RU122863U1 - DEVICE FOR DETERMINING THE POSITION OF THE EYEBALL IN THE ORBIT - Google Patents

Abstract

1. A device for determining the position of the eyeball in the orbit, containing a measuring scale with two bases, characterized in that the measuring scale is located in a vertical plane with the indicated center in its middle and a circle with a diameter of 12 mm, both bases are movable relative to the measuring scale, for fixing the bases set screws are used. 2. The device according to claim 1, characterized in that the measuring scale is made of durable, shock-resistant, transparent organic glass.

Description

The utility model relates to medicine, and more specifically to ophthalmology and maxillofacial surgery, and is intended to determine the position of the eyeball in the orbit in the vertical plane during fracture, fractures of the lower wall of the orbit, due to trauma, or during plastic surgery on the lower wall of the orbit after removal of various types of tumors to eliminate deformation of the facial skeleton.

A known method for determining the position of the eyeball in the orbit using the data of x-ray examination of the bones of the facial skeleton, which consists in determining the position of the eyeball in the orbit using a millimeter ruler (1).

The disadvantage of this method is its use only as a stage of pre- and postoperative diagnostics, without the possibility of application during the operation for more accurate correction of the position of the eyeball in the orbit; significant subjectivity of the method; study duration; asymmetrical head styling, resulting in significant image distortion of various anatomical structures (2).

There is a method of determining the position of the eyeball in the orbit using computed tomography data, which consists in the following: on an arbitrary axial or frontal section, on which both eyeballs are displayed, a horizontal line is drawn in any section that intersects both images of the eyeballs. Chords measuring from the outer to the inner borders of each eyeball are measured along this horizontal. The height of the segments is also measured by the anterior borders of the eyeballs extending from the chords. The magnitude of the displacement of the eyeball is determined by the formula:

where | ε | - the absolute value of the displacement (mm);

a ₁ - the size of the chord of the slice of a healthy eyeball on the tomogram (mm);

a ₂ - the size of the chord of the slice of the displaced eyeball on the tomogram (mm);

h ₁ - the height of the slice segment of a healthy eyeball on the tomogram (mm);

h ₂ - the height of the slice segment of the displaced eyeball on the tomogram (mm) (3).

The disadvantage of this method is its use only as a stage of pre- and postoperative diagnostics, without the possibility of application during the operation for more accurate correction of the position of the eyeball in the orbit; laborious; economically costly; possible errors associated with improper head styling, and errors arising from improperly selected technical conditions for the study. These errors lead to a distortion of the idea of anatomical and topographic relationships in the studied area, as well as to the appearance of various kinds of artifacts that impede or exclude the possibility of a clinical interpretation of the obtained images (2).

A device for determining the position of the eyeball, the external parameters of the eye socket and adnexa, containing the base with the first scale, made in the form of a support plate, mounted with direct contact with the upper edges of the orbit, the “zero” of the first scale is aligned with the center of the nose bridge, on the plate additionally fixed measuring device, made in the form of a system of two levers, between which there is a second scale mounted at an angle to each other with the possibility of their interaction Nogo move relative to each other in two mutually perpendicular planes, wherein one of the levers made L-shaped, the free end of which is mounted movably along a second scale (4).

The disadvantage of this device is the difficulty in determining the position of the eyeball in the eye socket relative to a vertical plane, i.e. the device can measure the “retraction” or “prominence” of the eyeball or prosthesis, as well as the position of the upper eyelid and the symmetry of the location of the eye structures relative to the midline of the face.

A device for determining the position of the eyeball in the orbit is known - an exophthalmometer designed to detect the degree of retention of the eyeball from the orbit, containing two bases connected by a measuring scale, the right base being integral with the measuring scale, and the left base can move freely with clips on a measuring scale. The measuring scale is located in the frontal plane, made of steel alloy. At each base is a quadrangle. In each quadrangle there are two intersecting mirror plates placed at an angle of 45 ° to the visual axis of the eye, and a millimeter scale. In the upper inner corner of each quadrangle there is a small semicircular recess that serves to fix the device at the outer edge of the orbit walls (5). This device is taken as a prototype.

