SU871790A1 - Method of radiodiagnosis of one-side bone deformation of face - Google Patents

Description

(54) METHOD OF X-RAY GENERAL DIAGNOSTIC DIAGNOSTICS

The invention relates to medicine, namely to radiology. The known method of X-ray diagnostics of one-sided bone deformation of the face by means of stereo x-ray, building a stereoscopic model and measuring it on a stereopribor (1. However, this method does not provide high accuracy of determining the bone deformation value. Evaluation of the accuracy of this method shows that the error in determining the amount of deformity can reach 10 In addition, this method requires a large amount of computational work. The aim of the invention is to improve the accuracy of determining the bone deformation According to the method of X-ray diagnostics of one-sided bone deformation of the face by stereoscopic radiography, building a stereoscopic model and measuring it on a stereopribor, marking the face on symmetrical points, after stereo radiography, roentgenograms are cut along the central axis of the head, the stereoscopic model of the injured part of the face is restored and separately a mirror model of a healthy part of the face, combine the models by markers and determine the amount of bone deformation along the boundaries contemporary models. The proposed method is carried out as follows. Stenogen-contrast marks are attached to the patient's skin, for example, with deformation of the bones of the left side of the face. The marks are fixed strictly symmetrically with respect to the axis of symmetry of the face in areas without any injury. Then, X-ray photographic imaging is performed on the radiographic apparatus. The resulting images are cut vertically into two parts, after which the stereopair parts of the images are placed in a stereocomparator, for example, the Knizhnikov stereocomparator. In it, the pictures are oriented in such a way that they can be used to obtain a direct stereoscopic model of the injured part of the face and a mirror stereoscopic model of the opposite healthy part of the face. The models obtained are combined by symmetrical reference marks. The deformation measurement is made by counting the distance on the combined models from

the desired point of the stereoscopic model to the mirror image of the model. The coordinates obtained in this way (iX, DU, dg) are used by the surgeon during the operation.

For example, Volkova, TP, born in 1936. Received with the diagnosis: deformation of the jaw-orbital area on the left - self-injury. X-ray examination revealed: there is a displacement of the zygomatic bone. An X-ray diagnostic technique has been applied to improve the degree of deformity and displacement of the zygomatic bone. The measurements were carried out at three points of the chair bone, the infraorbital region. As a result, the displacement values of these points were found. The point of the stereoscopic model qMeiueHa relative to its mirror image of the right zygomatic region: D.X. -0.5 mm; DU - f6,9 mm; D Z + 7.3 mm.

The point of the stereoscopic model is shifted relative to its mirror image of the right zygomatic region: fikX 2. -1.3 mm; & Y, 2. +9.8 mm; AZ + 4.4 mm.

The point of the stereoscopic model is shifted relative to its mirror image of the right zygomatic region: LH, + 1.8 mm; DN +5.8 mm; A2

 +5.5 mm.

The resulting photogrammetric data allows the surgeon to place the displaced bone fragment of the zygo-orbital area in the correct position during the operation. The postoperative period was normal.

The patient was discharged in a satisfactory condition.

The proposed method greatly facilitates and increases the reliability of identifying the desired points of the bone structure model of the facial skeleton, which leads to an increase in the accuracy of determining the magnitude of the deformation. The proposed method is at least 3 times more accurate than the known one.

Claims (1)

1. Ippolitov V.P. The use of stereo X-ray diffraction method in medicine. M ,, 1977, p. 105-107.