RU2649537C1 - Method for calculating the refractive effect during correction of the position of the previously implanted intrastromal ring myoring in patients with keratoconus - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, specifically to ophthalmology. To achieve a refractive effect in the correction of the position, previously implanted intrastromal ring MyoRing in patients with keratoconus, determine the corrected magnitude of the spherical refractive component as a function of the magnitude, direction of the displacement, and also the parameters of the MyoRing ring itself. When the MyoRing ring is displaced by 0.5 mm with a diameter of 5.0 mm and a height of 320 mcm towards the apex of the keratoconus, the hypoeffect is compensated, and when displaced in the opposite direction, the hypereffect is 5.0 dptr, with an altitude of 300 mcm, 4.5 dptr, and at a height of 280 mcm, 4.0 dptr of spherical refraction.

EFFECT: method allows to increase visual acuity and improve the quality of life of patients with keratoconus.

1 cl, 2 ex

Description

The invention relates to medicine, and more particularly to ophthalmology, and can be used to calculate the correctable spherical component of refraction when correcting the position of a previously implanted MyoRing intrastromal ring in patients with keratoconus.

The relevance of keratoconus is determined by current trends in the increase in morbidity, bilateral damage to the organ of vision, a wide age range from 10 to 89 years, social significance in connection with the progressive nature of the course, leading patients to visual impairment in young working age (Sevostyanov E.N., Gorskova E.N., 2006).

There is a method of correcting the position of the MyoRing ring in patients with keratoconus (Bikbov M.M., Bikbova G.M. Results of treatment of keratoconus by implantation of intrastromal corneal rings MyoRing in combination with corneal collagen crosslinking // Ophthalmosurgery. - 2012. - No. 4. - C. . 6-9). The essence of this method is to change the refractive power of the cornea depending on the direction of displacement of the MyoRing ring.

The disadvantage of this method is the lack of necessary information about the dependence of the refractive effect on the magnitude of the displacement, as well as the parameters of the MyoRing ring itself.

The objective of the invention is to develop a method for calculating the correctable spherical component of refraction when correcting the position of a previously implanted MyoRing intrastromal ring depending on the magnitude, direction of displacement, as well as the parameters of the ring itself in patients with keratoconus.

The technical result of the invention is to increase visual acuity and improve the quality of life of patients with keratoconus.

The technical result is achieved by the fact that in the method for calculating the refractive effect when correcting the position of a previously implanted MyoRing intrastromal ring in patients with keratoconus, based on determining the correctable value of the spherical refractive component depending on the magnitude, direction of displacement, as well as the parameters of the MyoRing ring itself, when shifted by 0.5 mm MyoRing rings with a diameter of 5.0 mm and a height of 320 μm in the direction of keratectasia compensates for the hypoeffect (when shifted in the opposite direction - the hyper-effect) of 5.0 dpt At a height of 300 microns - 4.5 diopters, at a height of 280 microns - 4.0 diopter spherical refraction.

In the method for calculating the refractive effect when correcting the position of a previously implanted MyoRing intrastromal ring in patients with keratoconus, visometry is performed to determine uncorrected (NPHC) and corrected visual acuity (SCH), refractokeratometry, the location of the keratectasia vertex and keratometry in the 5.0 mm optical zone according to the data keratotopographic study, and then, depending on the result, the MyoRing ring is displaced inside the 8.0-9.0 mm intrastromal pocket, as a result of which on correction of 0.5 mm MyoRing ring with a diameter of 5.0 mm and a height of 320 μm towards the apex of the keratectasia, the hypoeffect is compensated and the myopic component of refraction is corrected (when shifted in the opposite direction, the hyper-effect and hyperopic component of refraction) are 5.0 diopters, with at a height of 300 microns - 4.5 diopters, at a height of 280 microns - 4.0 diopters of spherical refraction.

