SU1516111A1 - Method of working the artificial eye lens - Google Patents

Abstract

The invention relates to medicine, in particular to ophthalmology, and is intended to develop ways to increase the effectiveness of cataract treatment. The purpose of the invention is to approximate the optical properties of an artificial lens to a natural one. For this, prior to implantation, a dry lens is exposed to near-ultraviolet light using a mercury lamp at room temperature for 60-70 hours, with the maximum emission of the lamp in the range of 365 ± 40 nm wavelength, and the radiation power at 365 nm is 50- 100W / m ² . The invention makes it possible to impart to the lens a constant ability to absorb light of long-wave ultraviolet as well as short-wave visible spectral regions, to maintain the inertness of the lens in relation to other eye tissues, to protect the retina from damage caused by the light of the specified spectral region, and to limit postoperative complications. and also eliminate chromatic aberration and high gloss of the lens. 1 il.

Description

The invention relates to medicine, in particular to ophthalmology, and can be used in the surgical treatment of various types of cataracts.

The purpose of the invention is to approximate the optical properties of an artificial lens to the natural.

The drawing shows the absorption spectra of the shortwave and longwave ultraviolet regions of the spectrum (a - the artificial lens of Fedorov-Zakharov’s eye; b - the same lens after light treatment for 70 hours; ordinate — optical density in OD; abscissa — wavelength , them).

The treatment of the intraoral lens is carried out. Before processing, the refraction index (D) of the lens is 19, the norm on the standard resolution scale, and also on the “optical bench division not less than 100 lines in I mm. As can be seen from the absorption spectrum of the shortwave visible and longwave ultraviolet regions

lenses (curve a) the usual intraocular p-lens almost completely passes the entire near-UV light down to a wavelength of 350 nm. Then, the lens in a dry state is carefully set at a distance of 30 cm from the light source - the mercury lamp SVD-120 A. The maximum emission of the lamp is in the wavelength range of 365 ± 40 nm, and the radiation power at 365 nm is 60 W / M spent for 70 hours. By the 48th hour of processing, the lens had a yellowish color.

As can be seen from the UV absorption spectrum of the lens after this treatment (curve b) after irradiation, the lens begins to significantly absorb the light of the near UV region.

At 400 nm, the optical density of the lens began to be 1.021 units. OP After processing, the refractive index of the lens (D) remained equal to 19, at the same time the value of its resolution did not change. Acquired

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yellow color of the lens eliminates its bright shine. For this lens, the purity of the optical surface has not been compromised. Thus, after treatment, the intraocular lens acquires the ability to swallow near UV light.

When using the proposed method of processing an artificial lens of the intraocular Iris clip-lens acquires a constant ability to absorb the light of long-wave ultraviolet and short-wave visible spectral regions. During processing, no new chemical ingredients are introduced into the lens that can induce changes in metabolic reactions between artificial lens and its surroundings in the groove, as well as inertness. 1INZY in relation to other eye tissues. The proposed method of processing a lens does not lead to a violation of its optical characteristics: refraction, permitting its ability, transmission in the visible region of the spectrum. If standard conditions are met, a reduction in the optical lens surface can be avoided.

In addition, the use of intraocular lenses subjected to the proposed treatment in surgical practice can lead to a reduction in postoperative complications (cytoid retinal edema, sterile uveitis), limiting damage to the retina and other eye tissues by ultraviolet light, improving visual perception (eliminating chroma). aberrations) and bright lens shine) in aphactic patients.

The lens treatment procedure is simple, economical and can be performed directly in a clinical setting.

Claims (1)

Invention Formula The method of processing the artificial lens of the eye by dyeing the intraocular lens in a light yellow color is different in that, in order to approximate the optical properties of the artificial lens to the natural, a dry lens is irradiated with a light flux of 365 ± 40 nm at a power density 50-100 W / m on the surface of the lens for 60-70 h at room temperature. Optical density 2.0 -g 2.0 - 1.U