RU2739995C1 - Method for conducting ultraviolet corneal cross-linking using biolens with thin cornea - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to ophthalmology. It involves pachymetry of cornea, epithelial debridement of cornea, saturation of lens and de-epithelised cornea of patient with aqueous solution containing 0.1 % riboflavin mononucleotide. Temporary thickening of the patient's cornea by placing the lens on the de-epithelised cornea and ultraviolet irradiation of the cornea at wave length 370 nm with total energy of 5.4 J/cm² is performed. Epithelial debridement of the cornea is performed in 8.5 mm zone, saturation of the lens and de-epithelised cornea is carried out with a solution additionally containing 20 % dextran, for thickening the cornea of the patient for a period of exposure to 450 mcm and covering of the epithelial debridement zone, a biolens is prepared using a femtosecond laser from an autologous donor corneal tissue with diameter of 8.5 mm and thickness of 100 to 150 mcm is used. Corneal ultraviolet irradiation is carried out in Accelerated mode capacity of 9 mW/cm² for 10 minutes. Objective of the invention is to expand the indications for performing ultrasound corneal cross-linking in keratoconus in patients with corneal thickness less than 400 mcm.

EFFECT: method provides higher therapeutic effect and protection of deep layers of cornea due to thickening of the cornea on the entire surface to 450 mcm, excluding damage to the endothelial layer of the cornea, enabling to perform the procedure of cross-linking with thickness of the cornea less than 400 mcm.

1 cl, 2 dwg, 3 ex

Description

The invention relates to medicine, more specifically to ophthalmology, and can be used for the treatment of corneal keratoconus by ultraviolet crosslinking in patients with ultrathin cornea.

A known method of treating corneal ectasia using ultraviolet (UV) corneal crosslinking, which consists in the fact that after preliminary de-epithelization of the cornea, it is saturated with an aqueous solution of Riboflavin 0.1% for 30 minutes and irradiation with UV-A at a wavelength of 370 nm for 30 minutes - "Dresden Protocol". Crosslinking causes the appearance of additional covalent bonds between collagen fibers and corneal macromolecules and apoptosis of corneal cells - keratocytes, as a result of which there is an improvement in the strength properties of the tissue and stabilization of the disease, and as a consequence, its flattening due to tissue compaction. Crosslinking should affect the entire cellular and extracellular composition of the cornea, with the exception of the Descemet's membrane and endothelium, provided that it is performed with a residual thickness after de-epithelialization of the cornea of at least 400 microns in the thinnest place [Bikbov MM, Halimov AR, Usubov E.L. Ultraviolet corneal crosslinking. Bulletin of the RAMS. 2016; 71 (3): 224-232. doi: 10.15690 / vramn562]. If the protocol is followed, apoptosis of keratocytes is observed in the corneal stroma (approximately in its upper 2/3), the formation of covalent bonds between collagen fibers and macromolecules of the cornea, and subsequently local activation of keratogenesis in the form of the appearance of young cells, which gradually replenish the volume of the “lost” stroma ... Thanks to crosslinking, the process of differentiation of young keratocytes occurs with the formation of a full-fledged stroma with normal optical properties [V.V. Neroev et al. The effect of crosslinking on the healing of experimental surgical injuries of the cornea. Practical Medicine, 04 (12) Volume 1, 2012., http://pmarchive.ru/vliyanie-krosslinkinga-na-zazhivlenie-eksperimentalnyx-xirurgicheskix-ranenij-rogovicy/].

There is a known method of protecting the cornea and limbal zone of the eye from exposure to ultraviolet radiation during crosslinking, when in order to reduce the negative effects of ultraviolet radiation on the limbal zone and the cornea of the eye at its critical thickness during crosslinking due to a more accurate selection of the ectasia zone, a colored soft cosmetic is put on the cornea a contact lens, in the central part of which a hole is made, the shape of which corresponds to the ectasia of the patient's cornea according to the personal data of keratotopography [RF Patent No. 2496457, 2012].

