RU2195907C2 - Method for correcting simple myopic astigmatismus - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves carrying out intrastromal keratoablation in strong meridian in a zone 7.5-8.0 mm diameter in two stages. Central aspheric keratoablation is carried out at the first stage with correction scale being equal to 60-70% of initial astigmatism value. Peripheral aspheric keratoablation is carried out at the second stage. The treatment is carried out on peripheral areas paracentrally positioned on the strong meridian by the value left undone after performing the first stage keratoablation. EFFECT: uniform cornea surface; improved adjacency of the coneal flap; wider optical zone; reduced keratoablation depth. 1 dwg

Description

 The present invention relates to medicine, and more specifically to ophthalmology, and allows the correction of simple myopic 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 laser is the most promising. Its advantages include the use of low-density energy, which reduces corneal injury and reduces 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.

 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 the complete epithelization of the cornea. The two-stage operation has the disadvantages of any multi-stage operation, including traumatizing the patient's psyche (Higa H, Liew M. And all. Predictability of eximer laser treatment of myopia and astigmatism by the VISX 2020. J. Cataracand Refractive Surg. 1997,23 : 1457, 1464).

 The closest way to laser correction of simple myopic astigmatism is a method that includes the formation of a corneal flap, turning it toward the legs and conducting extrastromal keratoablation. First, keratoablation is performed in a weak meridian with a value of 25% of the value of a full cylinder, and then ablation is performed with a value of 75% of the value of a full cylinder in a strong meridian. In this case, the correction in the weak meridian is carried out in the zone with a diameter of 6.5 mm, and the correction in the strong meridian is carried out in the zone with a diameter of 7.5 mm.

 ("Journal of Refractive Surgery" April, 1998, vol. 14, 2, p. 175-179).

 This method allows you to obtain satisfactory results, but has the following disadvantages. About 12% of all operated patients require reoperation due to significant residual astigmatism. Different values of the zones in which ablation is performed can lead to the fact that the flap unevenly fits into the stromal bed, and this, in turn, leads to the presence of undesirable stromal transitions on the ablated surface. On the other hand, when applying one type of ablation to another and applying different diameters of the zones, an uneven optical surface is created, which contributes to the further occurrence of the so-called optical visual defects (monocular diplopia, glare effect, halo effect, decrease in contrast vision). These optical defects ultimately reduce the quality of visual perception. If, first, keratoablation of a weak meridian and then a strong one is performed, then there is an instability in the fixation of the patient’s eye, leading to an additional loss of energy and a decrease in refractive result. This occurs because the acoustic noise during ablation of a weak meridian is greater than during ablation of a strong meridian, and a change in the operation of an excimer laser scares patients.

 The technical result of the proposed invention is to obtain a persistent refractive effect and reduce the likelihood of complications.

 Vision correction for astigmatism is carried out in two stages. At the first stage, central aspherical ablation is performed, and at the second stage, peripheral aspheric ablation is performed. Central aspherical ablation is characterized by such a positional distribution of the energy of the laser beam, in which the central portion of the optical zone is exposed to a lesser extent than paracentral sections. Peripheral aspheric ablation is characterized by such a positional distribution of the laser beam energy, in which the central portion of the optical zone is not subjected to ablation, and the effect is on peripheral portions located paracentrally in the same meridian. In the proposed method, a certain sequence of performing various types of keratoablation is observed. The proposed sequence allows you to more reliably ensure the correct fixation of the patient's eye during surgery, because sound wave noise when performing central aspherical ablation is much less than with peripheral aspherical ablation. With this sequence, the patient manages to adapt to a change in the sound wave noise, which leads to a more accurate fixation of the eye, which means less laser energy loss when the optical zone is shifted. The optical ablation zone is that zone in which the laser energy is distributed in such a way as to provide the postoperative refraction specified by the algorithm at any point on it. The transitional ablation zone is that area of the cornea in which gradual smoothing of refraction and elimination of the transition from the ablated surface of the cornea to the unablated one occur. The transition occurs at the boundary of the evaporated tissue to a tissue not touched by ablation. The ablation zone includes an optical zone and a transition zone. In the proposed method, determine the axis along which the cylinder is placed, and direct the beam of the excimer laser to the area where the specified cylinder is located.

 The technical result is achieved in a method for correcting simple myopic astigmatism, including intrastromal keratoablation in a strong meridian, and keratoablation is carried out in an area with a diameter of 7.5-8.0 mm in two stages. At the first stage, central aspherical keratoablation is performed with a correction equal to 60-70% of the initial magnitude of astigmatism; at the second stage, peripheral aspherical keratoablation is performed at peripheral sites located paracentrally in the strong meridian by the amount of under correction of the first stage of keratoablation.

 The correction value at the first stage is 60-70% of the value of the initial cylinder, this value follows from clinical observations of patients.

 Indications for any refractive intervention are rather arbitrary, because refractive anomalies in almost all patients are amenable to some conventional correction method: glasses, contact lenses.

 Of the patients seeking vision correction using photorefractive surgeries, the majority are men aged 20-25, because 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 distinguish indications for refractive intervention, which are:
1) the age is not younger than 18 years, preferably older than 21 years, in order 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.

