RU2165237C1 - Method for measuring femur neck and head anteversion - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves placing a patient on X-ray apparatus desk in dorsal position. Femur is set exactly at 90 deg with 15-deg outward deflection. Shin is bent in 90-deg position. X-ray cassette is placed under the femoral condyles and Kirschner wire is laid over the cassette at the level of supracondyle zone in perpendicular to longitudinal femur axis. Another one is placed under the hip joint with Kirschner wire laid over the cassette bringing it close to the hip joint to direct it exactly parallel to the Kirschner wire placed over the cassette lying in the femoral condyles area. X-ray tube is set at the level of the hip joint along the median line of the body to make X-ray picture of the hip joint in the anteroposterior position with the X-ray tube having 15 deg deviation from the median line of the body at an angle of 15 deg outward. The X-ray tube is set below the knee joint without changing the leg position. Knee joint X-ray picture is taken so that the X-ray tube is directed in parallel to the femur axis and posterior surface of the femoral condyles. Both X-ray pictures are superimposed so that the wire images exactly coincide. Transcondylar line is drawn through the femoral condyles. One more line is drawn through the center of the femur neck to show the longitudinal femur neck axis. True femur neck and head anteversion angle is measured as one built by the intersecting lines. EFFECT: high accuracy of measurements. 9 dwg

Description

 The method relates to medicine, namely to orthopedics, radiology, biomechanics, anatomy, anthropology.

 A known method for determining the anteversion (antetorsia) of the femoral neck (N. V. Kornilov, A. V. Voitovich, V. M. Mashkov, G. G. Epstein. Surgical treatment of degenerative-dystrophic lesions of the hip joint. - St. Petersburg. 1997 , pp. 50 - 51; VO Marx. Orthopedic diagnostics. - Minsk: Science and technology. 1978, p. 388 - 404 (figure 1).

 A close solution to this problem can be achieved using the methods described by V.O. Marx. Orthopedic diagnostics. Minsk. - Publisher: Science and Technology. 1978, p. 388 - 404.

 The methods are as follows.

1. The patient is placed on the table of the x-ray machine. The legs are bent at 90 ^o and take away at 20 ^o . In order to keep the legs in a given position, use a sliding stand (Fig. 2). The angle of abduction on the stand is constant (20 ^o ), the height of the stand varies depending on the length of the hips (Fig. 3). A metal ruler is laid along the bottom edge of the cassette according to the location of the axis. The schematic image obtained in the images under normal relations is given in FIG. 4.

 2. In a standard anteroposterior image, the inclination angle (cervical-diaphyseal angle) of the femoral neck is measured. The angle obtained by measuring the image is a projection inclination, and not true, since the neck image is changed on the radiograph by projection conditions.

 In a special image designed to measure antetorsia (made on a stand - the above method), projection antetorsia is measured (Fig. 4).

According to the table (Fig. 5), the true values of inclination and antetorsia (anteversion) are found. For example, the projection angle of inclination as measured in the anteroposterior image is 155 ^o , and the projection angle of antetorsion as measured in the special image is 45 ^o . In the vertical column of the table (the projection angle of the neck inclination), 155 ^{o is} searched, on the horizontal column - the projection angle of the antetorsia is 45 ^o . At the intersection of the columns of digits, the true values of the angles of inclination and neck antetorsion are found.

 However, these methods are complex, require special complex devices, additional complex tables, calculations, and allow not to measure, but to determine the angle of anteversion (antetorsia) indirectly, therefore, not exactly. Also, the methods do not allow fixing on the roentgenogram (s) the spatial relationships between the head and neck, on the one hand, and the condyles of the femur, on the other hand, without which these methods cannot be called objective and accurate for measuring the angle of antetorsion of the head and neck of the femur.

 The objective of the invention is the accurate measurement of anteversion of the femoral neck.

The objective of the invention is achieved by the fact that the patient is placed on an X-ray table on his back, the hip is bent strictly by 90 ^o with the abduction of 15 ^o , the lower leg is bent by 90 ^o , an x-ray cassette is placed under the condyles of the thigh, on which the Kirschner spoke is placed at the level of the supracondylar zone so that the spoke is oriented perpendicular to the longitudinal axis of the thigh, then under the hip joint of the same leg put another cassette on which the Kirchner needle is placed, bringing it closer to the hip joint so that it is strictly parallel about the Kirschner needle, placed on a cassette located under the condyles of the thigh, after which the tube of the X-ray device is installed at the level of the hip joint along the middle axis of the body and X-ray of the hip joint is performed in the anteroposterior projection with the x-ray tube tilted outward (in the direction of the hip joint of the body) from the middle axis angle of 15 ^o , then, without changing the position of the leg, the x-ray tube is installed over the knee joint, x-ray of the knee joint is performed so that the direction of the x-ray the tube was parallel to the longitudinal axis of the femur and the posterior surface of the femoral condyles, after which both X-ray photographs were aligned so that the contours of the Kirschner spokes in both images coincided exactly, then a transcondillar line was drawn through the femoral condyles and a line was drawn through the middle of the femoral neck (longitudinal axis of the femoral neck bones), and the true angle of anteversion of the femoral head formed at the intersection of these lines is measured (if necessary, restore the perpendiculars to these lines and determine the angle anny intersection perpendicular).

 The invention is illustrated by the following figures.

 In FIG. 1 is a diagram of a "classical" angle of antetorsion of the head and neck of the femur.

 In FIG. 2 shows a device for laying a patient.

 In FIG. 3 shows a patient laying pattern.

 In FIG. 4 shows a diagram for determining the angle of antetorsion of the head and neck of the femur.

 In FIG. 5 is an auxiliary table for indirectly determining the angle of antetorsion of the head and neck of the femur.

