RU2126238C1 - Method of mixed astigmatism correction - Google Patents

Abstract

FIELD: ophthalmology. SUBSTANCE: method includes measurement of astigmatism and changing of cornea refraction capacity by photorefraction ablation. At myopic component of 1.5-2.0 D photorefraction ablation of cornea is performed only by hypermetropic meridian through entire value of hypermetropic cylinder. If myopic component exceeds 2.0 D correction is started with hypermetropic meridian. It is corrected through entire value of hypermetropic cylinder. Myopic component is corrected by decreasing the value of correction by 1.5-2.0 D. EFFECT: avoidance of unwanted refraction shifts.

Description

 The invention relates to medicine, and more specifically to ophthalmology, and allows the correction of mixed astigmatism using excimer laser photoablation.

 Modern ophthalmology uses lasers operating on an argon-fluorine mixture with a radiation wavelength of 193 nm for refractive surgery, of which the Nidek - 5000 2c laser is the most promising. Its advantages include the use of low-density energy, which allows to reduce corneal injury, reduce acoustic shock, in addition, the temperature in the ablation zone practically does not increase. The beam feed system eliminates the formation of a central island, which is often a complication and leads to astigmatism when using wide-profile lasers.

 All known publications show the possibility of successful correction of myopia, hyperopia and astigmatism using an excimer laser with its own nomograms. Many ophthalmologists correct these nomograms based on personal experience and taking into account the features of the operation technique.

 It is known that astigmatism is an anomaly of eye refraction, which is expressed in the fact that the radius of curvature of the cornea in different meridians is not the same, mixed astigmatism is characterized by the fact that in one of the main meridians is myopia, and in the other - hyperopia.

 A known method for the correction of mixed astigmatism, including carrying out excimer laser photoablation in two stages. First, the myopic cylindrical component is ablated, which leads to the correction of the cylindrical component; in the second stage, the hyperopic sphere is ablated. The operation takes place in two stages, the second stage is carried out 1-3 months after complete epithelization of the cornea. A two-stage operation injures the patient's psyche (Higa H, Liew M. and all. Predictability of eximer laser treatment of miopia and astigmatism by the VISX 2020. J. Cataractand Refractive Surg. 1997, 23: 1457, 1464).

 The closest technical solution to the claimed method is a method for correcting mixed astigmatism, according to which astigmatism is measured and the subsequent refractive ability of the cornea is changed by photorefractive ablation, while myopic and hyperopic components are simultaneously ablated. The correction of the myopic component and hyperopic is performed to the full extent (Danjonx J.P., Fraenkel G at as. Treatment of miopic astigmatism with the Summit Apex Plus eximer. J. Cataract and Refractive Surg / 1997, 23: 1472-1479).

 It was noted that good results were obtained with this technique in 30-35% of cases, in other cases, hypercorrection by 1.0-2.0 D in the direction of hyperopia is noted.

 A method for correcting mixed astigmatism is proposed, including measuring astigmatism and changing the refractive power of the cornea by photorefractive ablation, and with a myopic scope of 1.5-2.0 D, photorefractive ablation of the cornea is performed only by the hyperopic meridian to the full size of the hyperopic cylinder, and with a myopic cylinder over 2, 0 D correction begins with the hypermetropic meridian, which is fully corrected, and then the myopic component is corrected, while reducing the total correction by 1.5-2.0 D. During the observation of patients who underwent photorefractive keratectomy due to mixed astigmatism, it was noted that hypercorrection by 1.5-2.0 D in the direction of hyperopia was noted by the known method. Our studies have shown that when photorefractive ablation is performed along a hyperopic meridian to the full size of a hyperopic cylinder, the laser beam simultaneously changes refraction along the myopic meridian. The very movement of the beam, according to the nomogram embedded in the computer, turned out to change the refraction during the PRK, not only along the hyperopic meridian, but also along the myopic meridian. This moment was not known during the known method of correction of mixed astigmatism. If astigmatism is 1.5-2.0 D, then photorefractive ablation is performed only by the hyperopic meridian to the full size of the hyperopic cylinder and the myopic component is completely eliminated, with refractometry, emmetropy is determined for all meridians. If astigmatism is over 2.0 D, then the correction begins with a hyperopic meridian, which is fully corrected, and the myopic component is corrected, reducing the magnitude of the necessary correction by 1.5-2.0 D.

 With keratectomy, a similar operation is possible, a radial section of the cornea is performed along the myopic meridian, and a hexagonal section along the hyperopic meridian. However, such a technique often leads to a change in eye refraction, which could not be assumed.

