RU2157150C1 - Method for determining artificial eye lens center displacement degree - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: method involves determining meridian of artificial eye lens center deviation by means of ocular measurement grid. The grid is set to enable its rotation about the axis made coincident with optical axis of the ocular. The ocular is placed into optical system of biomicroscope. Eye lens deviation degree is evaluated by the number of divisions of measurement grid scale between the light reflection signals from anterior cornea surface and anterior artificial eye lens surface, respectively. EFFECT: quantitative evaluation of center deviation degree and meridian of artificial eye lens deviation from optic eye axis. 1 dwg

Description

 The invention relates to medicine, and more specifically to ophthalmology, and can be used for implantation of an artificial lens of the eye (IHG) to quantify the degree of its decentration.

 A known method for a qualitative assessment of the degree of decentralization of ICH during biomicroscopic examination (Fedorov SN, Egorova EV "Errors and complications when implanting an artificial lens of the eye, M., 1992, 224 s). However, this method does not allow to determine quantitative IHG bias characteristics.

 The technical task of the invention is a quantitative assessment of the degree of decentration and the meridian of the displacement of IHG from the visual axis of the eye.

 The technical result is achieved by the fact that in the method for determining the degree of decentralization of the artificial lens of the eye by biomicroscopic observation of Purkinje reflexes from the front surface of the cornea and the front surface of the artificial lens of the eye, according to the invention, the meridian of decentration of the artificial lens of the eye is first determined using a measuring eyepiece network mounted with rotation around an axis aligned with the optical axis of an eyepiece placed in a biomicroscope optical system Pa, and the degree of decentering of the lens is judged by measuring the number of divisions of the scale grid, respectively between light reflections from the front surface of the cornea and the front surface of the artificial lens.

 The proposed method is illustrated in the drawing, which shows the layout and displacements of light reflexes at the centered and decentered position of the artificial lens of the eye.

 The method is as follows.

 The study is carried out on a slit lamp ShchL-2B.

In one of the eyepieces of the biomicroscope insert a measuring eyepiece OS, which is included in the instrument. The magnification of the microscope is adjusted to x18. In this case, the price of one division on the measuring grid of the eyepiece is 0.1 mm. The illuminator and the binocular microscope of the slit lamp are oriented along the visual axis of the eye, while the angle of rotation of the bracket of the binocular microscope to the illuminator will be 0 ^o . The patient is invited to look strictly at the light source with the studied eye. The width of the optical slit should be minimal. The researcher observes the emerging Purkinje light reflexes on the anterior surface of the cornea and IHG.

 When the IHG is centered (Fig. 1a), the Purkinje reflexes on the cornea 1 and the anterior surface of the IHG 2 coincide. When decentralized ICH (Fig. 16, c) there is a shift in the light reflex on the front surface of ICH 2 with respect to the corneal reflex 1. The measuring grid 3 of the eyepiece located on the line connecting both Purkinje reflexes allows measuring ICH decentration in mm and at the same time establish TAVO offset meridian in degrees.

 The method is illustrated by the following clinical example.

B-th A., 53 years old, came to the clinic with complaints of decreased vision and monocular double vision in the eye with implanted IHG. When researching the specified method revealed the decentration of the posterior IHG at 1.2 mm along the meridian of 120 ^o .

 Using this method allows you to quantify the meridian and the degree of displacement of IHG from the visual axis, which allows us to develop adequate methods for the prevention of decentralization of IHG.

Claims (1)

 A method for determining the degree of decentralization of the artificial lens of the eye by biomicroscopic observation of Purkinje reflexes from the front surface of the cornea and the front surface of the artificial lens of the eye, characterized in that the meridian of decentration of the artificial lens of the eye is first determined using a measuring grid of the eyepiece mounted with the possibility of rotation around an axis aligned with the optical axis of the eyepiece placed in the optical system of the biomicroscope, and the degree of decentration of the lens is judged by about the number of divisions of the scale of the measuring grid between light reflexes, respectively, from the front surface of the cornea and the front surface of the artificial lens.