RU2696960C1 - Method for correction of myopic astigmatism by intrastromal removal of lenticule taking into account cyclotorsia - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, specifically to ophthalmology. To correct myopic astigmatism by intrastromal removal of the lentil, taking into account cyclotorsia, patient eyeballs are photorecorded on the diagnostic module of the navigation system "Verion" while patient is in the sitting position. After that, photographs of the eyeballs are transmitted over the network to the operating module of the navigation system "Verion". That is followed by photorecording of eyeballs on an operating module in the supine position. Then the system "Verion" automatically compares the photographs and outputs the value of cyclotorsia. Further, the surgeon corrects the axis of astigmatism taking into account cyclotorsia and performs operation on a standard protocol on a femtoscopic laser system "Visumax".

EFFECT: method provides safe postoperative correction of myopic astigmatism by ReLEx SMILE technique taking into account cyclotorsia due to the fact that it does not involve contact glass rotation that eliminates risk of vacuum loss.

1 cl, 1 ex

Description

The invention relates to medicine, in particular to ophthalmology, and can be used to improve the clinical and functional results of the correction of myopic astigmatism using the technology of intrastromal lenticular removal (ReLEx SMILE) by amending for cyclotorsia.

As you know, cyclotorsia is the rotation of the eyeball around the sagittal axis during the transition of the position of the human body from vertical to horizontal. In order to avoid possible errors, it is very important to consider cyclotorsia, since all preoperative examinations of the patient are performed in the sitting position, and the operation itself is in the supine position. Since the Visumax femtosecond installation, on which the ReLEx SMILE operation is performed, does not have a system for automatic control of cyclotorsia, we are looking for a solution to this problem.

A known method for correcting myopic astigmatism using ReLEx SMILE technology taking into account cyclotorsia proposed by foreign authors (Ganesh S., Brar S., Pawar A. Results of Intraoperative Manual Cyclotorsion Compensation for Myopic Astigmatism in Patients Undergoing Small Incision Lenticule Extraction (SMILE). J Refract Surg. 2017; 33 (8): 506-512). It is proposed to use a tap tool with an air bubble on the handle to accurately mark the patient’s cornea along the horizontal meridian behind the slit lamp. Then, in the operating room, after the contact glass of the femtosecond laser is joined to the surface of the patient’s cornea, the corneal mark is aligned with the grid in the microscope eyepiece by rotating the contact glass. Only after that they proceed to cutting out the lenticles.

The described method has the following disadvantages: firstly, it is not always possible to accurately place marks on the cornea, in some cases there is difficulty in detecting marks in the microscope eyepiece, especially in patients with a dark iris. The presence of a too short main base for the bubble in the proposed marker of the cornea makes one doubt the accuracy of the measurements. In addition, the manufacturer of the Visumax femtosecond laser does not recommend rotating the contact glass for proper labeling because of the possible risk of vacuum loss.

The task of the invention is to develop a predictable and safe method of controlling cyclotors using the Verion navigation system to achieve high clinical and functional results of correction of myopic astigmatism using ReLEx SMILE technology without the risk of vacuum loss due to contact glass rotation.

The technical result obtained by solving the problem lies in the safety of the correction of myopic astigmatism using ReLEx SMILE technology taking into account cyclotorsia, since it does not involve contact glass rotation, and therefore there is a risk of vacuum loss, while the proposed method allows to determine cyclotorsia eyeball and take this parameter into account during the operation, which will positively affect the maximum possible visual acuity.

The technical result is achieved by the fact that in the method of correcting myopic astigmatism using the technology of intrastromal lenticular removal taking into account cyclotorsia, according to the invention, the patient undergoes photo-registration of the eyeballs on the diagnostic module of the Verion navigation system in the sitting position, after which the photos of the eyeballs are transmitted over the network to the operating room module of the navigation system "Verion", then the patient on the operating module in the supine position is photographed with eyeballs, then the "Verion" system automatically and compares pictures and outputs the value tsiklotorsii further surgeon performs the correction of astigmatism axis tsiklotorsii subject and conducts an operation to the standard protocol on the system femtolazernoy «Visumax».

Between the totality of essential features and the achieved technical result, there is a causal relationship.

Determination of cyclotorsia using the Verion navigation system allows you to safely carry out the correction of the astigmatism axis without resorting to contact glass rotation, which may result in loss of vacuum during the operation, which entails various intraoperative complications.

Determination of cyclotorsia using the Verion navigation system allows you to get the cyclotorsia angle data in numerical terms, which allows you to accurately and comfortably (both for the surgeon and patient) adjust the astigmatism axis without resorting to marking the cornea.

The Verion navigation system consists of two modules: diagnostic and operating. On the diagnostic module, in a sitting position, it is possible to perform dynamic keratometry, pupillometry, determining the position of the visual axis, as well as identifying the individual characteristics of the iris, limb zone and scleral vessels. On the operating module, which is built into the operating microscope, in the lying position it is possible to compare and compare photographs according to the pattern of the iris and sclera vessels. As a result of comparing two photographs of one eye (in sitting and lying positions), the system calculates the difference in the axis of the cylinder (cyclotorsia).

