RU2365358C1 - Method of recurring corneal erosion treatment - Google Patents

Abstract

FIELD: medicine; ophthalmology.

SUBSTANCE: instillation of a cornea defect zone is performed using 1-2 drops of a keratoprotector. The perimetre of a cornea epithelium defect zone is treated with ND:YAG laser having 1064 nanometers wavelength. Exposure is carried out in a single pulse laser operation with 0.8-1.0 mJ energy of impulse, 4 ns impulse duration, 11 microns size of the spot. From 20 to 50 applications are applied in regular intervals by 1 drop 3-4 times a day to complete cuticularisation with the subsequent keratoplasty preparation instillation in a conjunctival cavity.

EFFECT: cornea cuticularisation process acceleration, reduction of terms of treatment and decrease of relapses.

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Description

The invention relates to medicine, namely to ophthalmology, and can be used to treat recurrent erosion of the cornea of various origins.

Recurrent corneal erosion refers by many authors to dystrophic pathology and is a clinical manifestation of a number of eye diseases, such as post-inflammatory bullous keratopathy, post-traumatic corneal dystrophy, herpetic superficial keratitis, traumatic corneal erosion, dry eye syndrome (Kasparov A.A., Kasparova E. , Kasparova Ev.A. Phototherapeutic keratostromectomy, stromal diathermopuncture in the treatment of bullous painful keratopathy and other diseases of the cornea / Collected scientific articles on scientific-practical conference "Modern methods of diagnosis and treatment of diseases of the cornea and sclera." - M., 2007, p. 80; Brzhevsky VV, Somov VV Corneal conjunctival xerosis. Diagnosis, clinic, treatment. - St. Petersburg .: SAGA, 2002, p.40; Gaframanov F.S., Shamilova F.G., Mamedova Z.A. Combination therapy of post-burn corneal dystrophy / Collection of scientific works of the All-Russian Scientific Conference of Young Scientists “Actual Problems of Ophthalmology.” - M., 2006, p.33).

Recurrent corneal erosion is accompanied by signs of eye irritation, reduces the ability of patients to work, requires long-term treatment, and often leads to a decrease in visual acuity. In this regard, the development of methods for the treatment of recurrent corneal erosion is an urgent task of ophthalmology.

Conducted research on patent and medical literature found various methods of treatment of recurrent corneal erosion.

RF Patent No. 2173122 (BIOM No. 31, 2001) protects "A method for treating corneal erosion", according to which a multilayer layer of epithelial cells is grown on the inner surface of a soft contact lens and then a contact lens is placed on the affected cornea.

The disadvantages of this method is the complexity of cell cultivation, as well as the intensification of the phenomenon of eye irritation due to the presence of a contact lens on the cornea.

In the patent of the Russian Federation No. 2192905 (BIPM No. 32, 2002), a "Method for the treatment of post-traumatic dystrophy of the cornea" is described, according to which coagulation of the surface layers of the epithelium is carried out using a CO ₂ laser with a wavelength of 10.6 μm, with a power of 1 to 10 W, spot diameter 300-800 μm with an exposure of 0.1-0.5 s, the number of applications 4-15. Next, the cornea is coagulated by an IR laser with a wavelength of 1.54 μm, with an exposure of 1.5 · 10 ^-3 s, spot diameter of 300-1000 μm, with an energy of 200-800 mJ, the number of applications is 5-18. Then, after 1 month, the residual hyperopic astigmatism is corrected by coagulation of the cornea in the adjacent weak meridian with the dystrophy zone by an IR laser with a wavelength of 1.54 μm, an exposure time of 1.5 · 10 ^-3 s, an energy of 200-800 mJ, a spot diameter of 300 -1000 microns and the number of applications 8-15.

The disadvantages of this method are its increased invasiveness and duration of treatment, as well as the possibility of changing the refractive properties of the cornea, which in turn can lead to visual impairment.

RF patent No. 2218896 (BIPM No. 35, 2003) protects the "Method for the treatment of post-inflammatory bullous keratopathy", which is carried out by introducing the treatment mixture into the lymphatic region of the orbit on the side of the affected eye through pterygopalatine blockade. The composition of the mixture includes: lidocaine 20-40 mg, dexazone 4-8 mg, taufon 40-80 mg, dalargin 1-2 mg, lidase 16-32 units. act., distilled water 3-6 mg. Spend 3-6 blockades with an interval every other day.

