ray film when screening its area, exposing this film segment in the past through a set of absorbers varying degrees of absorption of light radiation and photo processing of the x-ray film; they preliminarily produce a consistent exposure of one film from artery in a light beam progressed through (a different optical wedge superimposed on different parts of the film, and each position of the wedge corresponds to different exposure conditions, the film is shown and an image of the optical wedge with a specified number of gradations of blackening of the film is found, after which selected sections of all other batch films in a light beam passing through an optical wedge, with the words of the exposure corresponding to obtaining a given number of gradations of density n blackened film and used for further film proeksponkrovannye floor Cheney rentgenbdiagnosticheskih images. The method is implemented as follows. From a batch of X-ray films of the same type, a single film is taken, on different areas of which an exemplary optical wedge is applied, and these different sections are exposed in a light beam passing through this wedge. Each part of the film is exported at different exposure times and shielded from the light beam of all other parts of the film. Then the exposed film is developed under standardized conditions and the images of the optical wedge obtained at different parts of the film are compared, from which the best is chosen, a given number of gradations of blackening of the film is present. In this way, the optimum optical exposure time for a film of this type is determined using this constant intensity light source. Then to the free areas of each. the films are optically exposed to an optical wedge in the selected mode. When conducting X-ray examinations, the optically exposed portion of the X-ray film is shielded from X-rays and in the usual way an image of the patient's organ being examined is taken on the rest of the film. After that, the film is developed and the resulting image is observed. If the image quality is not satisfactory, the reasons for obtaining such an image are determined as follows. If the image of the optical wedge carries the required number of density gradations, this means that the photographic processing of the film has been carried out correctly and the quality of the image is determined by the modes on the X-ray diagnostic apparatus. If the image of the optical wedge does not contain: The required number of gradations of blackening density as a result of increasing or weakening the average density of blackening, this clearly indicates a wrong choice of the mode of photographic processing.

Thus, the described method allows using simple means to find out the reason for obtaining a bad picture and introduce the appropriate correction in radiography or photo processing modes, which generally leads to a reduction in the number of poor-quality images and saving photographic materials, as well as to a reduction in radiation loads on patients.

The paved way is widespread.

used in conventional x-ray laboratories.

Claims (2)

Invention Formula A method of obtaining x-ray diagnostic pictures, which involves irradiating a patient with an x-ray beam at a given diode voltage and anode current of an x-ray tube, registering a patient through / from a patient with an x-ray film when shielding its portion by exposing this portion of the film passed through a set of absorbers varying degrees of absorbance of light emission and photo processing of x-ray film, characterized in that, in order to simplify the means; the implementation of the method, pre-produced sequential 5-exposure of one film from the party in the light, passing through the model Wedge, superimposed on different parts of the film, and each position of the Wedge correspond to 0 exposure conditions, develop a film and find an image of an optical wedge with a specified number of gradations of blackening of the film, after which the selected 5 sections of all other batch films in a light beam that has passed through 3 (an optical wedge, under exposure conditions corresponding to obtaining a specified number of gradations of blackening density Q films, and use of the exposed films to further obtain X-ray images. Sources of information taken into account in the examination 5I. Shmelev V.K. X-ray apparatus, M., Enerp, 1973, p. 27O-275. 2. Copyright USSR USSR Ni 109386, cl. A 61 B 6/02, 1957. (US Patent N 4O951I, Cl. S5O-476, published in 1978 (prototype).