SU1637795A1 - Laser device for surgical treatment of ametropia - Google Patents

Abstract

The goal is to increase the smoothness of the surface of the treated cornea and to reduce the time of the operation by simultaneously affecting the entire part of the cornea to be treated. The device contains a pulsed laser 1 of ultraviolet radiation, for example, a chimeric, body 2, which converts optical radiation in the form of two. of telescopic menisci 3 and 4, absorbing medium 5 in the form of gas or liquid, channels 6 in housing 2 for connection with the circulation system of absorbing medium 5 "1 or 0" (L a C i i i co

Description

The invention relates to ophthalmology, is intended for correcting ametropia and can be used in other areas, for example, for processing materials.

The purpose of the invention is to increase the smoothness of the surface of the treated cornea and reduce the time of the operation by simultaneously affecting the entire part of the horn that is being treated.

The drawing shows the device, the general view "

The device contains a pulsed laser of the ultraviolet range 1, housing 2, an optical radiation converter in the form of two telescopic menisci 3 and 4, an absorbing medium 5 in the form of gas or liquid,. 20 canals 6 in housing 2 for connection with the circulation system of the absorbing medium 5.

The device is used with the following brass.

A parallel uchka leaving the laser 1 with a uniform distribution of intensity passes through the telescopic meniscus 3, while a parallel beam passes the space between the menisci 3, 4 filled with absorbing medium 5, because the thickness of the medium layer, for example, increases from the center to the edges of the beam; the absorption of radiation in medium 35 increases from the center to the edges of the beam. Consequently, a parallel beam of light passing through the meniscus 4 has an axisymmetric energy distribution, which is determined by the shape 40 of the meniscus surfaces 3, 4 and the absorption coefficient of the medium 5, the absorption coefficient may vary, for example, by changing the pressure of the absorbing gas or the concentration of the solution fluid.

At certain values of the parameters of the energy density distribution element in the output beam, it can be described, in particular, by the equation of a paraboloid of rotation. A beam of radiation falls on the cornea of the eye. The effect of far ultraviolet (UV) radiation on biological tissues leads to photoablation (photo evaporation) of the latter, and in a certain range of radiation energy density the layer being removed is proportional to the energy density. When a beam with a parabolic distribution with a maximum on its axis interacts, the cornea is removed the layer bounded by two parabolic surfaces of rotation, one of which is the original surface of the cornea, L and the second - the surface of the cornea after exposure UV radiation. When a certain amount of exposure myopi will be eliminated.

Claims (1)

Invention Formula A laser device for the surgical treatment of ametropia, containing a pulsed ultraviolet laser, after which an optical radiation converter enclosed in a housing is installed, distinguished by the fact that, c. The goal is to increase the smoothness of the treated cornea's surface and reduce the time of the operation by simultaneously affecting the entire part of the cornea to be treated. The optical radiation converter consists of two telescopic meniscuses, the space between which is filled with laser-absorbing gas or liquid and connected to the circulation system.