RU2695894C2 - Method for pre-radial knee joint topometry for orthovoltage x-ray therapy in degenerative-inflammatory diseases - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to radiation therapy, and can be used for pre-radial topometry of knee joint for carrying out orthovoltage X-ray therapy in degenerative-inflammatory diseases. Computed tomography is performed to determine a topography of articular clefts of the knee joint and a depth of administering the dose with a scanning interval of 1.25–2.5 mm. That is ensured by first placing the patient on the right side and then on the left side. Knee flexion angle 10–15°. Maximum width of the joint space for patellofemoral and thybofemoral joints for the medial and lateral sides is determined on the scans. For patellofemoral joint, a line is drawn along its articular surfaces and distance AB is calculated from point A located on skin surface to point B located in the centre of patellofemoral joint at maximum depth. To control subsequent laying, perpendicular to table surface is made from point B and distance BC is measured, where C is point on table surface. Line perpendicular to the lateral surface of the skin is drawn through a point E located at the centre of the tybio-femoral articulation at the maximum depth for the tybio-femoral articulation, and the distance DE from the point E to the point D on the skin surface is calculated. To control subsequent laying, perpendicular to table surface is made from point E and distance EF is measured, where F is point on table surface. Marking is applied from the medial and lateral sides on skin in points A and D for both joints. Obtained marking is used for orthovoltage X-ray therapy in degenerative-inflammatory diseases.

EFFECT: method ensures compliance with quality assurance of radiation therapy according to international recommendations (ESTRO, 2008, 2015) and national guidelines, significant reduction of radiation load on adjacent tissues and organs, accurate reproduction of stacking in each session of irradiation for a short period of time and control of laying accuracy during each session by creation of algorithm for determination of topography of articular joints of knee joint and depth of dose supply.

1 cl, 6 dwg

Description

The technical field to which the invention relates. The invention relates to medicine, namely to radiotherapy for conducting sessions of orthovoltage x-ray therapy for the treatment of non-tumor and degenerative inflammatory diseases of the knee joint.

The level of technology. To conduct a radiation therapy session, a certain styling is necessary, which allows you to bring the maximum dose to the target organ with minimal exposure to surrounding tissues. Laying must meet the following requirements: reproducibility, non-invasiveness, convenience for the patient.

It is known that for radiation therapy, pre-radiation preparation is first performed on a computed tomography scanner using a fixing device, which will then be used for each installation on radiation therapy.

A feature of conducting orthovoltage x-ray of the knee joint is its styling. So, radiation sessions are carried out only when the limb is lying on its side from two opposite fields so that the x-ray beam passes through the widest part of the joint space, which is achieved by easily bending the lower limb in the knee joint by 10-15 ° (Kishkovsky A. N., Aleksandrov S.N., Dudarev A.L. Radiobiological aspects and clinical principles of radiation therapy of non-tumor diseases. M, 1981. P. 7-11.). In the description of the original technique for knee joint irradiation, it was proposed to irradiate the medial and lateral radiation fields with an area of 6 × 8 cm or 8 × 10 cm (Kishkovsky A.N., Dudarev A.L. Radiation therapy of non-tumor diseases. M .: Medicine, 1977, p. . 119, 125). However, there is no indication of the centering of the X-ray beam, although the authors indicate its special role in the irradiation process (see ibid., P. 118).

When irradiating according to the standard method from the medial and lateral fields, there is no definite centering of the beam, however, in the knee joint with flexion of the joint to 10-15 °, two joint spaces can be distinguished, each of which can be centered in the beam - this is the joint space of the patellofemoral joint and the tibiofemoral joint . Depending on the clinic and the radiological changes in one or another department of the knee joint, it is necessary to center on one of the two joint spaces presented. When conducting a classic x-ray laying of a knee joint in a lateral projection, the angle of flexion in the knee joint is not fixed (Kishkovsky A.N., Tyutin L.A. Esinovskaya G.N. Atlas of styling during X-ray studies, Leningrad, Medicine, 1987, p. 382 383). Images of the medial and lateral condyle of the femur are superimposed on each other, images of the condyles of the tibia are also summed up and their visualization separately is impossible. The medial and lateral intercondylar tubercles are also superimposed on each other and are presented in the form of one small protrusion facing upward. Due to the peculiarities of the received image on the lateral radiograph, as well as poor visualization of the tibiofemoral articulation, projection distortion, it is very difficult to determine the optimal depth for centering the beam during x-ray therapy.

The possibilities of modern topometry allow not only to bring out the projection of the joint space on the skin surface, but also to determine the optimal depth for dose adjustment. To date, during orthovoltage x-ray therapy, preradiation topometry has not been performed.