The disadvantage of this device is the inability to determine the position of the eyeball in the eye socket relative to the vertical plane, there is no certain center in the middle on the measuring scale, the movable base is not fixed by the locking screw, depending on the slightest deviation of the examining doctor to the side, the angle at which the millimeter ruler is visible, Also, the patient himself can take his eyes to the side, so different measurement results are obtained in the same patient by different doctors. The inability to use the device in the absence of integrity of the outer wall of the orbit.

The purpose of creating a utility model is to develop a device for determining the position of the eyeball in the orbit.

This goal is achieved by the fact that the measuring scale is located in a vertical plane, with the indicated center in its middle and a circle with a diameter of 12 mm, both bases are movable relative to the measuring scale, locking screws are used to fix the bases; The measuring scale is made of durable, impact-resistant, transparent organic glass.

The utility model is illustrated by graphic material, which shows the proposed device.

Comparison of the proposed device with others known in the field of medicine, showed its compliance with the criteria of a utility model.

The proposed device consists of two bases 1, 2 connected by a measuring scale 4. Their mutual fixation is carried out by locking screws 3.

The bases 1 and 2 are designed to install the device on the upper and lower walls of the orbit. The supporting surface of the bases 1 and 2 reproduces the profile of the upper and lower walls of the orbit, respectively. Measuring scale 4 is made of durable, impact-resistant, transparent organic glass. A millimeter ruler with a center in its middle 5 and a circle with a diameter of 12 mm corresponding to the diameter of the iris of the eyeball 6 with a radial scale is plotted on the surface of the measuring scale 4. Measuring scale 4 is designed to determine the position of the center of the pupil relative to the orbit. The connection of the bases 1 and 2 with a measuring scale 4 is made using the locking screws 3.

A device for determining the position of the eyeball in the orbit is used as follows.

The base 1 is installed on the upper wall of the orbit with an inner edge at the exit point of the first branch of the trigeminal nerve. The base 2 is installed on the lower wall of the eye socket parallel to the base 1. We place the eyeball in the correct position, directly, so that the center of the pupil coincides with the center 5, indicated on the measuring scale 4, the iris with the designation 6 on the scale 4. Fix the bases 1 and 2 with measuring scale 4 using the locking screws 3. We measure the height of the entrance to the orbit relative to the eyeball. We make similar measurements on the displaced eye. The difference between the indicators is equal to the degree of displacement of the eyeball in the vertical plane.

The proposed device is advisable to use in ophthalmology departments and departments of maxillofacial surgery of medical institutions. The device is simple in design and use and also reliable in operation. Its use increases the efficiency of plastic surgery on the orbit, eliminates hypo- or hypercorrection of the position of the eyeball in the orbit.

Information sources:

1. Lezhnev D.A. "Radiation diagnosis of traumatic injuries of the maxillofacial region." Diss. DMN, M. 2008;

2. Kishkovsky A.I., Tyutin L.A., Esinovskaya G.N. Atlas of styling during x-ray studies. Leningrad, 1987. p. 127-134, 208-210;

3. Karayan A.S. "The simultaneous elimination of post-traumatic defects and deformations of the cheekbone-orbital complex." Diss. DMN, M. 2007 (patent No. 2275842, class A61B 3/00, A61F 9/00, 2004);

4. Patent No. 2173081, cl. A61B 3/10, 2001

5. Copyright certificate for the invention No. 43126, class. 30a, 4, 1935

Claims (2)

1. A device for determining the position of the eyeball in the eye socket, containing a measuring scale with two bases, characterized in that the measuring scale is located in a vertical plane with a specified center in its middle and a circle with a diameter of 12 mm, both bases are movable relative to the measuring scale, for fixing the bases locking screws are used. 2. The device according to claim 1, characterized in that the measuring scale is made of durable, impact-resistant, transparent organic glass.