RU2779753C1 - Method for determining indications for implantation of a multifocal or monofocal intraocular lens in patients with mature cataracts - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely ophthalmology. The optical strength of a multifocal intraocular lens (IOL) is calculated, phacoemulsification (PEC) is performed, optical coherence tomography (OCT) and IOL implantation are performed. At the same time, before the operation, the optical strength of the multifocal and spare monofocal IOL is calculated, PEC is performed under intra-chamber anesthesia, the main incision and paracentesis are hydrated and the patient is sent to the OCT to determine the state of the macular zone of the retina. In the absence of pathology of the macular zone, a multifocal IOL is implanted in the patient. In the presence of a focus of macular atrophy, the patient is assessed for visual acuity with an aphakic correction and, based on the results obtained and their discussion with the patient, implantation of a pre-calculated monofocal IOL is performed.

EFFECT: method reduces the risks of developing intraocular infections by performing a one-stage surgical intervention while maintaining high reliability of the state of the macular zone of the retina, and provides a high degree of patient satisfaction with the results of the operation.

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Description

SUBSTANCE: invention relates to medicine, namely to ophthalmology, and can be used during surgical intervention for mature cataract with implantation of a multifocal intraocular lens (IOL).

Multifocal IOLs are characterized by the presence of several foci on the lens surface and allow the restoration of the visual functions of patients in full, which provides them with a number of advantages compared to monofocal lenses. In particular, patients improve visual acuity at various distances, reduce susceptibility to the “tilt effect”, reduce the possibility of unnecessary optical effects (glare, glow, etc.), and also provide protection from the harmful effects of ultraviolet rays.

To achieve a high functional result and a high level of patient satisfaction, the condition of the macular zone of the retina, which provides high visual acuity, as well as accurate preoperative IOL calculation based on reliable measurements of eye parameters, is of decisive importance. However, in patients with mature cataract, it is impossible to determine the state of the macular zone of the retina due to the complete clouding of the optical media of the eye.

Known treatment technology for white cataract (Jiawen Ling, Yiyong Qian, Perior Lu Secondary multifocal intraocular lens implantation: A novel managtmtnt strategy for white cataracts // SAGE Open Medical Case Reports - 2018 - Volume 6: 1-6), providing for preoperative ophthalmological examination patients, performing phacoemulsification (PEK), determining the biometric parameters of the eye and calculating the IOL on the first and third days after the operation, performing optical coherence tomography (OCT) 5 days after the operation to exclude pathology of the fundus, and with favorable results, implantation of a multifocal IOL through the initial corneal incision 7 days after cataract extraction, prototype.

However, this technique involves the need to perform two operations with a difference of seven days, which causes inconvenience to patients, increases the risk of intraocular infections and increases the cost of treatment.

The objective of the invention is to develop an intraoperative method for determining indications for implantation of a multifocal or monofocal IOL.

The essence of the invention is as follows.

For patients with mature cataracts who wish to implant a multifocal IOL, the power of the multifocal and spare monofocal IOLs is calculated preoperatively. FEC is performed under intracameral anesthesia to maintain the mobility of the eyeball and its correct fixation during OCT. After performing FEC and removing the lens masses, the main incision and paracentesis are hydrated, the patient is temporarily removed from the operating table and sent to the OCT to determine the state of the macular zone of the retina. After performing OST and assessing the condition of the macula, the issue of implanting a multifocal IOL is decided. If the condition of the macula is satisfactory, the patient is sent to the operating room and a multifocal IOL is implanted in him. In the case of a focus of atrophy of the macular zone of the retina, the patient is given a determination of visual acuity with aphakic correction. Based on the results obtained and their discussion with the patient, implantation of a pre-calculated monofocal IOL is performed.

The technical result achieved from the use of the invention is to reduce the risk of developing intraocular infections by performing a one-stage surgical intervention while maintaining high reliability of the state of the macular zone of the retina, and achieving a high degree of patient satisfaction with the results of the operation.

The invention is illustrated by the following clinical examples.

Example 1. Patient K., born in 1940, was admitted to the Tambov branch of the FGAU "NMIC" IRTC "Eye Microsurgery" them. S.N. Fedorov with a diagnosis of complicated cataract OD, pseudophakia, fibrosis of the posterior capsule of OS, degeneration of the iris and ciliary body OU.

On admission: Vis OD=pr.l.certa

Vis OS=0.3 n.c.

IOP OD P ₀ =8.3 mm Hg

IOP OS P ₀ =11.5 mm Hg

Biomicroscopy data OD - The cornea is transparent, the anterior chamber is of medium depth, the pupil is round, its position is central, pseudoexfoliation along the edge of the pupil, the lens is diffusely cloudy, the fundus is not ophthalmoscoped, there is no reflex.