The closest analogue of the invention is a crosslinking method using a soft contact lens to thicken the cornea with its thickness less than 400 microns, which consists in the fact that after preliminary de-epithelization and 30-minute saturation with an iso-osmolar solution containing 0.1% riboflavin, the latter is preliminarily applied a soft contact lens saturated in the same solution without a UV filter, irradiation of the cornea is performed according to the standard protocol at a power of 3 mW / cm ² - 30 minutes (total energy 5.4 J / cm ² ) [J Refract Surg. 2014 Jun; 30 (6): 366-72. doi: 10.3928 / 1081597X-20140523-01]. The disadvantage of this method is that when performing the crosslinking procedure, the presence of a contact lens on the entire surface of the cornea limits the penetration of oxygen into the layers of the cornea (oxygen permeability - O ₂ for these lenses - 22-24%), as well as UV irradiation into the deeper layers of the cornea, where its thickness at the periphery is much higher than at the apex of the cone. In addition, the presence of an immersion medium between the contact lens and the cornea also delays UV radiation and does not allow the process to be controlled and the depth of radiation penetration cannot be predicted. Restriction of oxygen access to the cornea and a significant difference in the thickness of the cornea in certain areas, temporary thickening of the cornea by a fixed value (contact lens thickness 110-140 μm) distributes the radiation energy at different depths and does not allow achieving an optimal clinical effect and unifying the procedure at different initial thicknesses in individual cases.

The objective of the invention is to expand the indications for performing ultraviolet corneal crosslinking in keratoconus in patients with corneal thickness less than 400 microns.

The technical result when using the invention is an increase in the therapeutic effect and protection of the deep layers of the cornea due to the thickening of the cornea over the entire surface of the cornea up to 450 microns, excluding damage to the endothelial layer of the cornea, the possibility of performing a crosslinking procedure with a corneal thickness less than 400 microns.

The proposed method of ultraviolet crosslinking of the cornea in patients using a biological lens for keratoconus is carried out as follows. First, optical coherence tomography (OCT) is performed to determine the thickness of the epithelial layer and the entire cornea in the thinnest place. By subtracting the epithelial thickness from the total corneal thickness, a preliminary minimum corneal thickness is determined. The thickness of the biolens is selected so that it provides an increase in the thickness of the cornea to a value of at least 450 microns. A contraindication to the procedure is the presence of a residual corneal thickness of less than 300 microns.

Biological lens preparation:

A preserved corneoscleral flap (“corneal restoration material” RU dated December 23, 2015 No. FSR 2012/14148) is placed on an artificial anterior chamber made by Ziemer (Switzerland) with the epithelial side up and fixed with a 12 mm ring, a screw ring and a stopper. By supplying irrigation fluid, pressure is maintained in the artificial anterior chamber. The laser head is applied to the cornea until full applanation under the control of optical coherence tomography. With the help of a femtosecond laser LDV Z8 Ziemer (Switzerland) with the use of the Anterior Lamellar Keratoplasty module, a corneal disc with a diameter of 8.5 mm and a thickness of 100 to 150 µm is formed, depending on the residual thickness of the patient's cornea. Formed corneal disc - biolens for saturation is placed for 10 minutes in an aqueous solution of a photosensitizer containing 0.1% riboflavin mononucleotide and 20% dextran (protected by RF patent No. 2412707, produced under the trademark "Dextralink").