The Verion navigation system is used in cataract surgery and is only compatible with Alcon operating equipment. Consequently, compatibility with the Visumax femtosecond installation, on which the ReLEx SMILE operation is performed, is not provided. In the claimed invention, it is proposed to determine cyclotorsia using the Verion navigation system and introduce the obtained data as a correction into the Visumax femtosecond laser during the planning of the operation.

The invention is illustrated by the following specific embodiment.

Patient K., 21 years old, applied to the Department of Refractive Laser Surgery at the Federal State Institution "Scientific and Technical Center" MG "named after Academician S. N. Fedorov" of the Ministry of Health of the Russian Federation in order to resolve the issue of the possibility of refractive laser vision correction. According to the patient: low vision in the distance in both eyes from school age. Leads an active lifestyle and goes in for sports. The patient was offered keratorefractive surgery ReLEx SMILE.

According to refractometry: OD sph -4.5 cγl -2.5 ah 5 °; OS sph -4.25 cγl -3.0 ax 165 °.

Keratometry OD: K1 43.00 ax 105 °, K2 41.75 ax 15 °, cγl -1.25 ax 105 °; OS: K1 42.25 ax 70 °, K2 41.25 ax 160 °, cγl -1.00 ax 70 °.

With visometry: Vis OD = 0.04 sph -3.5 cyl -2.0 ax 20 ° = 0.8; Vis OS = 0.04 sph -3.0 cyl -2.5 ax 170 ° = 0.8.

With ultrasound pachymetry, the thickness of the cornea in the center: OD: 437 microns; OS: 446 μm.

Intraocular pressure with tonometry within normal limits: OD: 18 mm. Hg; OS: 17 mm. Hg

According to the screening performed by analyzing the BAD information window (Belin Ambrosio Display), keratometric indices, posterior corneal elevation, the presence of keratoconus in the patient is excluded. The patient was diagnosed with OU: complex myopic astigmatism.

Before the operation, in addition to the standard examination, the patient underwent a study of the eyeballs on the diagnostic module of the Verion navigation system. At this stage, a patient account was created with subsequent photo-registration of the patient’s eyeballs in a sitting position, after which the data was transmitted over the network to the operating module of the Verion navigation system.

At the next stage, in the operating room, immediately before the operation, the patient was placed under an operating microscope with an integrated Verion navigation system operating module, on which the previously created patient account with photographs from the diagnosis was selected. Next, photo-registration of eyeballs was performed, but already in a prone position, after which the system automatically compared the photographs and displayed on the screen the value of the axis of cyclotorsia in degrees: OD minus 8 °; OS minus 7 °.

The next stage, the operating surgeon corrected the operating data taking into account cyclotorsia, which looked as follows: OD sph -3.5 cγl -2.0 ax 20 ° (minus 8 °); OS sph -3.0 cγl -2.5 ah 170 ° (minus 7 °). Accordingly, the astigmatism axis changed OD: 12 (20 minus 8); OS: 163 (170 minus 7). The data obtained was entered into the Visumax femtolaser, after which the operation was performed according to the standard ReLEx SMILE protocol.

A day after the operation: the eye is calm, the cornea is transparent. The patient was assigned a standard treatment regimen after ReLEx SMILE surgery.

Refractometry: OD sph -0.5 cγl 0 ax 0 °; OS sph -0.25 cγl 0 ax 0 °.

Keratometry OD: K1 38.25 ax 102 °, K2 38.00 ax 11 °, cγl -0.25 ax 102 °; OS: K1 38.00 ax 68 °, K2 37.75 ax 158 °, cγl -0.25 ax 68 °.

Visometry: Vis OD = 1.0; Vis OS = 1.0.

Thus, using the example of the case described above, the clinical feasibility of effective and safe treatment of myopic astigmatism using the ReLEx SMILE technology taking into account eyeball cyclotors using the Verion navigation system has been demonstrated. As a result of the surgical treatment to the patient, the axis of astigmatism was determined and adjusted with high accuracy, which made it possible to achieve high visual acuity. Consideration of possible cyclotorsia is necessary to increase the clinical effectiveness of surgical treatment and is especially recommended for a high degree of astigmatism. Correction of myopic astigmatism using the ReLEx SMILE technology, taking into account cyclotorsia of the eyeball using the Verion navigation system, is justified and possible in execution, which is confirmed by the first clinical results.

Claims (1)

A method for correcting myopic astigmatism using the technology of intrastromal lenticular removal taking into account cyclotorsia, characterized in that the patient undergoes photo-registration of the eyeballs on the diagnostic module of the Verion navigation system in the sitting position, then photographs of the eyeballs are transmitted over the network to the operating module of the Verion navigation system, after which the patient on the operating module in the supine position is subjected to photo-registration of eyeballs, then the Verion system automatically compares the photographs and issues a cyclic value otorsii further surgeon performs the correction of astigmatism axis tsiklotorsii subject and conducts an operation to the standard protocol on the system femtolazernoy «Visumax».