The disadvantages of this method are the lack of effectiveness of treatment, since the effect on the structure of the cornea is indirect, as well as the duration of treatment, since the method requires repeated manipulations up to 2 weeks.

The well-known "Method for the treatment of corneal dystrophy" described in the patent of the Russian Federation No. 2220692 (BIPM No. 1, 2004), in which autohemotherapy is performed to obtain a constant layer of blood on the front surface of the cornea before corneal epithelization. In a particular case, heparin is used 2 times a day, or holes are formed in the conjunctiva, into which a fibrinolytic solution is subsequently administered.

The disadvantages of this method are its technical complexity and invasiveness, the practical impossibility of providing a permanent layer of blood on the cornea, as well as the fact that there is a risk of inflammatory complications.

The closest in technical essence and adopted as a prototype is the "Method of treating long-term non-healing erosion and corneal ulcers", protected by RF patent No. 2223727 (BIPM No. 5, 2004). The corneal defect zone is pre-instilled with 1-2 drops of a hemodialyzate drug from the blood of calves for 6-14 days, followed by external exposure to the cornea with a constant magnetic field with induction of 120-160 mT daily for 2-8 minutes from 1 to 3 times a day . The course of treatment is from 12 to 28 sessions.

The disadvantages of the prototype are the possibility of the development of relapse of erosion, as well as the duration of the course of treatment.

The aim of the invention is to reduce the time and increase the effectiveness of treatment with the achievement of clinical recovery in patients with recurrent corneal erosion.

The goal is achieved in that a patient with recurrent corneal erosion is pre-installed with a corneal defect zone of 1-2 drops of a drug - keratoprotector. Then carry out external action on the cornea. Using an ND: YAG laser with a wavelength of 1064 nm, in a single pulsed mode with a pulse energy of 0.8-1.0 mJ, a pulse duration of 4 ns, a spot size of 11 μm, uniformly applied from 20 to 50 applications. Subsequently, a keratoplastic preparation is instilled into the conjunctival cavity 1 drop 3-4 times a day until the corneal epithelialization.

The method is as follows.

Patients with recurrent corneal erosion are pre-instilled with a corneal defect zone with 1-2 drops of the drug. As a medicine, a keratoprotector, for example, oftagel, is used. After instillation, an external effect on the cornea is performed under local anesthesia. Using an ND: YAG laser (LASEREX LQP 3106) with a wavelength of 1064 nm, in a single pulsed mode with a pulse energy of 0.8-1.0 mJ, a pulse duration of 4 ns, a spot size of 11 μm, along the perimeter of the corneal defect zone evenly apply from 20 to 50 applications. In the future, the patient is prescribed an instillation of a keratoplastic preparation, for example, a cornegel, in a conjunctival cavity, 1 drop 3-4 times a day until the corneal epithelization.

Oftagel - P No. 012493/01 of 10.27.2006. Pharmacotherapeutic group: keratoprotective agent. Pharmacological action: increases the viscosity of the tears, forming a protective moisturizing film on the surface of the cornea.

Korneregel - P No. 015841/01. Pharmacotherapeutic group: tissue regeneration stimulator. Pharmacological action: corneal protector. Stimulates the processes of regeneration of the cornea. It has anti-inflammatory effect.

The theoretical justification of the proposed method for the treatment of recurrent corneal erosion was the pathogenetically directed action of the YAG laser. To increase epithelial-stromal adhesion, it is necessary to create abrasion or irregularity on the surface of the cornea, which is possible when exposed to a YAG laser and local destruction at the sites of exposure to the Bowman membrane. The need to use a keratoprotector (ophthalmic gel) is explained by the need to create a regular surface on the cornea for accurate aiming of the YAG laser and the depth of exposure to the surface layers of the stroma. The choice of a keratoplastic preparation (cornegel) is associated with the fact that this preparation contains dexpanthenol, which contributes to the regeneration of the epithelium and the rapid closure of the defect (Vidal specialist. Ophthalmology Handbook. - M.: Astrafarmservis, 2007, p. 368).

