RU2304949C1 - Method for extracting cataract and implanting intraocular lens - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method involves making at least one incision in external eyeball sheath tissues. Cataract is withdrawn and intraocular lens is implanted. Incision walls are closed without placing sutures by producing hydrostatic pressure in external eyeball sheath tissues adjacent to incision walls. Physiologic saline is introduced into the tissues adjacent to incision walls.

EFFECT: reduced risk of postoperative complications; accelerated vision function recovery and social patient rehabilitation.

5 cl, 2 dwg

Description

The invention relates to medicine, namely to the field of ophthalmology, and can be used, for example, for extraction of age-related cataracts and implantation of an intraocular lens (IOL).

Cataracts are quite common and are the reason for the inability to get maximum visual acuity without cataract extraction and IOL implantation.

A known method of implanting an artificial lens of the eye, including cutting off the conjunctiva from the limb with further dissection of the sclera into 2/3 of the thickness, forming a scleral pocket and exiting through it and the cornea into the anterior chamber of the eye.

The method involves a corneal incision (paracentesis).

In this method, after cataract extraction and implantation of the IOL, the scleral wound is checked for leaks, the suture, according to the authors, may not overlap, and the conjunctiva must be coagulated at the edges of the incision (see the description of the invention to RF patent No. 2135130, IPC 6 F61F 9/002, published on 08.27.1999).

Known "standard" phacoemulsification technique, which consists in the following.

After installing the eyelid in transparent layers of the cornea, an incision is made from the temporal side, perpendicular to its surface and parallel to the limb. Then produce the formation of a stepped valve section with the opening of the anterior chamber of the eye.

Paracentesis forms in the transparent layers of the cornea near the limb.

The front chamber through a valve section is filled with viscoelastic - a solution of methylcellulose. Further, through paracentesis or a stepped valve incision, capsulotomy is performed with the formation of circular capsulorexis.

After performing capsulorexis, hydrodissection and hydrodelineation of the lens with saline are carried out. Then, through the valve incision, the tip of the phacoemulsifier is introduced, and through paracentesis - the surgical phaco-manipulator.

In all cases, the Crack and Cram phacoemulsification technique is used, which implies preliminary mechanical breaking of the core into smaller segments by means of simultaneous directed movements of the manipulator (phaco spatula) and the working part of the phacoemulsifier handle towards each other, which can significantly reduce the overall the time (exposure) of ultrasound required for phacoemulsification of cataracts, and thus reduce the negative impact of ultrasound on the intraocular structures. After separation into segments, phacoemulsification of the dense layers of the crystalline lens is carried out directly, cortical layers are aspirated by irrigation-aspiration with bimanual technique, and after filling the anterior chamber and capsule bag with viscoelastic-methylcellulose solution, IOL is implanted into the capsule bag.

After implantation of the IOL, viscoelastics are removed by a bimanual system of irrigation-aspiration through two paracentesis located on opposite sides of the cornea near the limb. The volume of the anterior chamber is filled with saline.

According to the authors of a well-known source, with the observance of the technology, tissue sections of the outer shell of the eyeball are self-sealing and do not require suturing (see R. A. Gundorova et al. “Phacoemulsification of traumatic cataracts.” M., Ministry of Health of the Russian Federation, Moscow Research Helmholtz Institute of Eye Diseases, 2003, p. 43-44).

The statement about the self-sealing of cuts and, as a consequence, the lack of a requirement for suturing is unreliable and unfounded.

In the known method it is impossible to assert with complete confidence about the self-sealing of the sections, since the method does not provide guaranteed closure of their walls, and the failure to provide this condition threatens with postoperative complications.

Therefore, to ensure sealing of the sections, it is necessary to forcefully close their walls either by suturing, or by performing other actions, since spontaneous closing of the walls of the sections is not guaranteed.

The task and the technical result of the proposed method is to eliminate these disadvantages.

The technical result according to the invention is achieved by the fact that in the method of cataract extraction with implantation of an intraocular lens (IOL), including tissue sections of the outer shell of the eyeball and capsular bag, followed by removal of the contents of the capsular bag and implantation of the IOL, at least the tissues of the outer shell of the eyeball are performed at least one incision, while the closure of the walls of the section after cataract extraction and implantation of the IOL is performed by a seamless method by creating tissues in the adjacent to the walls of the section ruzhnoy shell hydrostatic pressure of the eyeball by introducing walls adjacent to the eyeball saline section of the outer shell fabric.

In a preferred embodiment of the method, the closure of the walls of the section and its tightness are monitored visually.

In addition, the contents of the capsule bag are removed by ultrasonic or laser phacoemulsification or by mechanical phacofragmentation.

In addition, IOL implantation is performed at any time after cataract extraction.

The invention is illustrated by drawings, where in Fig.1 shows sections of tissues of the outer shell of the eyeball, in Fig.2 - IOL implantation.

The method is as follows.

