RU2017471C1 - Method for determining optimal distance between optical centers of bifocal intraocular lens - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: this method for determining optimal distance between optical centers of bifocal intraocular lens includes keratometry, measurement of eye length and diffraction force of intraocular lens, calculation of optimum magnitude of retinal image displacement, and determination of amount of displacement between optical centers of bifocal intraocular lens using formula presented in specification. EFFECT: higher accuracy of measuring optimum distance between optical centers of bifocal intraocular lens. 1 dwg

Description

 The invention relates to medicine, and more particularly to ophthalmology, and can be used for optical correction of patients with macular degeneration of the retina against the background of clouding of the lens.

 There is a method for determining the optical power of an intraocular lens during implantation in the eye, including keratometry, determining the length of the eye, followed by calculating the refraction of the strength of the intraocular lens based on the obtained data.

 However, this method of determining the optical power of the intraocular lens is not suitable for correcting the vision of patients with macular degeneration of the retina.

 In the case of a degenerative process of the retina in patients with macular degeneration, the topography of the retina is unusually diverse and individual. After selecting a retinal site for the formation of a new fixation point for effective optical correction of this patient population, accurate individual calculation and the use of a two-focus intraocular lens (IOL) with the shift of optical centers are necessary.

 To date, there is no way to determine the optimal distance between the optical centers of a bifocal intraocular lens.

 The aim of the invention is the accuracy of determining the optimal distance between the optical centers of the two-focus IOL.

, мм, где S - величина необходимого линейного смещения ретинального изображения, мкм;
D (ИОЛ) - преломляющая сила интраокулярной линзы, диоптрии.This goal is achieved by the fact that in the method for determining the optimal distance between the optical centers of the two-focus IOL, including keratometry, determining the length of the eye, followed by calculating the refractive power of the IOL, the optimal displacement of the retinal image in microns is additionally measured, and the amount of displacement between the optical centers of the two-focus IOL determined by the formula
B = B =

, mm, where S is the value of the necessary linear displacement of the retinal image, microns;
D (IOL) - the refractive power of an intraocular lens, diopter.

 The calculation formula is determined empirically.

 The drawing shows a two-focus IOL with a shift of the optical centers (for clarity, the shift is shown on the periphery).

 The method for determining the optimal distance between the optical centers of the bifocal IOL for cataract patients with macular degeneration is carried out as follows: during the preoperative examination in patients with cataract, the presence of changes in the central retina is determined on the basis of clinical and functional studies. Patients undergo the usual preoperative studies: keratometry, ultrasound biometry using the a-method (determination of the PZO of the anteroposterior axis of the eye), based on these data, the refractive power of the IOL is calculated from the nomogram. A study of the visual field, static perimetry through 1 degree within 30 degrees is carried out in order to reliably determine the topography of the patient's fixation point (by the location of the blind spot).

 To determine the optimal distance between the optical centers of a two-focus IOL, the optimal displacement of the retinal image in microns is additionally measured, and the necessary displacement of the optical centers of the two hemispheres relative to each other (to create the optimal displacement of the retinal image by a biconvex artificial eye lens) is determined using the proposed formula.

 PRI me R 1. Patient N., 78 years old, diagnosed with immature cataract of the right eye, almost mature cataract of the left eye, age-related macular degeneration of both eyes. Before surgery, the visual acuity of the right eye of 0.06, the left eye of 0.01. Both eyes are not corr.

 03/29/91. Studies are performed on the left eye: keratometry and determination of the length of the eye, the optical power of the IOL (+22.0 D) is calculated from the nomogram.

 Additionally, threshold profile perimetry in eight meridians is examined. The minimum angular value from the point of central view to the nearest edge of the central scotoma is 2 degrees and is located along the meridian of 215 degrees. The implantation operation of a spherical prismatic IOL is indicated. The study showed the feasibility of shifting the image by 2 degrees along the meridian of 215 degrees.

 It is known that a shift of the optical axis by 1 degree entails a displacement of the image on the retina by 17.8 microns.

 Thus, the optimal displacement of the retinal image will be equal to 35.6 microns.

 The proposed formula is used to find the displacement of the optical centers of the two-focus IOL, which for this patient is 0.262 mm.

 PRI me R 2. Patient L., 63 years old, diagnosed with almost mature cataract of both eyes, senile macular degeneration of both eyes. Before surgery, visual acuity of the right eye = 0.02, left eye = 0.04. Both eyes are not corr.

 02/15/91. Studies on the right eye are performed: keratometry and determination of the length of the eye, then the optical power of the IOL (+23.0 D) is calculated.

 Additionally, threshold profile perimetry in eight meridians is examined. The minimum angular value from the point of central view to the nearest edge of the central scotoma is 5 degrees and is 180 degrees along the meridian.

 It is known that a shift of the optical axis by 1 degree entails a displacement of the image on the retina by 17.8 microns.

 Therefore, the optimal displacement of the retinal image will be 89.0 microns.

 The proposed formula determines the magnitude of the displacement of the optical centers of the two-focus IOL, which will be equal to 0.637 mm

 Thus, for effective optical correction of patients with macular degeneration of the retina against the background of clouding of the lens, the method for determining the optimal distance between the optical centers of the two-focus IOL allows determining the deviation of the optical axis by a strictly specified value and forming a new fixation point on the retina in the patient where most functionally stored and accordingly suitable for this.

Claims (1)

METHOD FOR DETERMINING THE SIZE OF THE OPTIMAL DISTANCE BETWEEN THE OPTICAL CENTERS OF A TWO-FOCUS INTRAOCULAR LENS, including keratometry, measuring the length of the eye and calculating the refractive power of the intraocular lens, characterized in that they also measure the optimal optical distance of the two lenses by measuring the optimal optical distance the formula
B =

,
where S is the magnitude of the displacement of the retinal image, microns;
D _iol - refractive power of an intraocular lens;
B is the distance between the optical centers of the bifocal intraocular lens, mm

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