RU2014040C1 - Method for estimation of artificial negative lens power - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method includes keratometric measurements, eye length determination and angle measurement of pattern stimulator element that provides the peak amplitude in evoked brain potential. Based on the data obtained, lenticular negative lens power is estimated according to the formula given in the description of the invention. EFFECT: increased accuracy. 2 dwg

Description

 The invention relates to medicine, and more particularly to ophthalmology, and can be used to determine the optical power of an artificial lens for each individual patient before surgery in order to increase the accuracy of calculation when implanting a negative artificial lens of the eye in patients with partial cataract and lesions of the central region of the retina in the absence of objective vision.

 The closest prototype is a method for determining the optical power of the pupil IOL for the emmetropic eye A.I. Kolinko.

где k - длина оси глаза, м;
L - глубина передней камеры, м;
Д(р) - преломляющая сила роговицы, дптр;
Д(ИОЛ) - оптическая сила ИОЛ;
n - показатель преломления переднекамерной влаги и стекловидного тела (1, 336).D (IOL) =

where k is the length of the axis of the eye, m;
L is the depth of the anterior chamber, m;
D (p) - the refractive power of the cornea, diopters;
D (IOL) - the optical power of the IOL;
n is the refractive index of anterior chamber moisture and the vitreous (1, 336).

 Using this formula, based on the length of the optical axis of the eye, the depth of the anterior chamber, and the optical power of the cornea, the optical power of a monofocal IOL calculated for emmetropia for each individual patient can be calculated.

 However, this method is not suitable for determining the optical power of a negative IOL and is not intended for patients with partial cataracts against the background of macular degeneration with a lack of objective vision, since in this group of patients it is not possible to reliably determine either the topography of the central scotoma or the topography of the fixation point. In connection with this, the question of the possibility and necessity of shifting the retinal image becomes insoluble.

 A negative lens can change the scale of the retinal image and thereby improve the visual functions of patients, but there is no reliable way to determine the optimal refractive power of artificial negative IOL in patients with no objective vision.

 The technical result obtained in the implementation of the proposed is the accuracy of calculating the optical power of the negative artificial lens of the eye of a patient with cataracts against the background of macular degeneration with a lack of objective vision.

The essence of the method lies in the fact that in the method for determining the refractive power of the artificial lens of the eye for patients with a lack of objective vision including keratometry, determining the length of the eye, according to the invention, for patients with partial cataracts against the background of macular degeneration, the angular size of the image elements on the pater stimulator is additionally measured, in which the maximum amplitude of the evoked potentials of the patient’s brain will be revealed and the calculation of the parameters of the negative intraocular lens is carried out according to the formula:
D (IOL) = 131.7 - 0.9 ˙ D (p) - 0.306 ˙ (L - -3.33) ˙ B - 2-5 ˙ L, where D (IOL) is the optical power of the intraocular lens, diopters;
D (p) - the refractive power of the cornea, in diopters;
B is the angular size of the element of the pattern stimulator, deg;
L is the length of the eye, mm

 These proportions are selected empirically.

 The proposed set of distinctive features determines the appearance of new properties in the solution: the accuracy of determining the optical power of the negative artificial lens of the eye increases significantly, and vision correction with negative artificial lenses of the eye of patients with cataracts against the background of macular degeneration becomes possible.

A method for determining the refractive power of an artificial lens of the eye in patients with a lack of objective vision is as follows: during a preoperative examination in patients with partial cataract, the presence of changes in the central retina is determined on the basis of clinical and functional studies. Patients undergo routine preoperative examinations: counting the density of the cells of the posterior epithelium, keratometry, ultrasound biometry using the a-method (determination of the PZO of the anteroposterior axis of the eye), examination of the visual field, static perimetry through 1 degree within 30 degrees in order to reliably determine the topography of the fixation point of the patient (by the location of the blind spot), and if the lack of objective vision does not allow to reliably determine either the size of the central scotoma or the location of the fixation point, then the angular p the size of the image elements on the pater-stimulator at which the maximum amplitude of the evoked potentials of the patient’s brain and the parameters of the negative intraocular lens are calculated using the formula;
D (IOL) = 131.7 - 0.9 ˙ D (p) - 0.306 ˙ (L - -3.33) ˙ B - 2.5 ˙ L, where D (IOL) is the optical power of the intraocular lens, diopters;
D (p) - the refractive power of the cornea, diopters;
B is the angular size of the element of the pattern stimulator, deg;
L is the length of the eye, mm

 To change the angular size of image elements, the Pater-Stimulator device or spatial contrast sensitivity tests such as a computer display are used.

The Pater-Stimulator device was used, the pater color of which varies over the entire range. The angular size of image elements is from 1 min to 7 deg. Contrast from values tending to 0% to 100%. Brightness of 115 cd / m ^2.

 During surgery, a typical cataract extraction is performed with IOL implantation.

 Thus, the use of this method allows to increase the accuracy of implantation of a negative artificial lens of the eye in patients with a lack of objective vision.

 The method for determining indications for implantation of a negative IOL was tested in 22 eyes of 11 patients with cataracts against the background of macular degeneration.

 PRI me R 1. Patient N., 76 years old, diagnosed with almost mature cataract of the right eye, immature cataract of the left eye, age-related macular degeneration of both eyes. Before surgery, visual acuity of the right eye = correct light projection, left eye = 0,01. Both eyes are not corr.

 03/29/91. Studies on the right eye: keratometry and determination of the length of the eye.

 Reliable determination of the sizes of the central scotoma and the topography of the fixation point is impossible due to the lack of objective vision.