It is known that the corneal epithelium lies on the basement membrane, which is tightly soldered to the Bowman membrane. In the surface layers of the stroma are fibroblasts - the main cells of the connective tissue. Fibroblasts synthesize the intercellular matrix and the main substance of the connective tissue - an amorphous jelly-like substance that fills the space between cells and fibers of the connective tissue. Fibroblasts participate in the healing of corneal wounds through the synthesis of inflammatory mediators, stimulate the migration and proliferation of epithelial cells (Bagrov S.N. Sources of the regeneration of the cornea of the eye / Military Medical Journal - 1998, p.23).

Given the role of fibroblasts in the epithelization of corneal defects, we used a laser effect in the form of corneopuncture along the edge of the epithelial defect to a depth to the surface layers of the corneal stroma. Laser exposure activates the function of fibroblasts, and the cornegel, filling the formed puncture, promotes the growth of the epithelium, filling the corneal defect.

The practical application of the proposed method is illustrated by an example from clinical practice.

Example:

Patient T., 33 years old, ambulatory card No. 113/07 turned to the emergency care center of the BSMP No. 2 of Rostov-on-Don with complaints of lacrimation, photophobia, a feeling of a foreign body in the right eye. In the history of the past 3 years after 2-2.5 months, a relapse of erosion of the cornea of the right eye was noted. The patient instilled 1 drop of balarpan 4 times a day, 1.0 ml of riboflavin was administered under the conjunctiva every other day No. 5. The treatment provided epithelization of the cornea after 3 weeks.

Objectively: during biomicroscopy, it was found that the right eye was irritated, mixed injection was noted, on the cornea in the lower quadrant, with the capture of the optical zone, an epithelial defect measuring 1.5 by 2.5 mm was detected. The underlying structures were not changed, the ophthalmotonus (palpation) was within normal limits. The left eye is healthy.

Diagnosis: Recurrent erosion of the cornea of the right eye.

According to the proposed method, the patient was treated with recurrent corneal erosion.

Previously, the instillation of the zone of the defect of the cornea of the right eye was performed with 2 drops of keratoprotector - oftagel. After instillation, the patient underwent local anesthesia with 0.4% inocaine - 1 drop. Then, using an ND: YAG laser (LASEREX LQP 3106) with a wavelength of 1064 nm, in a single pulsed mode with a pulse energy of 0.8 mJ, a pulse duration of 4 ns, a spot size of 11 μm, uniformly applied along the perimeter of the corneal defect zone 30 applications. In the future, the patient was prescribed an instillation of a keratoplastic preparation, a root root, in the conjunctival cavity, 1 drop 3 times a day until the corneal epithelization occurred 8 days later.

Control examination of the patient showed complete transparency and epithelialization of the cornea, that is, clinical recovery was achieved.

By the proposed method, we treated 12 patients with recurrent corneal erosion. After treatment according to the claimed method, corneal epithelization occurred after 7-10 days in all patients. No recurrence of corneal erosion was observed, and a persistent clinical effect was achieved.

We performed a retrospective analysis of medical records of 50 patients with recurrent corneal erosion, whose treatment was carried out conservatively. The duration of treatment was an average of 22 days. Relapse was noted in 33 (66%) patients at different times after remission.

Thus, the proposed method for the treatment of recurrent corneal erosion can significantly reduce the time and reduce the number of relapses in patients with this pathology.

Claims (1)

A method for the treatment of recurrent corneal erosion, comprising preliminary instillation of the corneal defect zone with 1-2 drops of a drug, followed by external exposure to the cornea, characterized in that the instillation is performed with a keratoprotector, and then along the perimeter of the corneal defect zone with an ND: YAG laser with a length waves 1064 nm, in a pulsed single mode with a pulse energy of 0.8-1.0 mJ, a pulse duration of 4 ns, a spot size of 11 μm, uniformly apply from 20 to 50 applications, followed by installation of ke ratoplastic preparation into the conjunctival cavity 1 drop 3-4 times a day until complete epithelization.