RU2702310C1 - Method of calculating thickness of graft in corneal excimer laser operations - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely ophthalmosurgery. Thickness of the flap is measured in the LASIK and Femto-LASIK corneal excimer laser operations to measure the maximum thickness of the corneal epithelium by optical coherence tomography (OCT). One drop of anesthetic is instilled into the conjunctival sac and injected into the eye to be anesthetized during surgery. 5 minutes after instillation, the maximum thickness of the corneal epithelium is measured. If its thickness is more than or equal to 80 mcm, then operation with formation of a standard flap from 100 to 130 mcm is planned. If the thickness of the epithelium is less than 80 mcm, an ultra-thin tissue-preserving flap with thickness of 90 mcm is planned.

EFFECT: method improves operation accuracy, reduces complications associated with under-correction or over-correction of patient's abnormality, reduces rehabilitation time and increases predictability of residual thickness of corneal stromal tissue.

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Description

The method relates to medicine, namely to ophthalmic surgery. The method is used in cases where it is necessary to create an ultrathin corneal flap during excimer laser operations LASIK (laser introstromal keratomileusis insitu) and Femto-LASIK (femtolaser introstromal keratomileusis insitu).

These methods of excimer laser correction are as follows: on the surface of the cornea a flap is formed with a thickness of 90 to 130 microns by a femtosecond laser or a special device - a microkeratome. The slice during its formation should pass in the stromal layers of the cornea, but not in the layers of the epithelium. The flap bends to the side and the surface layers of the corneal stroma are ablated. After the end of the ablation process, the flap is placed in its original place. In this case, before surgery, to instill pain, instill anesthetic into the conjunctival cavity. Normally, the thickness of the epithelium is approximately 10% of the entire average thickness of the cornea. Most often, the thickness of the epithelium at the thickest point is 50-70 microns. In some cases, under the influence of instillation of this group of drugs, an increase in the thickness of the corneal epithelium occurs, in which it becomes thicker than 80 microns in the thickest place. In this case, the cut can pass in the layers of the epithelium, which violates the technology of the operation and leads to an unpredictable result of excimer laser correction. Therefore, with an increase in the thickness of the epithelium in response to instillation of the anesthetic to 80 μm or more, it is necessary to plan a section in the deeper layers of the cornea.

The authors are not aware of the closest analogues of the invention.

The objective of this method is to create a predictable and accurate method for calculating the thickness of the flap during excimer laser operations on the cornea.

The technical result of the method is to increase the accuracy of the operation, reduce the complications associated with under-correction or correction of the patient’s refractive error, decrease the rehabilitation time and increase the predictability of the residual thickness of the stromal tissue of the cornea.

The technical result is achieved by the fact that during the diagnosis, in addition to standard examination methods, the maximum thickness of the epithelium is measured using optical coherence tomography (OCT). After the measurements, drops “Alkain” (Sol. Proxymetacaine 0.5%) or Inocain (Sol. Oxybuprocaini 0.4%) are instilled and the maximum thickness of the epithelium is measured 5 minutes after instillation again. If its thickness is greater than or equal to 80 microns, then an operation is planned with the formation of a standard flap from 100 to 130 microns. The scatter in the thickness parameters of the flap is due to the fact that it is easiest to manipulate during the operation if its thickness is from 100 to 130 microns. If the thickness of the epithelium is less than 80 microns, then it is planned to form an ultra-thin tissue-saving flap 90 microns thick. The thickness of 90 μm is due to the fact that it is with such a thickness that the flap is the most safe to form and separate from the cornea. This allows you to save corneal tissue and correct more diopters.

Between the totality of essential features and the achieved technical result, there is a causal relationship. During the examination of the patient, an anesthetic is instilled, which will be used during the operation, then OCT is performed, and 5 minutes after the instillation, the thickness of the epithelium is measured so that at any final thickness of the epithelium, the section passes through the stromal layers and the formed flap contains both the epithelial and stromal components . In this case, the subsequent work of the laser correcting dioptricity of the cornea always occurs in the stromal layers, which ensures the predictability of the final result of the operation and the residual stromal tissue of the cornea. The method is as follows.

At the diagnostic stage, before performing excimer laser correction, in addition to performing standard diagnostic measures (biomicroscopy, visometry, autorefractometry, tonometry, keratotopography, pachymetry, ophthalmoscopy for a wide pupil), the maximum thickness of the epithelium is measured by OCT, and a single drop of anesthet is installed into the conjunctival sac drops (to check for a possible reaction to the anesthetic in the form of an increase in its thickness to 80 microns or more) which will be used for anesthetics Lebanon during operation. Using the OCT method, 5 minutes after installation, an assessment is made of the thickness of the corneal epithelial layer. If the maximum thickness of the epithelium is greater than or equal to 80 microns, then they plan an operation with the formation of a flap with a thickness of 100 to 130 microns. If the maximum thickness of the epithelium is less than 80 microns, then plan to form a flap with a thickness of 90 microns.