 In FIG. Figure 6 shows the X-ray diffraction pattern of the hip joint with the contour of the Kirchner needle.

 In FIG. Figure 7 shows a photographic radiograph of the knee joint with the contour of the Kirchner needle.

 In FIG. Figure 8 shows the combined X-ray of the hip joint and the X-ray of the knee joint (reduced version).

 In FIG. Figure 9 shows the combined X-ray of the hip joint and the X-ray of the knee with marked lines for determining the angle of antetorsion of the head and neck of the femur.

 The method is as follows.

The patient is placed on an X-ray table on his back, the hip is bent strictly at 90 ^o With abduction at 15 ^o , the lower leg is bent at 90 ^o . An x-ray cassette is placed under the condyles of the thigh, a Kirchner needle is placed on the cassette at the level of the supracondylar zone so that it is oriented perpendicular to the longitudinal axis of the thigh, then another cassette is placed under the hip joint of the same leg, a Kirschner spoke is placed on the cassette, bringing it closer to the hip joint, so that it is located strictly parallel to the Kirschner spoke, laid on a cassette located under the condyles of the thigh. The parallel arrangement of the spokes is specified using a long ruler.

The tube of the x-ray apparatus is installed at the level of the hip joint along the mid-axis of the body. Perform x-ray of the hip joint in the anteroposterior projection with the inclination of the x-ray tube outward (in the direction of the hip joint from the middle axis of the body) at an angle of 15 ^o (Fig.6). Without changing the position of the leg, the x-ray tube is installed over the knee joint, the x-ray of the knee joint is made so that the direction of the x-ray tube is parallel to the longitudinal axis of the thigh and the posterior surface of the femoral condyles (Fig. 7). Get two x-ray (Fig. 8).

 Both X-ray images are combined so that the contours of the Kirschner spokes in both images exactly coincide (Fig. 9 (1)).

 The parallelism of the spokes allows you to accurately preserve the spatial relationship between the head and neck, on the one hand, and the femoral condyles, on the other hand, on X-ray images.

 Then, a transcondillar line is drawn through the femoral condyle (Fig. 9 (Aa)) and a line is drawn through the middle of the femoral neck (longitudinal axis of the femoral neck) (Fig. 9 (Bb)), and the true angle of head antetorsion formed when these lines intersect and the femoral neck (if necessary, restore the perpendiculars to these lines, and determine the angle formed by the intersection of the perpendiculars) (Fig.9 (2)).

Thus, the task is achieved by the fact that the patient is placed on an X-ray table on his back, the thigh is bent strictly by 90 ^o with the abduction 15 ^o , the lower leg is bent by 90 ^o , an x-ray cassette is laid under the condyles of the thigh, on which the Kirchner knitting needle is placed on the level of the supracondylar zone so that the spoke is oriented perpendicular to the longitudinal axis of the thigh, then under the hip joint of the same leg put another cassette on which the Kirchner needle is placed, bringing it closer to the hip joint so that it is positioned strictly parallel to the Kirschner spoke, placed on a cassette located under the condyles of the thigh, after which the tube of the X-ray device is installed at the level of the hip joint along the middle axis of the body and X-ray of the hip joint is performed in the anteroposterior projection with the x-ray tube tilted outward (in the direction of the hip joint ) at an angle of 15 ^o, then, without changing the position of the legs, X-ray tube mounted above the knee joint, produce X-rays of the knee so that n the X-ray tube was parallel to the longitudinal axis of the thigh and the posterior surface of the femoral condyles, after which both X-ray photographs were aligned so that the contours of the Kirchner spokes in both images coincided exactly, then a transcondillar line was drawn through the femoral condyles and a line was drawn through the middle of the femoral neck (longitudinal axis of the neck femur), and the true angle of anteversion of the femoral head formed at the intersection of these lines is measured.

 Sequential radiography of the hip joint and condyles of the thigh without changing the position of the limb and strict observance of the parallelism of the spokes placed on the cassettes, allow you to correctly save the spatial relationship between the head and neck on the X-ray photographs on the other side and the femoral condyles on the other side and accurately measure the angle of antetorsia with the head and the neck of the femur.

Claims (1)

A method for measuring the anteversion of the head and neck of the femur, which consists in radiography of the hip joint when the hip is bent 90 ^° and it is retracted outward, characterized in that the patient is laid on an X-ray shaft on his back, the hip is bent strictly by 90 ^o with the retraction of the outside by 15 ^o , the tibia is bent by 90 ^o , an x-ray cassette is placed under the condyles of the thigh, on which the Kirchner needle is placed at the level of the supracondylar zone so that the needle is oriented perpendicular to the longitudinal axis of the thigh, then under the hip joint of this the legs put another cassette on which the Kirschner knitting needle is placed, bringing it closer to the hip joint so that it is located exactly parallel to the Kirschner knitting needle, placed on the cassette located under the condyles of the thigh, after which the tube of the X-ray machine is installed at the level of the hip joint along the mid-axis of the body and perform x-ray of the hip joint in the anteroposterior projection with the inclination of the x-ray tube outward towards the hip joint from the middle axis of the body at an angle of 15 ^o , then, without changing the position of the leg, the x-ray tube is installed under the knee joint, the x-ray of the knee joint is made in such a way that the direction of the x-ray tube is parallel to the longitudinal axis of the thigh and the posterior surface of the femoral condyles, after which both X-ray photographs are aligned so that the contours of the Kirchner spokes in both images coincide exactly, then pass through the condyles hips transcondillar line and draw a line through the middle of the femoral neck - the longitudinal axis of the femoral neck, and measure formed at the intersection of these lines nd the true angle anteverzii head femoral neck.

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