EA026805B1 - Method for keratoconus surgical treatment - Google Patents

Abstract

The invention relates to medicine, particularly ophthalmology, and may be applied in treatment for corneal keratoconus or other keratoectasias. Task of the present invention is developing effective, non-invasive method for cornea flattening in order to improve visual function. The task stated is solved by surgical treatment for keratoconus, consisting in two-stage resection of cornea using femtosecond laser, wherein a circular section of cornea being made at 1.5 to 2.0 mm from limb area, at an angle to cornea surface, to the depth to 90% of cornea thickness; next, a second circular section of cornea being made perpendicular to cornea surface at 150 to 300 μm from the first one, such that mentioned sections would meet at the defined depth and annular, wedge-section flap of corneal tissue was formed and removed, whereupon edge of corneal wound is closed with interrupted suture 10-0.

Description

The invention relates to medicine, in particular to ophthalmology, and can be used to treat keratoconus of the cornea and other keratectasias.

A known method for correcting astigmatism in patients with a thin cornea [1], including calculating topographic parameters for corneal incisions in accordance with the nomogram for calculating corneal incisions and applying keratotomy sections to the cornea using a femtosecond laser, characterized in that the diameter of applying corneal incisions is increased by 0.25 mm, the depth of the cuts is reduced by 10%, and the opening angle of the cuts is reduced by 10 ° compared with the parameters given in the nomogram.

The disadvantage of this method is the lack of effectiveness in its use in patients with keratoconus, since it does not allow to flatten the cornea sufficiently.

A known method of forming a corneal tunnel for implantation of intracorneal segments in patients with keratoconus [2], including performing intrastromal corneal tunnels with a femtosecond laser by means of a two-stage resection, first making an annular incision at a depth of 100 to 400 μm, the inner diameter of which is from 5.0 up to 5.1 mm, the outer diameter is from 6.7 to 6.8 mm, and then the input section in the radial direction is from 0 to 360 °, lengths from 0.8 to 1.5 mm, starting at the depth of the tunnel and ending at outside surface of the cornea.

The disadvantage of this method of treatment is the implantation of an intracorneal segment from polymethylmethacrylate into the corneal stroma, which is a synthetic material that violates trophic cornea and can lead to the development of complications, which requires removal with a loss of treatment effect.

A known method for the surgical treatment of keratoconus [3], including making an incision perpendicular to the limb by half the thickness of the cornea, delaminating the cornea concentrically to the limb at a distance of at least 0.5 mm from the limb, with a width of 0.5 to 3 mm.

The disadvantages of this method are its complexity, since the corneal stratification is performed mechanically, the difficulty in dosing the depth and width of the stratum, the close localization of the operative zone to the limb region, which is a direct threat to the development of neovascularization of the cornea and worsens the subsequent prognosis of optical keratoplasty if necessary.

A source of information close to the claimed invention was not found.

The objective of the invention is to develop an effective non-penetrating method of flattening the surface of the cornea to increase visual functions.

The problem is solved by the method of surgical treatment of keratoconus, which consists in the fact that using a femtosecond laser perform a two-stage resection of the cornea, while first making a circular section of the cornea, passing at a distance of 1.5-2.0 mm from the limb, at an angle to the surface of the cornea to a depth of up to 90% of the thickness of the cornea, then a second annular corneal incision is made, perpendicular to its surface, at a distance of 150 to 300 μm from the first, so that these sections intersect at a given depth and a ring-shaped flap of corneal tissue with a wedge-shaped profile was formed, after the removal of which the edges of the corneal wound were sutured with 10-0 interrupted sutures.

The operation using a femtosecond laser allows a highly accurate dosed non-penetrating resection of the corneal tissue in the form of a ring-shaped flap with a wedge-shaped profile, and the parameters of the removed flap are calculated individually based on the data of ophthalmological examinations. After suturing the corneal wound, a flattening of the corneal surface is achieved, which improves visual acuity.

