RU2367385C1 - Method for analysing reserve and stability of relative accommodation - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to ophthalmology and aims at analysis of objective accommodation reserve and stability. The analysis of reserve and stability of relative accommodation includes measurement of dynamic refraction and accommodation tension by a binocular open-field ref-keratometer. A patient has a standard text #4 from a close table presented for two-eyed reading at the distance 33 cm in absolute far-vision correction. The procedure involves application of negative auxiliary spherical lenses of increase pitch 0.5 dioptres and simultaneous recording the dynamic refraction of each eye. The reserve of relative accommodation conforms the maximal auxiliary glass which provides dynamic refraction of each eye at least -2.5 dioptres while used for reading at the distance 33 cm. With using the same glass the patient continues reading within 3 minutes, then dynamic refraction of each eye is recorded again. The variation thereof enables to estimate stability of relative accommodation.

EFFECT: method ensures to objectify analysis of reserve and stability of relative accommodation of each eye.

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Description

The invention relates to ophthalmology and is intended for an objective assessment of the reserves and stability of accommodation of each eye with binocular fixation of an object.

The increased interest in the apparatus of accommodation is explained, first of all, by the exceptional importance of this apparatus in the visual act, by the extraordinary physiological peculiarity of this exact instrument for adjusting vision at different distances, and, finally, by the great role that accommodation plays in the mechanism of refractogenesis in solving optical correction problems vision and in the pathology of the visual system (Avetisov E.S. to the theory of the origin of myopia. Myopia: SB. scientific work. - M., 1974, p. 3-10; Dashevsky A.I. Myopia. L .: Medghiz, 1962 , p.148).

The main methods of study of accommodation in our country are the determination of relative reserves and volumes of absolute accommodation. The stock of relative accommodation is determined as follows. The patient with glasses fully correcting ametropia is offered to read text No. 4 from a near table from a distance of 33 cm, which corresponds to a visual acuity of 0.7. If he can read this text, then they begin to attach negative spherical lenses to both eyes at the same time, stepwise increasing their strength by 0.5 diopters. The strongest negative lens, with which reading is still possible, allows you to determine the magnitude of the relative accommodation margin (Avetisov ES, Shapovalov SL Methodology of a clinical complex study of accommodation. Method. Recommendations. M., 1976).

However, this method is subjective, because it is based on the responses of patients. Often it reveals only a gross deficit of accommodation, when evaluating the relative accommodation reserves, often overvalued indicators are obtained due to the difficulty of controlling convergence, binocular fixation and accommodation of each eye. In addition, the reduced sensitivity to defocusing the image, which is characteristic of people with myopia, is known, which makes it possible to read the presented text with much lower than normal accommodation costs.

There is a method of studying the performance of the ciliary muscle with its prolonged stress - ergography, which allows you to graphically record the degree of muscle fatigue (Zimkin N.V., Lebedinsky A.V. On the study of the active state of the accommodating muscle. In the collection devoted to the 45th anniversary of Professor V .N.Dolganova. L., 1936, p.143-152). However, this method is also based on the subjective responses of the patient, and the device for its implementation is not commercially available.

The task of simultaneous study of stocks and the stability of relative accommodation has never been set. Meanwhile, it is these indicators that are most important when reading.

The objective of the invention is to develop a method for the simultaneous study of reserves and the stability of relative accommodation.

The technical result of the proposed method is the objectification of the assessment of reserves and the stability of relative accommodation.

The technical result is achieved due to the fact that the objective accommodation response is measured under conditions of the maximum binocular load of accommodation near negative spherical lenses in conditions of fixed convergence, and the stability of accommodation is estimated by the change in the objective response after 3 minutes of continuous reading.

The method is as follows. All studies are performed using an “open field” automatic binocular ref keratometer, such as Grand Seiko WR-5100K. First, the patient is measured in the distance refraction (fixation target is located at a distance of 5 m). On the basis of the data obtained, spherical and cylindrical glasses are placed in the test frame, which completely correct the revealed refraction anomaly, and re-measure the distance refraction, which in this case is close to emmetropia. At a distance of 33 cm, text No. 4 is placed, which corresponds to a visual acuity of 0.7 tables for the near ones, an objective measurement of eye refraction is carried out under conditions of accommodation stress. It is known that for focusing an object at a distance of 33 cm, the refraction of the eye should correspond to a myopia of -3.0 diopters (focal length of the lens of -3.0 diopters = 100/3 = 33 cm). The corresponding accommodation voltage provides the normal necessary change in the dynamic refraction of the eye, bringing it closer to myopia at -3.0 diopters (Kolotov MG, The accommodative response to myopia and the possibility of its activation. Diss. Cand. Cand. Science. M., 1999) . The examiner inserts negative lenses of increasing strength into the lens holders, identical for both eyes, in increments of 0.5 diopters, checks to see if the patient can read the text, and takes measurements on an autorefractometer in parallel. Measurements are taken by each eye individually. Due to the additional accommodation voltage, dynamic refraction should remain at least -2.5 diopters. The study is conducted until objective dynamic refraction of each eye is maintained at least -2.5 diopters. Using the well-known method of step-by-step attaching of negative spherical lenses, the researcher focuses not on the patient’s response “see - I don’t see”, but on objective indicators of dynamic refraction. The value of the relative accommodation reserves is considered the maximum negative lens, when reading with which dynamic refraction remains at least -2.5 diopters.