 The proposed method avoids such results, since the nomogram is strictly recorded on the refraction of the eye of each individual patient.

 Indications for any refractive intervention are rather arbitrary, since refractive anomalies in almost all patients lend themselves to some kind of correction method: glasses, contact lenses.

 Of the patients seeking vision correction using photorefractive surgeries, the majority are men aged 20-25, as this age is the beginning of a professional or sports career. The second group consists of people aged 30-35, socially prosperous. For this group, the main reason for choosing surgical correction is the desire to improve the quality of life. And finally, the third group is patients older than 40 years, the majority of women, myopia in this group is slightly higher than in the second group.

It is easier to highlight indications for refractive intervention, such are:
1. Age at least 18 years old, preferably over 21 years old to avoid changes in refraction associated with the growth of the eyeball.

 2. Refraction must be stable for the previous 12-18 months or more.

Example 1. Patient P. A 29-year-old man who complained of mixed astigmatism in his right eye. When refractometry was determined myopia (-2.0) D along the axis of 180 ^o and hyperopia (+1.0) D along the axis of 90 ^o , i.e., astigmatism was 3.0 D.

 The patient underwent an operation to change the refractive ability of the cornea by photorefractive ablation with an excimer laser, and photorefractive ablation was performed only by the hyperopic meridian by the full size of the hyperopic cylinder (3.0) D.

 On the fourth day after the operation, the blindfold was removed. Complete corneal epithelization was noted, with refractometry emmetropia was determined for all meridians. The surface of the cornea was spherical. Dynamic observation of the patient for 12 months showed the stability of the results.

Example 2. Patient L., a woman, 35 years old, went to the clinic about mixed astigmatism of the right eye. When refractometry of the right eye was determined myopia (-1.5) D along the axis of 165 ^o and hyperopia +0.75 D along the axis of 75 ^o . The total hyperopic cylinder in this case was 2.25 D. Astigmatism was ablated on the value of this cylinder along the 75 ^° axis. A week after PRK, very weak hyperopia +0.25 D was determined on all right meridians in the right eye. The surface of the cornea was spherical. During the 18 months of follow-up after surgery, refraction was stable.

Example 3. A 23-year-old man went to the clinic about mixed astigmatism of the left eye. When refractometry along the 25 ^o axis, the refraction was determined to be -3.5 D, and along the 115 ^o axis, hyperopia +0.5 D, the hyperopic cylinder in this case was +4.0 D. The patient underwent photorefractive keratectomy on an excimer laser along the axis 115 ^o by +2.0 D. Seven days after surgery, the patient had a spherical myopia of -2.0 D. This refraction was maintained in the patient for three months. At the request of the patient, after 3 months, a repeated PRK was performed to correct spherical myopia -2.0 D. Correction was carried out before emmetropia. The patient was observed for 12 months, changes in eye refraction were not observed.

Example 4. Patient K., 34 years old, asked about the correction of mixed astigmatism of the left eye. Refractometric parameters: myopic cylinder, axis 90 ^o , myopia (-4.5) D, hyperopic cylinder +1.0 D, axis 180 ^o . The magnitude of astigmatism is 5.5 D. The patient underwent surgery with an excimer laser. Photorefractive ablation of the cornea by the full size of the cylinder was performed using a 180 ^o meridian, and myopia was corrected by 2.5 D. After four days, the blindfold was removed, complete corneal epithelization was noted, and full emmetropia was determined for all meridians during refractometry. The patient was observed for 12 months, changes in refraction were not observed.

 As practice has shown, correction for the myopic meridian and hyperopic can be carried out during one operation, it is possible some time after the complete epithelization of the eye. It depends on the surgeon who creates the ablation zone mechanically during the operation. If the surgeon notices during the creation of the ablation zone that the patient may have complications, then the operation is carried out in two stages, if there are no indications for complications, then the operation is carried out in one stage. To date, 24 operations have been performed to correct mixed astigmatism, after which patients have been observed for a year. There were no changes in refraction, as well as complications. In total, 54 operations have been done so far; patient monitoring is ongoing.

Claims (1)

 A method for correcting mixed astigmatism, including measuring astigmatism and changing the refractive power of the cornea by photorefractive ablation, characterized in that when the myopic component is 1.5-2.0 D, photorefractive ablation of the cornea is performed only by the hyperopic meridian to the full size of the hyperopic cylinder, and with the myopic component, The 2.0 D correction begins with a hyperopic meridian, which is corrected by the full size of the hyperopic cylinder, and then myopic s component, wherein the correction value is reduced to 1,5-2,0 D.