The proposed method is illustrated by the following examples.

Patient N., 32 years old, turned to the Ophthalmological Consultative and Diagnostic Department of the 10th City Clinical Hospital in Minsk with complaints of low vision of the left eye. From the anamnesis it was established that the diagnosis of keratoconus in both eyes was made 5 years ago. The patient used hard contact lenses. But over the past 2 years, he has noted poor tolerance to contact correction. Vision without correction remains the same, spectacle correction does not significantly increase vision and does not satisfy the patient. A complete ophthalmological examination was performed. Diagnosis: keratoconus of the 3rd stage of the left eye, 1st stage of the right eye.

Examination results: visual acuity: right eye 0.04 s corr. §Br - 7.5 = 1.0, left eye 0.03 s corr. § Br 8.5 su1 - 5.5 ah 105 ° = 0.1.

Refractometry: right eye § Br -8.25 su1 -1.25 ah 24 °; left eye §Br -9.0 si1 -8.75 ah 105 °.

Keratometry: right eye ver. measures. 43.76 ah 101 °, mountains. measures. 42.4 ah 11 °; left eye ver. measures. 52.46 ah 21 °, mountains. measures. 47.42 ah 115 °.

Pachymetry: right eye: the minimum thickness of the cornea in the paracentral zone is 470 microns, in the zone of 7-10 mm - 550 microns; left eye: the minimum thickness of the cornea in the paracentral zone is 410 microns, in the zone of 7-10 mm - 540 microns.

Echobiometry: right eye: the depth of the anterior chamber of the eye 3.76 mm, the thickness of the lens 3.35, PZO 26.5 mm; left eye: 3.82 mm, lens thickness 3.35, PZO 26.7 mm.

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The patient underwent treatment according to the claimed method.

Description of operation: femtolaser refractive autokeratoplasty (FRAC) on the left eye.

1st stage (laser operating room): conventional treatment of the surgical field, installation anesthesia with Te1gasash1 1% solution three times with an interval of 5 minutes. Blepharostat was established, the conjunctival cavity was washed with 0.9% NaCl solution. A vacuum clamp was installed, applanation was performed, femtolaser formation of the corneal flap according to the KegaYurkMu protocol, the shape of the flap was ring-shaped, the profile of the flap was wedge-shaped (outer diameter 8.0 mm, inner diameter 7.5 mm, flap thickness 505 μm, angle 63 °) , the vacuum retainer is removed, instillation of a solution of levofloxacin 0.3%, aseptic dressing.

2nd stage (operblock of the eye microsurgery department). Normal treatment of the surgical field, installation anesthesia with TeTsasay 1% solution three times with an interval of 5 minutes. Installed blepharostat. The corneal flap was removed with tweezers and a spatula. 16 interlocking sutures 10-0 were applied to the corneal wound. Subconjunctively administered 8o1. Oyuatuate 0.3 ml. + 8o1. Yehateikosh 0.3 ml. An aseptic dressing is applied.

The result of the operation: a flattening of the corneal surface was achieved, visual acuity at discharge 0.3 without correction. The patient was discharged in satisfactory condition on the 3rd day after surgery.

Patient B., 27 years old, turned to the Ophthalmological Consultative and Diagnostic Department of the 10th City Clinical Hospital in Minsk with complaints of low vision of the right eye, decreased vision in the left eye. From the anamnesis it was found that the diagnosis of keratoconus in both eyes was made at the age of 18 years. The patient used glasses and hard contact lenses. However, at present, he is not satisfied with contact correction; the lens does not stick to the surface of the cornea. Spectacle correction is ineffective. A complete ophthalmological examination was performed. Diagnosis: Keratoconus of the 3rd stage of the right eye, 2nd stage of the left eye.

Examination results: visual acuity: right eye 0.03 s corr. 8Yr - 8.5 si1 - 7.5 ah 94 ° = 0.1, left eye 0.1 s corr. 8Yr 4.5 si1 - 2.5 ah 105 ° = 0.6.