Preparation of the patient's eye: Then de-epithelialization of the patient's cornea is carried out in the 8.5 mm zone for better oxygenation of the cornea; saturate the stroma with a photosensitizer by installing a corneal protector - an aqueous solution containing 0.1% riboflavin mononucleotide and 20% dextran for 25 minutes to the required degree of saturation. A riboflavin-saturated biolens is applied to the cornea of the eye so that it covers 90% of the surface area. After that, the cornea is irradiated using a device for ultraviolet irradiation of the cornea of the eye "UFalink Quant" (Russia, registration certificate No. RZN 2019/8172) with a wavelength of 365 nm and a power of 9 mW / cm ² (total energy - 5.4 mJ \ cm ² ) for 10 minutes. The biolens transmits ultraviolet radiation in the same way as the own cornea saturated with riboflavin, but at the same time artificially thickens it by the thickness of the biolens, providing the final corneal thickness for the duration of irradiation of 450 microns. In this case, the generated ultraviolet radiation evenly penetrates to a depth of 350 microns (2/3 of the depth into the stroma) over the entire surface of the cornea, and avoids the harmful effects of radiation on the endothelial layer in the area of its thinning.

The invention is illustrated by the following figures: figure 1 shows high-resolution OCT of the anterior segment of the patient's eye according to example 1; figure 2 - keratotopogram according to the ORB-scan of the patient according to example 1.

The proposed method makes it possible to safely and effectively perform the crosslinking procedure in patients with corneal ectasia with its initial thickness less than 400 μm. This is achieved due to the fact that:

1. The use in the process of crosslinking of a solution containing 0.1% riboflavin mononucleotide and 20% dextran, with hyperosmotic properties, prevents the edema of the biological lens, i. E. does not allow it to swell and increase its thickness in the process of saturation with a photosensitizer, it allows you to maintain its original thickness. This provides temporary corneal thickening to a target of 450 μm during irradiation.

2. The use of UV irradiation in an accelerated mode with a power of 9 mW / cm ² with a wavelength of 370 nm and a total energy of 5.4 J / cm ² for 10 minutes provides the necessary effect of cross-linking of macromolecules in the patient's cornea at the required depth, increasing biochemical bonds between them.

3. The use of a biolens of a given thickness allows you to temporarily increase the thickness of the cornea to the required safe values of at least 450 microns, providing a protective effect on the endothelium.

The essence of the invention is illustrated by the following examples.

Example 1.

Patient S. 1996. Turned to UfNII GB with complaints of decreased vision in both eyes, mostly on the right. From the anamnesis in the last 6 months has dropped sharply.

On admission, the visual acuity was 0.03 with a correction of 0.08.

Objectively: The right eye is calm, the cornea is a cone-shaped protrusion centered in the optical zone, single Vogt striae, Fleischer's ring in the paraoptic zone.

The maximum refractive power of the cornea is Kmax = 64D, the minimum thickness of the cornea with epithelium is 383 microns, without epithelium 340 microns, the density of endothelial cells is 3246 cells / mm ² .

Objective research data are presented in figure 1-2.

The diagnosis of OD - Keratoconus 4 tbsp. by Amsler-Krumeich.

It is recommended to perform on the right eye corneal crosslinking with a biolens according to the proposed method.

The operation was performed: OD - Accelerated corneal crosslinking with an autologous biological lens.

Operation course: Local epibulbar anesthesia with Proxymetacaine solution (trade name "Alcaine")

Biological lens preparation: A preserved corneoscleral flap was placed on an artificial anterior chamber made by Ziemer (Switzerland) with the epithelial side up and fixed with a 12 mm ring, screw ring and a stopper. By supplying irrigation fluid, optimal pressure is ensured in the artificial anterior chamber. The laser head is placed on the cornea until full applanation under the control of optical coherence tomography. Using a femtosecond laser LDV Z8 Ziemer (Switzerland) using the Anterior Lamellar Keratoplasty module, a corneal disc with a diameter of 8.5 mm and a thickness of 110 µm was formed. Formed corneal disc - biolens for saturation is placed for 10 minutes in an aqueous solution of a photosensitizer containing 0.1% riboflavin mononucleotide and 20% dextran.