Example 1. Patient C. 32 years old, was admitted to the hospital with a diagnosis of High myopia OU. Visual acuity: OD 0.02 sph with correction -7.5D = 1.0, OS 0.03 sph with correction -7.0D = 1.0 Minimum corneal thickness OD = 510 μm, OS = 502 μm.

10/03/17 the patient successfully underwent a complete preoperative diagnosis, including: biomicroscopy, visometry, autorefractometry, tonometry, keratotopography, pachymetry, ophthalmoscopy for a wide pupil. There were no contraindications to laser correction using the Femto-LASIK method. The patient was instilled with an anesthetic Alkain (Sol. Proxymetacaini 0.5%), one drop in each eye, which was subsequently planned for use during the operation. 5 minutes after instillation, the thickness of the epithelium was measured by OCT. Its maximum thickness was 58 microns, so during the operation it was planned to form an ultra-thin tissue-saving flap 90 microns thick. The patient is completely satisfied with the result. Visual acuity was 1.0 with each eye. Preliminary instillation of an anesthetic solution with subsequent measurement of the thickness of the epithelium made it possible to calculate the thickness of the epithelium, plan the formation of a thin tissue-saving flap and remove all diopters planned to achieve a refractive effect,

Example 2. Patient D., 26 years old, was admitted to the hospital with a diagnosis of Myopia of high degree of OU. Visual acuity: OD 0.05 sph with correction -6.5D = 1.0, OS 0.08 sph with correction -6.25D = 1.2. The minimum thickness of the cornea is OD = 515 μm, OS = 508 μm.

12/08/17 the patient successfully underwent a complete preoperative diagnosis, including: biomicroscopy, visometry, autorefractometry, tonometry, keratotopography, ophthalmoscopy on a wide pupil. There were no contraindications to laser correction using the LASIK method. The thickness of the corneal epithelium during preoperative diagnosis according to OCT was 50 μm. The patient was instilled with an anesthetic Inocaine (Sol. Oxybuprocaini 0.4%), which was subsequently planned for use during the operation. 5 minutes after instillation, the thickness of the epithelium was measured using OCT and it turned out that it was 80 μm. The patient underwent surgery LASIK in accordance with the proposed invention with the formation of the flap with a thickness of 100 μm to undergo a section of the flap in the stromal layers. The patient is completely satisfied with the result. Visual acuity was 1.2 with each eye. A test with instillation of anesthetic before surgery revealed an increase in the epithelium up to 80 μm and performed a flap thicker than in the first example, which gave a predicted and accurate correction result.

Example 3. Patient D., 26 years old, was admitted to the hospital with a diagnosis of Myopia of high degree of OU. Visual acuity: OD 0.01 sph with correction -7.25D = 1.0, OS 0.01 sph with correction -7.50D = 1.0 Minimum corneal thickness OD = 608 μm, OS = 612 μm.

12.20.17 the patient successfully underwent a complete preoperative diagnosis, including: biomicroscopy, visometry, autorefractometry, tonometry, keratotopography, ophthalmoscopy for a wide pupil. There were no contraindications to laser correction using the Femto-LASIK method. The thickness of the corneal epithelium during preoperative diagnosis according to OCT was 60 μm. The patient was instilled with an anesthetic Inocaine (Sol. Oxybuprocaini 0.4%), which was subsequently planned for use during the operation. 5 minutes after instillation, the thickness of the epithelium was measured using OCT and it turned out that it was 90 μm. The patient underwent the Femto-LASIK operation in accordance with the proposed invention with the formation of a flap with a thickness of 130 μm to undergo a cut of the flap in the stromal layers. The patient is completely satisfied with the result. Visual acuity was 1.0 with each eye. A test with instillation of the anesthetic before surgery revealed an increase in the epithelium of more than 80 microns and performed a flap thicker than in the first Example, which gave a predicted and accurate correction result.

By the claimed method, 60 patients were examined and operated on, in whom a controlled correction result was obtained in the postoperative period. The claimed method is accurate, atraumatic and can be reproduced by other diagnostic doctors, as well as surgeons. Thus, the method for calculating the thickness of the flap during excimer laser operations on the cornea, performed by the proposed method, increases the quality and predictability of the operation of the result of the operation, reduces the complications associated with under-correction or correction of the patient’s refractive error, reduces the rehabilitation time and increases the predictability of the residual thickness of the corneal stromal tissue.

Claims (1)

A method of calculating the thickness of the flap during excimer laser operations on the LASIK and Femto-LASIK cornea, characterized in that one drop is preinstalled in the conjunctival sac into each eye of the anesthetic, which will then be used to anesthetize during the operation, and 5 minutes after installation, the maximum thickness of the corneal epithelium by optical coherence tomography, and if the maximum thickness of the epithelium is greater than or equal to 80 microns, then during the operation, a flap with a thickness of 100 d or more is formed 130 microns, and if the maximum thickness of the epithelium of less than 80 microns, then at step shape flap 90 microns thick.