RU2766804C1 - Method for treating overripe morgagnian cataract - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely to ophthalmic surgery. Anterior capsulorrhexis is performed, iris-capsular retractors (ICR) are installed, the nucleus of the lens is divided by the phaco chop method, the fragments are emulsified, and an intraocular lens (IOL) is installed. After performing anterior capsulorrhexis and installing the ICR, the nucleus is removed into the anterior chamber, lowered into the iridian plane. After that, the IOL is implanted into the capsular bag through the main incision and the upper part of the pupil, and the nucleus is divided into two halves. Half of the nucleus is then divided into two more fragments, consecutively emulsified. The next half of the nucleus is then divided into two fragments, consecutively emulsified, the viscoelastic is washed from the anterior chamber, and the corneal incisions are hydrated.

EFFECT: method allows for a reduction in the load on the weak ligamentous apparatus and minimisation of the risks of rupture of the Zinn's zonule and the posterior capsule.

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Description

The invention relates to medicine, namely to ophthalmic surgery, and can be used in the surgical treatment of overmature Morgan's cataract.

With Morganian cataract, there are a number of factors that significantly complicate the course of surgical intervention and have a negative impact on the final result - this is a high density of the lens nucleus and a decrease in its size, the absence of cortical masses or their liquefaction, weakness of the zinn ligaments, thinning of the capsular bag or its tension, destruction of the vitreous body (Pathology of the lens: a textbook for medical students / Compiled by A.D. Chuprov, Yu.V. Kudryavtseva / edited by A.D. Chuprov. Kirov, KSMA, 2007). The high density of the lens nucleus implies the use of a high ultrasound mode when performing phacoemulsification (PEK), and its mobility makes it difficult to keep a small nucleus in a free capsular bag, devoid of an epinuclear membrane and cortical support. The combination of these factors creates the risk of rupture of the posterior capsule during surgery.

Methods for the treatment of overmature cataracts are known, involving the installation of iris retractors (Nicolas Copsachilis MD et al. Phacoemulsification using 8 flexible iris hooks in a patient with a short eye, small pupil, and phacodonesis, J Cataract Refract Surg 2014; 40:1408-1411. ) and irido-capsular retractors (IR) (patent RU No. 2676963) to dilate the pupil, reduce the load on the zinn ligaments and stabilize the arches of the capsular bag during anterior capsulorhexis. However, these methods do not provide for the protection of the posterior capsule, and in the process of FEC of the hard core, the risk of pulling the movable capsule onto the tip of the phacoemulsifier and its rupture remains.

A known method of FEC overmature cataract with the creation of a shell of viscoelastic (Sato M., MizushimaY., Oshika T. Visco-shell technique with sodium hyaluronate 2.3% in phacoemulsification of Morganian cataract. J Cataract Refract Surg 2008; 34:1824-1827. ), in which, after anterior capsulorhexis, sodium hyalorunate 2.3% is injected first into the capsular bag between the nucleus and the posterior capsule, and then between the nucleus and the cornea. The viscoelastic sheath thus formed protects the posterior capsule and the cornea. However, the method is not efficient enough, since the barrier provided by the viscoelastic is not sufficiently reliable when performing manipulations with a solid core.

As a prototype, a method of IOL implantation was chosen in case of weakness of the ligamentous apparatus in patients with Morgagnian cataract (Rohit From Parkash, MS, Shtuti Mahajan et al. Intraocular lens scaffold technique to prevent posterior capsule rupture in cases of Morgagnian cataract / J. Cataract Refract Surg, 2017 , 43(1):8-11), involving division of the nucleus into four fragments, FEC of two fragments, withdrawal of the remaining fragments into the anterior chamber above the iris, implantation of an intraocular lens (IOL) into the capsular bag under the remaining fragments of the nucleus, and their emulsification. In this case, the IOL is a kind of "substrate" to prevent rupture of the posterior capsule during FEC of the remaining fragments of the nucleus.

The disadvantages of the method include the fact that the main manipulations with the nucleus are performed before IOL implantation, which retains the risks of damage to the capsular bag and ligamentous apparatus, since the predisposition to rupture of the posterior capsule in blinking cataract increases in the initial stages of FEC, when the nucleus is small and mobile, and with FEC of the last fragments of the nucleus. In addition, due to the mobility of the posterior capsule, there is a high risk of damage due to pulling on the tip of the phacoemulsifier.

The present invention solves the problem of developing a new atraumatic method of FEC overmature blinking cataract.

The essence of the invention lies in the fact that during the surgical treatment of Morganian cataract after performing an anterior capsulorhexis with a diameter of 5 mm and installing retractors and a capsular ring, the nucleus is carefully dislocated into the anterior chamber and the IOL is implanted in the capsular bag. After that, the phacochop method performs the division of the nucleus into two halves, each of which is then into two more parts, and perform the FEC of the fragments.

The technical result from the implementation of the invention is to reduce the load on the weak ligamentous apparatus, as well as to minimize the risk of rupture of the ligament of Zinn and the posterior capsule.

Since the resorption and compaction of the lens nucleus occurs in Morganian cataract, the diameter of the nucleus is 5.5-6.5 mm, and its thickness decreases to 1.5-2 mm due to the release of liquid milky masses during anterior capsulorhexis. Thus, the nucleus can be brought into the anterior chamber even if there is an CI in it, while slightly stretching the anterior capsulorhexis, which is approximately 5 mm in diameter, without fear of injuring the endothelium.