The study of the stability of accommodation is carried out as follows. The patient continues to read the text under the maximum load of accommodation identified in the previous step. After 3 minutes of continuous and ongoing reading, objective refraction is re-determined. When the accommodation response changes, the stability of accommodation is evaluated.

Example No. 1.

Patient B., 10 years old. Diagnosis: mild OI myopia. Visual acuity into the distance without correction: OD = 0.2, 08 = 0.2. The nature of distance vision without correction and with correction from 5 m, 2.5 m and 1 m binocular, without dominance. The stock of relative accommodation, measured by the subjective method according to E.S. Avetisov, -2.0 diopters. 5 m refraction OD = -2.5 diopters, OS = -2.83 diopters. Maximum correction OD = -2.5 diopters, OS = -2.75 diopters. The accommodative response to 33 cm in the conditions of complete correction OD = -1.59 diopters, OS = -1.23 diopters. That is, there is a lag in accommodation, since the calculated refraction when reading at a distance of 33 cm should be at least -2.5 diopters. With a glass of -1.0 diopters, the accommodation response was OD = -2.57 diopters, OS = -2.84 diopters. With a glass power of -1.5 diopters, respectively -2.94 diopters and -2.89 diopters. With a glass of -2.0 diopters, respectively -2.59 diopters and -2.55 diopters. With a glass of -2.5 diopters, refraction is equal to OD = + 0.64 diopters and OS = + 0.32 diopters. That is, there is no accommodation response. The objective stock of relative accommodation in this case is -2.0 diopters. After 3 minutes of reading text No. 4 from the table for near at a distance of 33 cm with maximum correction and an additional load of -2.0 diopters, the accommodative response is OD = + 0.62 diopters, OS = + 0.35 diopters. There is no accommodation response.

Conclusion: The lag of accommodation, a decrease in its stability, the objective margin of relative accommodation is -2.0 diopters.

Example No. 2.

Patient A., 13 years old. Diagnosis: OH-myopia of a weak degree. Visual acuity into the distance without correction: OD = 0.5, OS = 0.6. The nature of vision in the distance without correction and with correction from 5 m, 2.5 m and 1 m binocular, leading right eye. The stock of relative accommodation according to E.S. Avetisov -3.5 diopters. 5 m refraction OD = -1.3 diopters, OS = -0.71 diopters. Maximum correction OD = -1.25 Dptr, OS = -0.75 Dptr. The accommodative response to 33 cm under conditions of complete correction OD = -2.0 diopters, OS = -1.79 diopters. That is, there is a lag in accommodation. With a glass strength of -1.0 diopters, the accommodation response was OD = -2.68 diopters, OS = -2.59 diopters. With a glass power of -1.5 diopters, respectively -2.56 diopters and -2.62 diopters. With a glass of -2.0 diopters, respectively -2.58 diopters and -2.65 diopters. With a glass of -2.5 diopters, refraction is equal to OD = -0.04 diopters and OS = + 1.82 diopters. That is, there is no accommodation response. The objective stock of accommodation in this case is -2.0 diopters. After 3 minutes of reading text No. 4 from the table for near at a distance of 33 cm with maximum correction and an additional load of -2.0 diopters, the accommodation response OD = -1.09 diopters, OS = -1.82 diopters.

Conclusion: the lag of accommodation, a decrease in its stability, the objective margin of relative accommodation is -2.0 diopters.

Thus, the proposed method provides a simultaneous objective study of reserves and sustainability of accommodation.

Claims (1)

A method for studying reserves and relative accommodation stability, including measuring dynamic refraction and accommodation voltage using an “open field” binocular ref-keratometer, with the patient being presented with standard reading No. 4 from a table for reading with two eyes from a distance of 33 cm under complete correction into the distance with a stepwise simultaneous attachment of negative additional spherical lenses of increasing force in increments of 0.5 diopters with the simultaneous registration of dynamic refraction of each eye, the maximum additional glass, when reading with which the dynamic refraction of each eye from a distance of 33 cm is not less than 2.5 diopters, corresponds to the value of the relative accommodation reserves, with the same glass the patient is offered to continue reading for 3 minutes, and then re-register dynamic refraction of each eye and its change assess the stability of relative accommodation.