Additionally, the angular size of the image elements was measured, at which the maximum data of the evoked potentials of the patient's brain were revealed (2 degrees). Next, the calculation of the parameters of the negative intraocular lens according to the proposed formula
D (IOL) = 131.7 - 0.9˙ D (p) - 0-306˙ (L - -3.33) ˙ B - 2.5˙ L where D (IOL) is the optical power of the intraocular lens, di ;
D (p) - refractive power of the cornea 44.0 diopters;
In - the angular size of the element patern stimulator 2 deg;
L - eye length 22.0 mm

 D (IOL) = 131.7 - 0.9˙44.0 - 0.306˙ (22.0 - -3.33) ˙ 2 - 2.5˙ 22.0.

 D (IOL) = 131.7 - 39.6 - 11.42604 - 55.

 D (IOL) = 25.67395.

 Thus, the absolute value of the refractive power of the negative artificial lens of the eye is 25.67395.

 04/01/91. The patient underwent cataract extraction with implantation of a negative IOL with an optical power of 25.5 diopters.

 The operation and the postoperative period without complications.

 04/08/91. Visual acuity of the right eye = 0.8 without correction. Front camera of medium depth. Seams are wealthy.

 PRI me R 2. Patient U., 68 years old, diagnosed with almost mature cataract of both eyes, senile macular degeneration of both eyes. Before surgery, visual acuity of the right eye = correct light projection, left eye, = 0.04. Both eyes are not corr.

 02/15/91. Studies on the right eye: keratometry and determination of the length of the eye.

 Reliable determination of the sizes of the central scotoma and the topography of the fixation point is impossible due to the lack of objective vision.

Additionally, the angular size of the image elements was measured, at which the maximum data of the evoked potentials of the patient's brain were revealed (4 degrees). Next, the calculation of the parameters of the negative intraocular lens according to the proposed formula
D (IOL) = 131.7 - 0.9 ˙ D (p) - 0.306 ˙ (L - -3.33) ˙ B - 2.5 ˙ L where D (IOL) is the optical power of the intraocular lens, diopters;
D (p) - refractive power of the cornea, 43.5 diopters;
B is the angular size of the image element of the pattern stimulator, 4 degrees;
L - eye length 22.5 mm.

D (IOL) = 131.7 - 0.9˙43.5 - 0.306˙ (22.5 - -3.33) ˙ 4 - 2.5˙ 22.5
D (IOL) = 131.7 - 39.15 - 23.46408 - 56.25
D (IOL) = 12.8352.

 Thus, the absolute value of the refractive power of the negative artificial lens of the eye is 12.8352.

 04/01/91. The patient underwent cataract extraction with implantation of a negative IOL with an optical power of 13.0 d.

 The operation and the postoperative period without complications.

 04/08/91. Visual acuity of the right eye = 0.1 without correction. Front camera of medium depth. Seams are wealthy.

 PRI me R 3. Patient D., 65 years old, diagnosis: almost mature cataract of both eyes, senile macular degeneration of both eyes. Before surgery, visual acuity of the right eye = 0.02, left eye = correct light projection. Both eyes are not corr.

 02/15/91. Studies on the right eye: keratometry and determination of the length of the eye.

 Reliable determination of the sizes of the central scotoma and the topography of the fixation point is impossible due to the lack of objective vision.

Additionally, the angular size of the image elements was measured, at which the maximum data of the evoked potentials of the patient's brain were revealed (8 degrees). Next, the calculation of the parameters of the negative intraocular lens according to the proposed formula
D (IOL) = 131.7 - 0.9 ˙ D (p) - 0.306 ˙ (L - -3.33) ˙ B - 2.25 ˙ L, where D (IOL) is the optical power of the intraocular lens, diopters;
D (p) - refractive power of the cornea 42.5 diopters;
In - the angular size of the image element paternal stimulator 8 degrees
L - eye length 23.0 mm

D (IOL) = 131.7 - 0.9˙42.5 - 0.306˙ (23.0 - -3.33) ˙ 8 - 2.5˙ 23.0
D (IOL) = 131.7 - 38.25 - 48.15216 - 57.5
D (IOL) = - 12.20206.

 Thus, the absolute value of the refractive power of the negative artificial lens of the eye is 12.20206.

 04/01/91. The patient underwent cataract extraction with implantation of a negative IOL with optical power of 12.0 D.

 The operation and the postoperative period without complications.

 04/08/91. Visual acuity of the right eye = 0.08 without correction. Front camera of medium depth. Seams are wealthy.

 Thus, thanks to the proposed method for determining the refractive power of an artificial lens of the eye, patients with a lack of objective vision make it possible to resolve the question of the feasibility and extent of increasing the scale of the retinal image and increase the reliability of the prognosis of the effect of implantation operations of negative IOLs for patients with cataract and macular degeneration.

Claims (1)

METHOD FOR DETERMINING THE OPTICAL POWER OF A NEGATIVE ARTIFICIAL CRYSTAL OF THE EYE, including keratometry and determination of the length of the eye, characterized in that they additionally determine the angular size of the element of the pacing stimulator causing the maximum amplitude of the evoked potentials of the brain, and the optical power of the negative intraocular lens is determined by the crystal lens
D (IOL) = 131.7 - 0.9D (p) - 0.306 (L - 3.33) B - 2.5L,
where D (IOL) is the optical power of the intraocular lens, diopter;
D (p) - refractive power of the cornea, diopter;
B is the angular size of the element of the pattern stimulator, deg .;
L is the length of the eye, mm