Preparation of the patient's eye: The patient's cornea was de-epithelized in an 8.5 mm zone and the stroma was saturated with a photosensitizer by installing an aqueous solution containing 0.1% riboflavin mononucleotide and 20% dextran for 25 minutes until complete staining in yellow. Riboflavin-rich biolens is placed on the cornea and centered. This was followed by a 10-fold contact pachymetry of the cornea (index 459 μm). After that, the cornea was irradiated using a device for ultraviolet irradiation of the cornea of the eye "UFalink Quant" with a wavelength of 365 nm, a power of 9 mW / cm ² - for 10 minutes in a continuous accelerated mode. Biolens removed after irradiation. The conjunctival cavity is washed with an antibiotic solution - Levofloxacin, a soft contact lens is applied to the cornea.

On the 1st day after surgery, there was a slight corneal edema, a lens on the cornea, an anterior chamber of medium depth, moisture is transparent, internal structures were normal.

Complete resorption of edema was achieved on the 2nd day, epithelialization of the cornea on the 4th day, after which the soft contact lens was removed. A month later, according to OCT data: corneal thickness was 383 µm, the demarcation line was located at a depth of 254 µm, endothelial cell density was 3123 cells / mm ² .

In the long-term period (up to 3 months), no complications were observed.

Example 2. Patient K. 1999

Upon admission, the visual acuity was 0.02 with a correction of 0.1.

The diagnosis of OD - Keratoconus 4 tbsp. by Amsler-Krumeich.

The maximum refractive power of the cornea is Kmax = 61D, the minimum thickness of the cornea with epithelium is 398 microns, without epithelium 350 microns, the density of endothelial cells is 3312 cells / mm ² .

It is recommended to perform on the right eye corneal crosslinking with a biolens according to the proposed method.

The operation was performed: OD - Accelerated corneal crosslinking with an autologous biological lens.

Operation course: Local epibulbar anesthesia with Proxymetacaine solution (trade name "Alcaine")

Biological lens preparation: A preserved corneoscleral flap was placed on an artificial anterior chamber made by Ziemer (Switzerland) with the epithelial side up and fixed with a 12 mm ring, screw ring and a stopper. By supplying irrigation fluid, optimal pressure is ensured in the artificial anterior chamber. The laser head is placed on the cornea until full applanation under the control of optical coherence tomography. With the help of a femtosecond laser LDV Z8 Ziemer (Switzerland) with the use of the Anterior Lamellar Keratoplasty module, a corneal disc with a diameter of 8.5 mm and a thickness of 100 µm was formed. Formed corneal disc - biolens for saturation is placed for 10 minutes in an aqueous solution of a photosensitizer containing 0.1% riboflavin mononucleotide and 20% dextran.

Preparation of the patient's eye: The patient's cornea was de-epithelized in an 8.5 mm zone and the stroma was saturated with a photosensitizer by installing an aqueous solution containing 0.1% riboflavin mononucleotide and 20% dextran for 25 minutes until complete staining in yellow. Riboflavin-rich biolens is placed on the cornea and centered. This was followed by a 10-fold contact pachymetry of the cornea (index 452 μm). After that, the cornea was irradiated using a device for ultraviolet irradiation of the cornea of the eye "UFalink Quant" with a wavelength of 365 nm, a power of 9 mW / cm ² - for 10 minutes in a continuous accelerated mode. Biolens removed after irradiation. The conjunctival cavity is washed with an antibiotic solution - Levofloxacin, a soft contact lens is applied to the cornea.

On the 1st day after the operation - moderate corneal edema, soft contact lens on the cornea, anterior chamber of medium depth, moisture is transparent, internal structures were normal.

Complete resorption of edema was achieved on the 3rd day, epithelialization of the cornea on the 4th day, the contact lens was removed.

A month later, according to OCT data: corneal thickness was 405 μm, the demarcation line was located at a depth of 242 μm, the density of endothelial cells was 3293 cells / mm ² .

In the long-term period (up to 3 months), no complications were observed.