OS - The cornea is transparent, the anterior chamber is of medium depth, the pupil is round, its position is central, pseudoexfoliation along the edge of the pupil, the position of the IOL is correct, fibrosis of the posterior capsule. The optic disc (OND) is pale pink, the boundaries are clear, beyond the veil.

The patient was recommended FEC of complicated cataract with implantation of IOL "Oculentis Comfort" on OD. After performing FEC using installation and intracameral anesthesia with hydration of surgical incisions, the patient was removed from the operating table and sent for OST examination. OCT study showed that the macular area is without pathology. The patient was returned to the operating room, where he underwent implantation of the IOL "Oculentis Comfort" 22.0 diopters per OD.

At discharge: Vis OD=0.9

Vis OS=0.3 n.c.

IOP OD P ₀ =13.4 mm Hg

IOP OS P ₀ =14.4 mm Hg

OD - The cornea is transparent, the anterior chamber is of medium depth, the pupil is round, pseudoexfoliation along the edge of the pupil, the position of the IOL is correct, the reflex is pink. The optic disc is pale pink, the boundaries are clear, the macula is without features. OS - the cornea is transparent, the anterior chamber is of medium width, the pupil is round, pseudoexfoliation along the edge of the pupil, the IOL is in the correct position, fibrosis of the posterior capsule. The optic disc is pale pink, the boundaries are clear, behind the veil, the caliber of the vessels is not changed, the macula is without features.

Example 2. Patient G., born in 1953, was admitted to the Tambov branch of the FGAU "NMIC" IRTC "Eye Microsurgery" named after. S.N. Fedorov with a diagnosis of complicated overmature cataract OS, complicated initial cataract OD, degeneration of the iris and ciliary body, degeneration of the macula and posterior pole OD.

On admission: Vis OD=0.4 sph - 1.0=0.6

VisOS=pr.l.certa

IOP OD P ₀ =12.2 mm Hg

IOP OS P ₀ =13.4 mm Hg.

Biomicroscopy data OD - The cornea is transparent, the anterior chamber is of medium depth, the pupil is round, pseudoexfoliation along the edge of the pupil, opacities in the cortex and the nucleus of the lens. The optic disc is pale pink, the boundaries are clear, in the macula there are drusen, atrophic foci.

OS - The cornea is transparent, the anterior chamber is of medium depth, the pupil is round, its position is central, pseudoexfoliation along the edge of the pupil, the lens is diffusely cloudy, with elements of overripe. The fundus of the eye is not ophthalmoscoped.

The patient was recommended FEC of complicated cataract with implantation of IOL "Oculentis Comfort" on OS. After performing FEC using installation and intracameral anesthesia and hydration of surgical incisions, the patient was sent for an OST study. An OST study revealed an extensive atrophic focus in the macular area of the retina. The patient was warned about the pathology revealed during the intraoperative examination, and he was offered to replace the Oculentis Comfort IOL with a Rainer IOL, which is less expensive. This monofocal IOL was calculated and prepared for this patient in advance as a replacement for the Oculentis Comfort IOL. After his consent, the patient was returned to the operating room, where he was implanted with a Reiner IOL 18.0 diopters.

On discharge:

Vis OD=0.4 sph - 1.0=0.6

Vis OS=0.08 n.c.

IOP OD P ₀ =11.6 mm Hg

IOP OS P ₀ =10.9 mm Hg

OD - OD - The cornea is transparent, the anterior chamber is of medium depth, the pupil is round, pseudoexfoliation along the edge of the pupil, clouding in the cortex and the nucleus of the lens. The optic disc (OND) is pale pink, the boundaries are clear, in the macula - drusen, atrophic foci.

OS - the cornea is transparent, the anterior chamber is of medium width, the pupil is round, pseudoexfoliation along the edge of the pupil, the position of the IOL is correct. The optic disc is pale pink, the boundaries are clear, the caliber of the vessels is not changed, in the macula there is an extensive atrophic focus.

Claims (1)

Method for determining indications for implantation of a multifocal or monofocal intraocular lens (IOL) in patients with mature cataract, including calculation of the optical power of the multifocal IOL, performing phacoemulsification (PEK), performing optical coherence tomography (OST) and implanting the IOL, characterized in that before the operation perform the calculation of the optical power of the multifocal and spare monofocal IOL, conduct FEC under intracameral anesthesia, hydrate the main incision and paracentesis and send the patient to OCT to determine the state of the macular zone of the retina; in the absence of pathology of the macular zone, the patient is implanted with a multifocal IOL; in the presence of a focus of atrophy of the macular zone, the patient is evaluated for visual acuity with aphakic correction, and based on the results obtained and discussed with the patient, implantation of a pre-calculated monofocal IOL is performed.