RU2554228C1 - Method of correcting mild-degree post-operative hypermetropia after phacoemulsification or laser extraction of cataract with implantation of intraocular lens - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention is intended for correction of post-operative mild-degree hypermetropia after phacoemulsification (PE) or laser extraction (LE) of cataract with implantation of intraocular lens (IOL) with inaccuracy of calculation of intraocular lens power. After drop anaesthesia disperse-cohesive viscoelastic is introduced into front eye chamber. 180 degree turn of IOL inside capsular bag is realised in such a way, that back convex surface of IOL, contacting before with back capsule of crystalline lens, contacts with front capsule. Viscoelastic is removed, after finishing correction anti-inflammatory drops and drops with antibiotic are instilled.

EFFECT: method makes it possible to ensure fast reaching maximally possible visual functions with all accompanying eye diseases and somatic pathologies, excluding infection ones.

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Description

The present invention relates to ophthalmology and is intended to correct weak postoperative hyperopia after phacoemulsification (PE) or laser extraction (LE) of cataract with implantation of an intraocular lens (IOL) with inaccuracy in calculating the strength of an intraocular lens.

As a result of the high level of microsurgical technique achieved during operations on the lens of the eye, one of the main factors determining high visual acuity after surgery is currently the correct calculation of the optical power of the intraocular lens. Improving diagnostic and surgical methods has reduced the fraction of refractive errors to 5-10% when the difference between the obtained and desired refraction exceeded 2.0 diopters (diopters) [Holladay J.T. et al., Arch. Ophthalmol., 1986, v. 104, p. 539-541]. The accuracy of calculating the strength of an implantable IOL mainly depends on three factors [S. Avetisov. Calculation of the optical power of the IOL with dimensions of the anterior segment not proportional to the length of the anteroposterior axis of the eye / S.E. Avetisov, V.R. Mamikonyan, M.N. Ivanov, Yu.N. Yousef et al. // Bulletin of Ophthalmology. 2008. - Volume 124. - No. 6. - S. 10-12]:

1. The accuracy of biometric data before surgery (measuring the axial length of the eye, the depth of the anterior chamber, the thickness of the lens, the refractive power of the cornea).

2. The accuracy of the formulas for calculating the optical power of the IOL.

3. Quality control and strength of the IOL manufacturer.

To correct the violations that arise in this case, it may be necessary to replace the lens or perform keratorefractive intervention.

The closest analogue of the proposed method is a method for correcting mild postoperative hyperopia after phacoemulsification or laser cataract extraction with implantation of an intraocular lens using photorefractive keratectomy (PRK), in which the eyelids are opened with an anesthesia droplets after installation. He keeps them from blinking. The patient is asked to look at the luminous point in the device to center the position of the eye. Markings are applied to the cornea. The epithelium is removed from the area that will be affected by laser radiation with a laser or surgical instrument. Then, according to a pre-calculated computer program, the excimer laser vaporizes part of the corneal tissue in the paracentral regions and provides an increase in its refraction in the central zone and, thus, models a new surface of the cornea. After the correction is completed, anti-inflammatory drops and drops with an antibiotic are instilled. The eye closes with a blindfold [Eye diseases: Textbook / Ed. V.G. Kopaeva. - M .: OJSC "Publishing house" Medicine ", 2002. - S. 126-127]. The disadvantages of this method are:

1. Moderate discomfort, including slight eye irritation and lacrimation, which lasts 1-3 days.

2. This is an expensive method (an average of 15 thousand rubles).

3. The full effect of the operation in terms of restoring visual acuity in 80% of patients is achieved after 1 month, in 95-98% - after 3 months.

4. The outcome of the operation may not be complete, and some patients require glasses or lenses.

5. Contraindications for PRF surgery are glaucoma, cataracts, eye tumors, keratoconus, decreased sensitivity of the cornea, dry eye syndrome, infectious diseases of the eye and other organs, diabetes mellitus and some other endocrine diseases, immune system pathologies, severe somatic and mental diseases pregnancy.

The objective of the invention is to develop an effective and safe method for the correction of mild hyperopia after PE or cataract LE with implantation of an intraocular lens with inaccuracy in calculating its strength.

The technical result is to reduce the rehabilitation time of patients, more quickly achieve the maximum possible visual functions with all concomitant eye diseases and somatic pathologies, with the exception of infectious ones. In addition, this method is much cheaper than the closest analogue.

The technical result is achieved by the fact that in the method for correcting mild postoperative hyperopia after phacoemulsification or laser extraction of cataract with implantation of an intraocular lens, according to the invention, after dropping anesthesia, a dispersive-cohesive viscoelastic, irrigation-aspiration system is introduced into the anterior chamber of the eye through paracentesis or main incision with or without viscoelastic) or with viscoelastic using two spatulas through paracentesis with bimanual chir during coaxial surgery or through paracentesis and the main incision, the IOL is flipped 180 degrees inside the capsule bag so that the posterior convex surface of the IOL, previously in contact with the posterior lens capsule, contacts the front capsule, then the viscoelastic is removed by irrigation and aspiration cannula and sealed or paracentesis with saline, after completion of the correction, anti-inflammatory drops and drops with an antibiotic are instilled.

