RU2197924C1 - Spectral vision correction method for treating initial optical eye media opacity - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves spectacle-added vision correction using colored lenses of predefined spectral properties absorbing short wave portion of visible light in dosed way in bandwidth to 380 nm not less than 99%, to 55-60% in bandwidth of 380-520 nm and to 10- 25% in bandwidth above 520 nm. EFFECT: improved visual image formed on the retina. 6 tbl

Description

 The invention relates to ophthalmology, and in particular to methods for correcting visual functions.

 A known method of optical vision correction is the use of corrective spectacle lenses. However, this method of optical correction does not allow to compensate for the loss of vision associated with the clouding of optical media.

 The closest in technical essence correction method is the use of sun-protection lenses (GOST 21306-81), used for partial central opacities of the lens, in order to improve vision by reducing the amount of visible light entering the eye and, as a result, dilating the pupil, which allows to the patient to see surrounding objects through peripheral, relatively transparent, zones of the lens [1].

 However, the disadvantage of this method is that it does not allow to increase the visual function of the eye with diffuse opacities of the optical media of the eye, and its use is effective only with central opacities of the lens. In addition, the use of these lenses is not optimal also because they have excess light transmission in the range of 350-420 nm, which is dangerous for eye structures.

 The aim of the invention is to improve the visual functions of patients with initial clouding of the optical media of the eye.

 The essence of the invention lies in the fact that in the method of optical vision correction, providing spectacle correction with colored lenses, use lenses with specified spectral characteristics, dosed absorbing the short-wavelength part of visible light in the range up to 380 nm - at least 99%, in the range 380-520 nm - up to 55-60% and in the range over 520 nm - up to 10-25%.

 The technical result achieved by the method is based on improving the quality of the visual image on the retina by suppressing the blue part of the visible spectrum, which erodes the image contours due to increased light scattering and chromatic aberration. In addition, the reduction in the amount of light with a wavelength shorter than 380 nm, achieved with used lenses, reduces the light load on the cataract lens, which absorbs light in this range, which is dangerous for it.

 The specific values of the transmittance of the lenses for the implementation of the proposed method are taken based on the data on the transmission spectra of natural lenses, which in themselves dosedly suppress the blue part of the spectrum and near ultraviolet radiation. An analysis of the spectral characteristics of natural lenses shows quite clearly that the use of lenses that are less light filtering visible light than a natural lens cannot be effective enough, and vice versa lenses that absorb light excessively compared to the lens noticeably change the normal levels of excitation of the three types cones and thus color perception and visual comfort of a person.

 Therefore, the lenses used to implement the proposed method in the visible part correspond to the transmission spectra of the lenses of the elderly and the elderly, where in the range of 380-520 nm the transmittance is on average 40-45% and over 520 nm - 75-90%. In the range of near-ultraviolet radiation, which is potentially dangerous for the lens of the eye, attenuation of light by 100 times is sufficient, i.e. up to 1%.

 According to clinical trials of the proposed method using these lenses in patients with initial cataracts, an increase in central visual acuity is observed (Table 1) as compared to the norm of this patient without the use of any filters, and in comparison with the method selected as a prototype. Here and in the future, the prototype method was reproduced using the widespread UVIC-TS lens, manufactured in 1991 at the Izyum Optical and Mechanical Plant in accordance with GOST 21306.

 According to the table. 1, the proposed method, based on improving the quality of the image on the retina by reducing the amount of light in the blue part of the spectrum, gives slightly better results in compensating for visual acuity loss in patients with initial cataract than in the case of the method for initial nuclear cataract, where the image quality on the retina increases due to the use of the edge zones of the lens during pupil dilatation caused by the use of simply darkened lenses.

 According to measurements of contrast sensitivity in the same patients (table 2), the proposed method is significantly more effective than the prototype method.

 The scope of the proposed method is significantly wider than the scope of the method selected as a prototype. This can be illustrated by the following examples.

 Example 1. Changes in contrast sensitivity with cloud-like clouding of the cornea (table 3).

 Example 2. Contrast sensitivity with opacification of the vitreous body (table 4).

 Example 3. Changes in contrast sensitivity with artificial opacities, modeled in healthy people with the help of light-scattering glasses, reducing visual acuity to values of 0.4-0.6 (table 5).

 A distinctive feature of the invention is the use of lenses with predetermined light transmission coefficients in the ultraviolet and visible ranges.

 Table 6 shows comparative data on the transmittance of the lenses used in the proposed method and sun-protection lenses, standardized by GOST 21306.

 A comparison of the spectral characteristics of the lenses shown in Table 3 shows that the lenses used according to the proposed method allow not less than 20 times, compared with lenses GOST 21306, to reduce the amount of light in the damaging range shorter than 380 nm, which provokes and accelerates the development cataract.

 The proposed method of vision correction, which allows to improve the resolution of the eye and protect it from photo damage, is effective for any initial clouding of the optical media of the eye, and the tables and examples show the sufficiency of these data to solve the problem of optical vision correction and improve visual functions.

Sourse of information
1. Rosenblum Yu.Z. Optometry. M .: Medicine, 1991.

Claims (1)

 A method for spectral correction of vision at initial opacities of the optical media of the eye, comprising spectacle correction with colored lenses, characterized in that lenses with predetermined spectral characteristics are used, dosing absorbing the short-wavelength part of visible light in the range up to 380 nm of at least 99%, in the range of 380-520 nm - up to 55-60% and in the range over 520 nm - up to 10-25%.

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