The essence of the invention consists in a new method for conducting preradiation topometry of the knee joint for orthovoltage x-ray therapy for degenerative inflammatory diseases. For this, it is necessary to take into account the topography of the patellofemoral and tibiofemoral joints of the knee joint and calculate the summing of the radiation dose at the optimum depth. For this patient, they are laid sequentially on the first right and then on the left side, the bending angle in the knee joint is 10-15 °; when performing topometry, a series of slices is obtained on a specialized computer tomograph with a scan step of 1.25-2.5 mm.

To determine the topography of the joint spaces of the knee joint and calculate the optimal depth of dose, determine the scans with the maximum width of the joint spaces separately for patellofemoral and tibiofemoral joints. For the patellofemoral joint, the distance AB is calculated (parallel to the x-ray beam, along the path of the patellofemoral joint gap from the surface of the joint to its center, where A is the point located on the surface between the patella and the femur, and B is the point located in the center of the patellofemoral joint maximum width) corresponding

optimal depth for irradiation of the patellofemoral joint. To control subsequent laying, it is necessary to measure the distance of the aircraft — to the table surface from point B of the center of the patellofemoral joint. The same measurements are carried out separately for the medial (Fig. 1) and lateral (Fig. 2) side. On the skin at the points of the selected scans, markings are applied from the medial (Fig. 3) and lateral (Fig. 4) sides.

To calculate the dose adjustment depth for the tibiofemoral joint, scans with the maximum width of the joint space (along the lateral topogram) are selected, the location of the menisci with a scan thickness of 1.25 mm serves as a guide on the scans (Fig. 5).

For the tibiofemoral joint, the distance from the joint surface D to the center point of the joint space E, determined on the corresponding scan (Fig. 6), corresponding to the optimal depth for irradiation of the tibiofemoral joint, is calculated. To control subsequent laying, it is necessary to measure the distance EF - to the table surface from the point of the center of the tibiofemoral joint E. These same measurements are carried out separately for the medial and lateral sides. On the skin at the points of the selected scans, markings are applied from the medial and lateral sides, by analogy with the patellofemoral joint.

The optimal depth for calculating the administered dose when irradiating the patellofemoral and tibiofemoral joints of the knee joint is their centers, that is, points B and E, respectively.

Orthovoltage X-ray therapy, carried out with proper and stable limb immobilization, taking into account the calculation of individual doses, allows observing the quality guarantees of radiation therapy in accordance with international recommendations (ESTRO, 2008, 2015) and national guidelines. This allows you to significantly reduce the radiation load on adjacent tissues and organs by reducing the volume of GTV, as well as accurately reproduce styling at each irradiation session for a fairly short period of time and to control the correct styling at each session by calculating the corresponding distances (BC and EF).

Bibliography

1. Kishkovsky A.N., Aleksandrov S.N., Dudarev A.L. Radiobiological aspects and clinical principles of radiation therapy of non-tumor diseases. M., 1981. S. 7-11.

2. Kishkovsky A.N., Dudarev A.L. Radiation therapy of non-tumor diseases. M .: Medicine, 1977, 176 p.

3. Kishkovsky A.N., Tyutin L.A., Esinovskaya G.N. Atlas of styling during x-ray studies, Leningrad, Medicine, 1987, 520 p.

4. Tarutin I.G., Khoruzhik S.A., Chizh G.V. X-ray computed tomography quality control protocol, Minsk, 2006

5. ESTRO, 2008, 2015

Claims (1)

A method for conducting preradiation knee topometry for orthovoltage x-ray therapy for degenerative inflammatory diseases, including computed tomography with determination of the topography of the knee joint gaps and dose depth with a scanning step of 1.25-2.5 mm; for this, the patient is laid sequentially first on the right side, then on the left side; bending angle in the knee joint 10-15 °; the scans determine the maximum width of the joint space for the patellofemoral and tibiofemoral joints separately for the medial and lateral sides; for the patellofemoral joint, draw a line along its articular surfaces and calculate the distance AB from point A located on the skin surface to point B located in the center of the patellofemoral joint at maximum depth; to control subsequent stackings, a perpendicular is drawn to the table surface from point B and the distance VS is measured, where C is a point on the table surface; for the tibiofemoral joint, draw a line perpendicular to the lateral surface of the skin through point E located in the center of the tibiofemoral joint at maximum depth, and calculate the distance DE from point E to point D located on the skin surface; to control subsequent laying, a perpendicular is drawn to the table surface from point E and the distance EF is measured, where F is a point on the table surface; marking from the medial and lateral sides is applied to the skin at points A and D for both joints and ortovoltage x-ray therapy for degenerative inflammatory diseases is performed according to the obtained marking.

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