The new position of the IOL moves the focal distance behind the retina forward by 1 mm, which corresponds to increased refraction by 2.5-3.0 diopters and correction of weak postoperative hyperopia after phacoemulsification or laser cataract extraction with inaccuracy in calculating the strength of the intraocular lens.

Correction is possible for all types of lenses with intracapsular fixation with intact optics and haptics, with the exception of toric, prismatic, multifocal and other types of IOLs with combined optics.

The advantages of this method are:

1. Minimally invasive, that is, the method is carried out through the same incision and paracentesis during primary implantation of the IOL without disturbing the initial state of the cornea.

2. Correction of postoperative correction is possible up to one month after cataract surgery.

3. Reducing postoperative complications, such as mild discomfort, including slight eye irritation, lacrimation.

4. This is an inexpensive method.

5. The full effect of the operation in terms of restoring visual acuity is achieved within 3-5 days.

6. Such diseases as glaucoma, eye tumors, keratoconus, decreased corneal sensitivity, dry eye syndrome, diabetes mellitus and some other endocrine diseases, immune system pathologies, somatic and mental diseases are not contraindications to the operation.

The method is as follows. After drip anesthesia, dispersed cohesive viscoelastic is introduced through the cannula into the anterior chamber of the eye through paracentesis or the main incision. An irrigation-aspiration system (with or without viscoelastic) or with a viscoelastic using two spatulas through paracentesis during bimanual surgery or through paracentesis and the main incision during coaxial surgery, rotate the IOL 180 degrees inside the capsule bag so that the posterior convex surface of the IOL previously in contact with the posterior lens capsule was in contact with the anterior capsule, while the new position of the IOL moves the focal length beyond the retina forward 1 mm, which corresponds to increased refraction by 2.5-3.0 diopters. Then, viscoelastic is removed by irrigation-aspiration cannula and the incision or paracentesis is sealed with physiological saline. After the correction is completed, anti-inflammatory drops and drops with an antibiotic are instilled. The eye closes with a blindfold.

Example 1

Patient K., 60 years old, came to the clinic with complaints of low vision of the left eye (OS) in the distance and near. From the anamnesis it is known that 10 days ago at the place of residence, phacoemulsification of cataracts with implantation of an IOL (AcrySof Natural) was performed. IOL calculation was carried out in the distance. For near, it was supposed to wear glasses.

Examination visus OS: 0.1 sph + 3.0 = 0.7.

Objectively: OS is calm. The cornea is transparent, the anterior chamber is of medium depth, the moisture is clean, the pupil is rounded, 2.5 mm, IOL in the capsule bag. The fundus reflex is pink. Intraocular pressure (IOP) is normal by palpation. The fundus is normal.

Recommended and carried out: IOL flip inside the capsule bag 180 degrees according to the proposed method.

After drip anesthesia, dispersed cohesive viscoelastic was introduced through the cannula into the anterior chamber of the eye through paracentesis. An irrigation and aspiration system using viscoelastic through paracethesis and the main incision during coaxial surgery performed an IOL flip 180 degrees inside the capsule bag so that the posterior convex surface of the IOL, which previously came into contact with the posterior lens capsule, was in contact with the anterior lens capsule. Then, viscoelastic was removed by irrigation-aspiration cannula and paracentesis and the main incision were sealed with physiological saline.

After completion of the correction, anti-inflammatory drops and drops with an antibiotic were instilled.

At discharge visus OS: 0.7. IOP OS: palpation rate.

Example 2

Patient N., 63 years old, came to the clinic with complaints of low vision of the right eye (OD) near. From the anamnesis it is known that 15 days ago at the place of residence, laser extraction of cataracts with implantation of an IOL (Acreos Mi60) was performed. Myopia since childhood. Wearing glasses: -7 diopters. IOL was calculated for myopia (-2.5 diopters). For the distance it was supposed to wear glasses.

Examination visus OD: 0.6. Eye length - 30.00 mm.

Objectively: OD is calm. The cornea is transparent, the anterior chamber is deep, moisture is clear, the pupil is rounded, 2.5 mm, IOL in the capsule bag. The fundus reflex is pink. IOP palpation normal. The fundus is normal, myopic staphyloma.

Recommended and carried out: IOL flip inside the capsule bag 180 degrees according to the proposed method.

After drip anesthesia, dispersed cohesive viscoelastic was introduced through the cannula into the anterior chamber of the eye through paracentesis. With a viscoelastic using two spatulas, paracentesis during bimanual surgery performed an IOL flip 180 degrees inside the capsular bag so that the posterior convex surface of the IOL, which had previously been in contact with the posterior lens capsule, was in contact with the anterior lens capsule. Then, viscoelastic was removed by irrigation-aspiration cannula and paracentesis and the main incision were sealed with physiological saline. After completion of the correction, anti-inflammatory drops and drops with an antibiotic were instilled.

At discharge, visus OD: 0.3 sph -2.5 = 0.6. IOP OD: palpation rate.

Claims (1)

A method for correcting mild postoperative hyperopia after phacoemulsification or laser extraction of cataracts, characterized in that after drip anesthesia, a dispersive-cohesive viscoelastic is introduced into the anterior chamber of the eye, the IOL is flipped 180 degrees inside the capsular bag so that the posterior convex surface of the IOL contacting with the posterior lens capsule, in contact with the anterior capsule, then the viscoelastic is removed, after the correction is completed, the anti-inflammatory is instilled apli and drops with an antibiotic.