RU2145795C1 - Method of selection of type-size of hip joint total endoprosthesis - Google Patents

Abstract

FIELD: medicine, particularly, roentgenology and orthopedic surgery. SUBSTANCE: method includes making of roentgenograms of hip joint in rear and axial projections with radiopaque gauge. Type-size of endoprosthesis is selected on computer screen by method of computer graphics. In so doing, acetabular and femoral components of endoprosthesis are properly oriented. EFFECT: higher accuracy of selection. 2 dwg, 1 ex

Description

 The invention relates to medicine, namely to orthopedic surgery and can be used to select the necessary standard size of the total endoprosthesis from radiographs, as well as preliminary modeling of the positioning options of the acetobular and femoral components of the endoprosthesis.

 A thorough preoperative radiological assessment of the anatomical and functional state of the hip joints is an important and essential part of the planning of surgical equipment and includes a preliminary determination of the standard sizes and modeling of the spatial position of the components of the endoprosthesis.

 There is a method of determining the sizes of the total endoprosthesis by linear measurements of the acetabulum and the medullary canal of the femur from the x-ray taken in the rear projection (Demyanov V.M., Mashkov V.M., Shenderev V.A. - Methodical recommendations. - Total hip arthroplasty metal construction K.M.Sivash. - L., 1988, 23 pp.). However, the authors did not take into account the projection enlargement of the bone image by about 1.2 times in the x-ray taken at a focal length of about 100-105 cm, so the determined size of the total endoprosthesis will be inaccurate.

 Closest to the claimed invention is a method of selecting the size of the total endoprosthesis using special templates that are individually applied to the radiograph of the hip joint produced in the rear projection. The disadvantage of this method is, firstly, the inability to simultaneously reproduce the correct spatial orientation of the components of the endoprosthesis, since, as mentioned above, the patterns of the acetobular and femoral components are applied to the x-ray of the hip joint individually. Secondly, radiographs are required to use these templates. Thirdly, the selection of the size of the endoprosthesis is determined in one projection, namely in the rear (Howmedica. - Annual Product Catalog Supple Precision Hip System. -U.S.A., 1993).

 The essence of the invention consists in the simultaneous reproduction on radiographs in the posterior and axial projections of the correct spatial orientation of the acetobular and femoral components and the exact selection of the required size of the endoprosthesis. Unlike the prototype, this is achieved by the fact that on the radiographs of the hip joint in the posterior and axial projections, a contour model of the artificial joint is created by computer graphics.

 These distinctive features allow us to conclude that there is novelty in the proposed method.

 In the course of patent information research on this issue, it was not found, except for the prototype, solutions that have features similar to those claimed, which allows us to conclude that there are significant differences in it.

 The proposed method is as follows. Radiographs of the hip joint are performed in the posterior and axial projections with a radiopaque ruler. An x-ray image is inserted into the computer. On the screen of the monitor, the size of the femoral to acetabular components of the endoprosthesis is selected taking into account the true dimensions of the articular cavity and the diaphysis of the femur. In the x-ray image of the hip joint in the indicated projections, a graphic layout of the selected endoprosthesis is applied, the position of the femoral and acetabular components is individually changed, achieving their correct spatial orientation in the posterior and axial projections in the bones that form the hip joint (Scheme 1).

 In FIG. Figures 1 and 2 show a graphic layout of a selected endoprosthesis according to radiographs in the posterior and axial projections with the correct spatial position of the components.

 The proposed method allows you to accurately select the size of the total endoprosthesis and visually, on x-rays in the rear and axial projections, to reproduce the correct spatial orientation of the acetobular and femoral components. In addition, the proposed method allows to determine the level at which it is necessary to establish the acetobular component and the level of the osteotomy of the femur in order to correct the length of the limb, as well as to predict in advance possible technical difficulties that may arise during implantation of an artificial joint.

 Example 1. Computer simulation protocol (Scheme I).

 Date: October 26, 1995

Information about the patient:
Tigin L.V. 57 years old, 14 div.

 Selection of total endoprosthesis of the right hip joint.

Prosthesis:
Type of stem: PHOENIX.

 Cup Type: PHOENIX.

 Sizes (stem, neck, cup): 17-L-54.

Anteversion angle: 15 ^o .

Vertical correspondence angle: 92 ^o .

Sharpe angle: 40 ^o .

Prekts. Corner front. Inclinations: 73 ^o .

 Graphic layout of hip joint prosthesis selection.

Claims (1)

 A method for selecting the size of the total hip joint prosthesis from radiographs, characterized in that the exact selection of the standard sizes of the endoprosthesis and reproduction of the simultaneous correct spatial orientation of the acetobular and femoral components are carried out on the monitor screen using computer graphics based on the radiographs of the hip joint in the rear and axial projections X-ray contrast ruler, with the correct orientation of the components of the endoprosthesis.

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