The treatment method according to the invention is as follows. All patients with previously implanted MyoRing intrastromal rings undergo visometry with the definition of NKOZ and KOZ, refractokeratometry, a computer keratotopographic study with the location of the keratectasia vertex and keratometry in the 5.0 mm optical zone. When diagnosing a hyper-effect accompanied by hyperopic refraction, a flattening zone of the cornea located in the upper half of the keratotopogram and falling into the 3.0 mm optical zone, it is necessary to shift the MyoRing ring in the opposite direction from the top of keratectasia. When diagnosing a hypoeffect, accompanied by myopic refraction, and characterized by a high keratometry in the 3.0 mm optical zone after implantation of the MyoRing ring, it is necessary to shift the MyoRing ring toward the top of the keratectasia. A 0.5 mm displacement of the MyoRing ring with a diameter of 5.0 mm and a height of 320 μm towards keratectasia compensates for the hypoeffect (when shifting in the opposite direction - a hyper effect) at 5.0 diopters, at a height of 300 microns - 4.5 diopters, at a height of 280 μm - 4.0 diopters of spherical refraction.

The results of this method for calculating the refractive effect when correcting the position of the previously implanted MyoRing intrastromal ring in patients with keratoconus are confirmed by clinical research methods: visometry, refractokeratometry, computer-assisted topographic examination on a Tomey-3 keratotopograph (Tomey, Japan).

The invention is illustrated by the following examples.

Example 1

Patient K., 26 years old. Diagnosis: OD - Condition after implantation of the MyoRing ring (hypereffect), operated stage III keratoconus, OS - stage I keratoconus. A history of 3 months ago was performed with implantation of a MyoRing ring with an inner diameter of 5.0 mm, a height of 280 μm and an 8.0 mm intrastromal pocket, formed by optimized technology at a depth of 370 μm using a femtosecond laser. Visual acuity of the right eye 0.1 sph +4.5 diopters = 0.4, refractometry sph +5.0 cyl -2.75 ah 171, keratometry ah 165 ° 41.25 × 37.78 diopters, Ksr - 39.5 dptr. According to computer keratotopography data, the corneal flattening zone was determined, falling into the 3.0 mm optical zone. Under local anesthesia with an alkain solution, the MyoRing ring was displaced in the opposite direction from the top of keratectasia towards the patient’s visual axis by 0.5 mm. Intra - and postoperative complications were not. At discharge, visual acuity OD 0.4 n / k, refractometry sph +0.25 cyl -1.0 ax 178, keratometry 172 ° 41.75 × 40.75 diopters. After 12 months, visual acuity OD 0.5 sph +0.5 diopters = 0.6, refractometry sph +1.0 cyl -1.25 ah 176, keratometry 174 ° 41.4 × 40.15 diopters. The above parameters of the cornea remained stable after 36 months. after operation.

Example 2

Patient S., 25 years old. Diagnosis: OD - Condition after implantation of the MyoRing ring (hypoeffect), operated stage III keratoconus, OS - stage II keratoconus. A history of 1 month ago was performed with implantation of a MyoRing ring with an inner diameter of 5.0 mm, a height of 300 μm and an 8.0 mm intrastromal pocket formed by optimized technology at a depth of 375 μm using a femtosecond laser. Visual acuity of the right eye 0.1 sph -5.25 dptr = 0.3, refractometry sph -6.0 cyl -2.25 ah 169, keratometry ah 163 ° 48.5 × 46.25 dptr, Ksr - 47.37 dptr. According to computer keratotopography, in the projection of the MyoRing ring, a corneal zone with a high keratometry value falling into the 3.0 mm optical zone was determined. Under local anesthesia with an alkain solution, the MyoRing ring was shifted toward the top of keratectasia by 0.5 mm. Intra - and postoperative complications were not. At discharge, visual acuity OD = 0.2 sph -2.0 diopters = 0.4, refractometry sph -2.25 cyl -1.75 ax 175, keratometry 170 ° 45.15 × 43.4 diopters. After 12 months, visual acuity OD = 0.3 sph -1.25 dptr = 0.5, refractometry sph -1.5 cyl -1.0 ah 175, keratometry 174 ° 44.25 × 42.25 dptr. The above corneal parameters remained stable 36 months after surgery.

Claims (1)

A method of achieving a refractive effect in correcting the position of a previously implanted MyoRing intrastromal ring in patients with keratoconus, based on determining the correctable value of the spherical component of refraction depending on the magnitude, direction of displacement, and also the parameters of the MyoRing ring itself, characterized in that when displaced by 0.5 mm MyoRing rings with a diameter of 5.0 mm and a height of 320 μm towards the apex of the keratoconus compensates for the hypoeffect, and when shifted in the opposite direction - a hypereffect of 5.0 diopters, at a height of 3 00 microns - 4.5 diopters, at a height of 280 microns - 4.0 diopters of spherical refraction.