After the nucleus is brought into the anterior chamber, it shifts down and the upper part of the pupil opens with the upper part of the anterior capsulorhexis. An IOL is implanted into the capsular bag through the upper part of the capsulorhexis. The upper haptic part of the IOL is inserted into the capsular bag. The nucleus is partially displaced into the posterior chamber, partially located in the pupil area. Due to its reduced thickness, the depth of the anterior chamber allows fracture of the nucleus and FEC fragments without the risk of injury to the endothelium. At the same time, the IOL implanted in the capsular bag reliably protects the posterior capsule from damage already from the first seconds of manipulations with the nucleus and keeps the capsular bag straightened, and the installed IFR protects the capsular bag from downward displacement under the pressure of a column of balanced saline solution supplied to the eye. The method is carried out as follows.

After processing the surgical field with anesthesia, a main incision of 2.2 mm and paracentesis are performed. The anterior capsule is stained, after which an anterior circular capsulorhexis with a diameter of 5 mm is performed, through additional paracentesis with a length of 1.0 mm at five, seven, fourteen and ten hours, an IFR and, if necessary, a capsular ring are installed. A dispersive viscoelastic is introduced into the anterior chamber, the lens nucleus is brought into the anterior chamber and lowered into the plane of the iris. Through the main incision, the IOL is implanted into the capsular bag in the upper part of the pupil. The lens nucleus is transferred to the posterior chamber and the pupil area. After introducing a dispersive viscoelastic into the anterior chamber, the “phaco chop” method is used to divide the nucleus into two halves. Then, half of the core is divided into two more fragments, which are alternately emulsified. After that, the next half of the nucleus is divided into two fragments, which are alternately phacoemulsified. The viscoelastic is washed out of the anterior chamber and the operation is completed by hydration of the corneal incisions.

Example1. Patient Zh., born in 1962, was admitted to the Tambov branch of the Federal State Autonomous Institution "NMIC" IRTC "Eye Microsurgery" named after. S.N. Fedorov with a diagnosis of Complicated Morganian cataract OS, complicated cataract OD, corneal leukoma OU, open-angle I "A" glaucoma OS.

From the anamnesis: OS cataract was diagnosed 20 years ago. On admission: Vis OD=0.05 n.c.

Vis OS=pr.l.certa (inv.)

IOP OD P ₀ =7.2 mm Hg. Art.

IOP OS P ₀ =9.1 mm Hg. Art.

Biomicroscopy data: OS - In the center of the cornea - vascularized thorn, anterior chamber of medium depth, the pupil is round, its position is central, the lens is diffusely cloudy. The fundus of the eye is not ophthalmoscoped.

OD - In the center of the cornea - vascularized thorn, anterior chamber of medium depth, the pupil is round, difficult to see, clouding in the cortex and the nucleus of the lens. The fundus behind the flair.

Recommended phacoemulsification of Morgan's cataract on the OS, followed by a decision on the issue of penetrating optical keratoplasty in this eye.

The patient underwent an anterior circular capsulorhexis with a diameter of 5 mm, four ICRs were placed in the capsular bag through additional paracentesis, and a capsular ring with a diameter of 12 mm was implanted through the main incision using an injector. After the introduction of a dispersive viscoelastic into the anterior chamber, the nucleus of the Morganium cataract was brought into the anterior chamber and shifted down. At 12 o'clock, in the incision zone, the upper part of the dilated pupil with the upper part of the capsulorhexis opened. Through the main incision, in the upper part of the pupil, a posterior chamber IOL "Hoya" + 17.5 diopters was implanted into the capsular bag. The lens nucleus was transferred with a spatula into the posterior chamber and into the pupil area. After introducing a dispersive viscoelastic into the anterior chamber, the phaco chop method was used to divide the nucleus into two halves. Then, half of the core is divided into two more fragments, which are alternately emulsified. Further, the next half of the nucleus is divided into two fragments, which are alternately phacoemulsified. The viscoelastic was washed out from the anterior chamber and the operation was completed by hydration of the corneal incisions.

At discharge: Vis OD=0.05 n.c.

Vis OS=0.05 n.c.

IOP OD P ₀ =14.6 mm Hg. Art.

IOP OS P ₀ =14.4 mm Hg. Art.

OS - in the center of the cornea - vascularized thorn, anterior chamber of medium depth, the pupil is round, its position is central, the IOL is in the correct position. The fundus behind the flair.

Claims (1)

A method for the treatment of overmature Morganian cataract, including anterior capsulorhexis, installation of irido-capsular retractors (ICR), separation of the lens nucleus by the phacochop method, emulsification of fragments and installation of an intraocular lens (IOL), characterized in that after performing anterior capsulorhexis and installing ICR, the nucleus is removed into the anterior chamber is lowered into the plane of the iris, after which an IOL is implanted into the capsular bag through the main incision and the upper part of the pupil and the nucleus is divided into two halves, then the half of the nucleus is divided into two more fragments, which are alternately emulsified, after which the next half of the nucleus is divided into two fragments, which alternately emulsify, wash out the viscoelastic from the anterior chamber and hydrate the corneal incisions.