SU1637798A1 - Appliance for surgical treatment of hyperopic astigmatism - Google Patents

Abstract

The invention relates to medical technology, in particular to ophthalmic devices for the surgical treatment of an eye with hypermetrical astigmatism by exposure to laser radiation. The purpose of the invention is to improve the accuracy of obtaining a given shape of the surface of the cornea with the simultaneous formation of the entire flux of radiation and reducing the time of treatment. The device contains an ultraviolet pulsed laser 1, case 2, the element i 13 enclosed in it (L 05 with 4 J СО 00

Description

converting the laser in the form of two cylindrical telescopic lenses 3 and 4 in the frames 5 and 6, which can rotate relative to each other, absorbing medium 7 and channels 8 for circulating this medium. The inner surfaces of the lenses 3 and 4 are I

16377984

2nd-order concave cylindrical surfaces. The impact of the radiation beam 11 on the cornea 12 of the eye 13 leads to photo-evaporation of such a layer of the cornea, the removal of which is necessary for the correction of vision. 1 il.

The invention relates to medical technology, in particular, to ophthalmic devices for the surgical treatment of the eye with hyperopic astigmatism by exposure, laser radiation.

The purpose of the invention is to improve the accuracy of obtaining a given shape of the surface of the cornea while at the same time forming the entire flow of treatment and reducing the time of treatment.

The drawing shows the device, General view.

The device contains an ultraviolet pulsed laser 1, a housing 2, a laser radiation conversion element enclosed in the housing 2 in the form of two cylindrical telescopic lenses 3 and 4 in the frames 5 and 6, which can rotate relative to each other / each around the axis of the laser beam, absorbing medium 7 (gas or liquid) and channels 8 for circulating the absorbing medium. The inner surfaces of the lenses 3 and 4 are of the 2nd order concave cylindrical surfaces.

The device works as follows

A parallel radiation beam 9 emerging from the laser 1 with a uniform distribution of the energy density over the beam cross section passes through the lens 3 and the parallel beam 10 passes through the space between. lenses 3 and 4. Due to the fact that the thickness of the layer of the medium 7 is not constant across the cross section, the absorption of radiation in the medium 7 leads to an uneven attenuation of the radiation so that the parallel beam 11 of radiation that passes through the lens 4 has an uneven distribution of density

energy with two planes

symmetry. The shape and parameters of this energy density distribution are determined by the shape of the inner surfaces of the lenses 3 and 4, the absorption coefficient of the medium 7, which depends on

the pressure of the absorbing gas or when using a liquid medium, depending on the concentration of the solution, as well as the angle between the main planes of the lenses 3 and 4, which can vary

in the range from zero to If / 2. The impact of the radiation beam 11 on the cornea 12 of the eye 13 leads to photo-evaporation of such a layer of the cornea, the removal of which is necessary for the correction

view.

Claims (1)

Apparatus of the Invention A device for the surgical treatment of hypermetropic astigmatism, comprising a UV pulsed laser, characterized in that, in order to improve the accuracy of obtaining a given shape of the surface of the cornea while simultaneously forming the entire radiation flux to reduce the treatment time, the transformation element is made in the form of two cylindrical telescopic lenses, the inner surfaces of which are concave cylindrical surfaces of the second order, the lenses being enclosed in the frames with the possibility of their rotation relative to each other around the laser beam axis and measuring the angle between the main planes of the lenses in the range from zero to ff / 2, while the space between the lenses. filled with a laser absorbing medium associated with channels for its circulation is made in the housing.