Example 3. Patient M. 27 years old.

Upon admission, the visual acuity was 0.05 with a correction of 0.09.

OS diagnosis - Keratoconus 4 tbsp. by Amsler-Krumeich.

The maximum refractive power of the cornea is Kmax = 66.5 D, the minimum thickness of the cornea with epithelium is 348 microns, without epithelium is 300 microns, the density of endothelial cells is 3152 cells / mm ² .

It is recommended to perform on the right eye corneal crosslinking with a biolens according to the proposed method.

The operation was performed: OD - Accelerated corneal crosslinking with an autologous biological lens.

Operation course: Local epibulbar anesthesia with Proxymetacaine solution (trade name "Alcaine")

Biological lens preparation: A preserved corneoscleral flap was placed on an artificial anterior chamber made by Ziemer (Switzerland) with the epithelial side up and fixed with a 12 mm ring, screw ring and a stopper. By supplying irrigation fluid, the optimal pressure in the artificial anterior chamber is ensured. The laser head is placed on the cornea until full applanation under the control of optical coherence tomography. With the help of a femtosecond laser LDV Z8 Ziemer (Switzerland) using the "Anterior Lamellar Keratoplasty" module, a corneal disc with a diameter of 8.5 mm and a thickness of 150 microns was formed. Formed corneal disc - biolens for saturation is placed for 10 minutes in an aqueous solution of a photosensitizer containing 0.1% riboflavin mononucleotide and 20% dextran.

Preparation of the patient's eye: The patient's cornea was de-epithelized in an 8.5 mm zone and the stroma was saturated with a photosensitizer by installing an aqueous solution containing 0.1% riboflavin mononucleotide and 20% dextran for 25 minutes until complete staining in yellow. Riboflavin-rich biolens is placed on the cornea and centered. This was followed by a 10-fold contact pachymetry of the cornea (index 452 μm). After that, the cornea was irradiated using a device for ultraviolet irradiation of the cornea of the eye "UFalink Quant" with a wavelength of 365 nm, a power of 9 mW / cm ² - for 10 minutes in a continuous accelerated mode. Biolens removed after irradiation. The conjunctival cavity is washed with an antibiotic solution - Levofloxacin, a soft contact lens is applied to the cornea.

On the 1st day after the operation - moderate corneal edema, soft contact lens on the cornea, anterior chamber of medium depth, moisture is transparent, internal structures were normal.

Complete resorption of edema was achieved on the 3rd day, epithelialization of the cornea on the 5th day, the contact lens was removed.

A month later, according to OCT data: corneal thickness was 367 μm, the demarcation line was located at a depth of 204 μm, the density of endothelial cells was 3154 cells / mm ² .

In the long-term period (up to 3 months), no complications were observed.

The claimed method of treatment was applied in 4 patients (4 eyes) with keratoconus 4 tbsp. In all cases, the early and late postoperative periods were without complications.

Claims (1)

A method for conducting ultraviolet corneal crosslinking using a biollens in the treatment of keratoconus, including corneal pachymetry, corneal de-epithelization, saturation of the lens and de-epithelialized cornea of the patient with an aqueous solution containing 0.1% riboflavin-mononucleotide, temporary thickening of the corneal lens on the patient by de-epithelialization cornea with a wavelength of 370 nm with a total energy of 5.4 J / cm ² , characterized in that de-epithelialization of the cornea is carried out in the 8.5 mm zone, saturation of the lens and de-epithelialized cornea is carried out with a solution additionally containing 20% dextran to thicken the patient's cornea for a time irradiation up to 450 microns and covering the de-epithelialization zone use a biollens prepared using a femtosecond laser from autologous donor corneal tissue with a diameter of 8.5 mm and a thickness of 100 to 150 microns, and ultraviolet irradiation of the cornea is carried out in an accelerated mode with a power of 9 mW / cm ² during less than 10 minutes.

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