Refractometry: right eye 8Yp -9.25 su1 -8.25 ah 94 °; 8Yp left eye - 4.5 si1 - 3.75 x 105 °.

Keratometry: right eye ver. measures. 47.74 ah 101 °, mountains. measures. 42.4 ah 10 °; left eye ver. Mme. 43.46 ah 24 °, mountains. measures. 45.3 ah 108 °.

Pachymetry: right eye: the minimum thickness of the cornea in the paracentral zone is 370 microns, in the zone of 7-10 mm - 550 microns; left eye: the minimum thickness of the cornea in the paracentral zone is 420 microns, in the zone of 7-10 mm - 540 microns.

Echobiometry: right eye: the depth of the anterior chamber of the eye 3.85 mm, the thickness of the lens 3.2, PZO 25.5 mm; left eye: 3.6 mm, lens thickness 3.42, PZO 25.3 mm.

The patient underwent treatment according to the claimed method.

Description of operation: femtolaser refractive autokeratoplasty (FRAC) on the left eye. Stage 1 (laser operating room): conventional treatment of the surgical field, instillation anesthesia with TeCasay 1% solution three times with an interval of 5 minutes. Blepharostat was established, the conjunctival cavity was washed with 0.9% NaCl solution. A vacuum clamp was installed, applanation was performed, femtolaser formation of the corneal flap according to the KegaYurkMu protocol, the shape of the flap was ring-shaped, the profile of the flap was wedge-shaped (outer diameter 8.0 mm, inner diameter 7.5 mm, flap thickness 505 μm, angle 59 ° ), the vacuum retainer is removed, instillation of a solution of levofloxacin 0.3%, aseptic dressing.

2nd stage (operblock of the department of eye microsurgery). Normal treatment of the surgical field, instillation anesthesia with TeTsasay 1% solution three times with an interval of 5 minutes. Installed blepharostat. The corneal flap was removed with tweezers and a spatula. 16 interlocking sutures 10-0 were applied to the corneal wound. Subconjunctively administered 8o1. Oyuatuate 0.3 ml. + 8o1. Yehateikot 0.3 ml. An aseptic dressing is applied.

The result of the operation: flattening of the surface of the cornea was achieved, visual acuity at discharge 0.2-0.3 without correction. The patient was discharged in satisfactory condition 3 days after surgery.

Thus, the treatment according to the claimed method is a gentle surgical intervention due to the predictability, accuracy and dosage of the effect of the femtosecond laser on the corneal tissue during the formation of a ring-shaped flap with a complex wedge-shaped profile, which is impossible with the manual operation technique. The non-penetrating nature of this treatment method allows to avoid intra- and postoperative complications characteristic of operations performed with the opening of the anterior chamber of the eye. The claimed method of treatment can effectively flatten the surface of the cornea, which creates conditions for improving its optical properties and increasing visual acuity.

Sources of information taken into account when filling out the application:

1. Patent No. 2456972 KI, IPC A61P 9/008, published July 27, 2012, Bull. Number 21.

2. Patent No. 2375025 KN, IPC A61P 9/01, published December 10, 2009, Bull. Number 34.

3. Patent No. 2261073 KI, IPC A61P 9/007, published September 27, 2005, Bull. Number 27.

Claims (1)

CLAIM The method of surgical treatment of keratoconus, which consists in the fact that using a femtosecond laser perform a two-stage resection of the cornea, while first produce an annular incision of the cornea, passing at a distance of 1.5-2.0 mm from the limbus, at an angle to the surface of the cornea, to a depth of up to 90% of the cornea thickness, then a second annular incision of the cornea is made, perpendicular to its surface, at a distance of 150 to 300 μm from the first one, so that these incisions intersect at a predetermined depth and a ring-shaped a flap of corneal tissue with a wedge-shaped profile, after removal of which the edges of the corneal wound are sutured with interrupted sutures 10-0.