 When preparing a patient for specialized laser keratomileusis surgery and refractive-correcting intrastromal excimer laser keratoectomy (RIEK), anesthetic is instilled immediately before the operation, and the eye should be closed, because blinking reduces the effectiveness of anesthesia, it is also recommended to lubricate with an anesthetic solution the edges of the eyelids as an area of increased discomfort. Additional anesthesia of the zone of the corneal valve is not required, since the manipulation is almost painless. The choice of antibiotic is less important due to the fact that the risk of infection with intrastromal keratoablation is lower than with PRK. The main purpose of the antibiotic is to reduce the risk of bacterial inflammation.

 Since the water content in the middle of the corneal stroma is greater than on its surface, more frequent cases of hypercorrection are possible, as a rule, correction for the difference in hydration is already included in the laser program. However, some surgeons seek to reduce the water content on the cut surface. Several methods can be used for this: removing moisture with a flat spatula, treating the corneal bed with a surgical swab or other material, deep stroma dehydration using a special device. In this case, the cutting surface is blown with sterile air with an interval equal to a series of laser pulses.

 For the successful operation, the correct preparation of microkeratome is important. The microkeratome set includes a fixing vacuum ring, a mini-electric motor that provides translational keratome movement and cutting movement of the blade with a frequency of 12000 rpm, a set of interchangeable heads or fixed boards for conducting slices of various depths. Microkeratum is equipped with disposable interchangeable blades that are inserted into the head immediately before surgery.

 Surgical preparation of the patient’s eye on the operating table includes immobilization of the eyelids with a rigid blepharostat, protection against eyelashes getting into the area of influence and especially in the keratome mechanism, a bandage for the contralateral eye, marking of the cornea. Marking of the cornea is done to center the fixation ring and valve during its reposition. Currently, a wide variety of markers are used. Their unifying property is the use of a central ring (usually 3 mm in diameter) and several non-radial asymmetric linear marks. Linear marks help to precisely place the flap valve in the stomal bed.

 During the operation, the fixation vacuum ring must be installed exactly in the center, it evenly covers the zone of the limb by itself. Negative pressure is created in the groove of the ring, due to which it is rigidly fixed to the surface of the eyeball. Then, with the help of the Barraquer applanation tonometer, pressure is measured. For successful LASIK and REIC, it is necessary that the value of intraocular pressure is at least 65 mm Hg. Art. In no case should you start the operation at low pressure, this can lead to serious complications. Then you can proceed to the keratectomy procedure, which is actually completely automated. With the help of a thin spatula, the folding flap is separated from the stroma and reclines on the leg. You should be very careful about the position of the stalk of the flap, because its excessive bending can lead to the appearance of a fold after the operation, and if the flap is not sufficiently displaced, a part of the laser beam energy can enter the stem. An important step is the repositioning of the flap. Before laying a folding flap, thoroughly rinse the stroma surface and moisten the flap itself.

 The folding flap is precisely centered on the marker marks.

 These places where the flap is separated from the cornea are exposed to the mark. Various dyes are used for the label, such as a Bengal rose. As a spatula, a different spatula can be used, but it is best to use a Barraquer spatula.

Example
Patient P., 32 years old, clinical diagnosis: Simple myopic astigmatism of the inverse type. Right eye - visual acuity without correction of 0.5, correction of cyl. - 2.0 diopters axis 90 ^o , visual acuity with a correction of 1.0. The left eye - visual acuity without correction of 0.5, correction of cyl - 2.0 diopters axis 90 ^o , visual acuity with correction of 1.0. Both eyes were operated according to the REIK technique, first they performed central aspherical keratoablation with a vision correction of 1.2 d, which is 2x0.6 = 1.2. The remaining cylinder was corrected by peripheral aspherical keratoablation in the same meridian in the peripheral areas by the amount of remaining diopter.

 On the third day after surgery, the cornea was completely epithelized, with refractometry, emmetropia was determined for all meridians, the center of the sphere in the center of the cornea. Refractive indices remained stable for two years.

 Clinical testing of the method was carried out in 46 eyes of patients with astigmatism from 2 to 7 diopters.

 In the table. 1-3, the results of final refraction in the period from 3 to 6 months after surgery are given.

 So, in the table. 1 shows the average values of residual astigmatism, which are close after the operation to physiological values. In the table. 2 results demonstrate the absence of changes in the spherical component of refraction 3 months after surgery. In table 3, the correction results are estimated in two groups depending on the magnitude of astigmatism. They are better in the group of patients less than or equal to 3 diopters.

 1. Results of astigmatism correction (M ± m) (Table 1).

 2. The results of astigmatism correction at (M ± m) (Table 2).

 3. The results of astigmatism correction (M ± m) (Table 3).

 1) The proposed method allows to reduce the keratoablation depth by 35-40%, to achieve a more uniform surface of the cornea after ablation (due to the combination of transition zones when working in different meridians) and, accordingly, a more adequate fit of the corneal flap. In addition to this, the method makes it possible to expand the optical zone, eliminate hyper-correction of the sphere and conduct reoperation without a hyper-effect.

Claims (1)

 A method for correcting simple myopic astigmatism, including intrastromal keratoablation in a strong meridian, characterized in that keratoablation is carried out in an area with a diameter of 7.5-8.0 mm in two stages, at the first stage, central aspheric keratoablation with a correction of 60-70% is performed from the initial value of astigmatism, at the second stage, peripheral aspherical keratoablation is performed at peripheral areas located paracentrally in the strong meridian by the amount of under correction of the first stage of keratoablation.

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