After installing the eyelid extender at the limb from the temporal side with a diamond microsurgical blade, a perpendicular surface of the cornea is made 1 incision 2 in the transparent layers of the cornea with a size of 3.0 mm and a depth of 200-250 microns. Then a diamond spear-shaped blade with a width of 2.8-3.0 mm or a similar metal disposable blade with a width of 2.8-3.0 mm produce the formation of a stepped valve cut with a width of 2.8-3.0 and a length of 2.0-2.5 mm with the opening of the front camera for 2.8-3.0 mm

In the transparent layers of the cornea with a diamond microsurgical blade, at least one paracentesis 3 of size 1.0-1.2 mm is formed.

The front chamber through a valve section is filled with viscoelastic - a solution of methylcellulose.

Using a spatula introduced through paracentesis, check the mobility of the nucleus in the capsule bag 4. Then, through the stepwise valve incision, the tip of the phacoemulsifier is introduced, and through paracentesis, a surgical phaco-manipulator is specially curved in accordance with the angle of its action and the profile of the lens nucleus.

In the presence of a dense core of the lens, phacoemulsification is carried out with preliminary mechanical separation of the core into several segments using a spatula of a special shape and the working part of the handle of the phacoemulsifier introduced into the incision. The tip in the process of phacoemulsification remains stable, manipulations with the core are carried out with a spatula-manipulator. After removal of the dense layers, irrigation-aspiration is carried out using bimanual technique.

After filling the anterior chamber and capsule bag 4 with viscoelastic - methyl cellulose solution - IOL 5 is implanted into the capsule bag 4.

After implantation of IOL 5, viscoelastics are removed by a bimanual system of irrigation-aspiration through paracentesis 3. The volume of the anterior chamber is filled with saline.

The closure of the walls of the sections and their sealing after cataract extraction and implantation of the IOL is performed by a seamless method by creating hydrostatic pressure in the tissues of the outer shell of the eyeball adjacent to the walls of the section by introducing physiological saline into adjacent to the walls of the section of the outer shell of the eyeball, for example, using a medical syringe.

Simultaneously with the creation of hydrostatic pressure in the tissues of the outer shell of the eyeball adjacent to the walls of the incisions, a visual check is made of the integrity of the incisions when their walls are closed by checking the elasticity of the cornea.

The method is characterized by the following clinical examples:

Example 1

Patient M., 71 years old., Amb. F-463 card.

Diagnosis: OS - mature cataract.

Handling data:

Vis OS = 1 / ∞ pr.certal.

Refractometry: S + 11.75 ^D C-0.5 ^D 90 °.

Eye length: 24.16 mm.

The operation of the FAA with implantation of the IOL (+17.0 D) was performed. The operation and the postoperative period were uneventful. OS is calm; optical media are transparent.

Vis OS = 0.9.

IOP = 20.

Example 2

Patient D., 53 years old, amb. F-264 card.

Diagnosis: OS - Immature cataract.

Handling data:

Vis OS = 0.1.

Refractometry: S - 4.75- ^D ; C-1.0 ^D ; A-91 °.

Eye length: 22.41 mm.

The operation of the FAK with implantation of the IOL (+22.0 D) was performed. The operation and the postoperative period were uneventful. OS is calm; optical media are transparent.

Vis OS = 0.8.

IOP = 20.

Example 3

Patient K., 70 years old, amb. F-152 card.

Diagnosis: OD - mature cataract.

Handling data:

Vis OD: counting fingers on the face.

Refractometry: S + 0.25 ^D ; C-0.75 ^D ; A-137 °.

Eye length: 22.87 mm.

The operation of the FAC was performed with implantation of an IOL (+23.0 D). The operation and the postoperative period went smoothly, without complications. OD - calm; optical media are transparent.

Vis OD = 0.9.

IOP = 19.

Using the proposed method can significantly reduce the number of postoperative complications due to guaranteed sealing of tissue sections of the outer shell of the eyeball and accelerate the visual and social rehabilitation of patients.

Claims (5)

1. The method of cataract extraction with implantation of an intraocular lens (IOL), including sections of the tissues of the outer shell of the eyeball and capsule bag, followed by removal of the contents of the capsular bag and implantation of the IOL, characterized in that at least one of the tissues of the outer shell of the eyeball is performed the incision, with the closure of the walls of the incision after cataract extraction and implantation of the IOL, is performed by a seamless method by creating a hydrostati in the tissues of the outer shell of the eyeball eskogo pressure by introducing into the incision adjacent to the walls of the outer shell fabric eyeball saline. 2. The cataract extraction method according to claim 1, characterized in that at least one paracentesis is additionally formed in the transparent layers of the cornea of the eyeball. 3. The method of cataract extraction according to claim 1, characterized in that the control of closure of the walls of the incision and its tightness is carried out visually. 4. The cataract extraction method according to claim 1, characterized in that the contents of the capsular bag are removed by ultrasonic or laser phacoemulsification or by mechanical phacofragmentation. 5. The method of cataract extraction according to any one of claims 1 to 4, characterized in that the IOL implantation is carried out at any time after cataract extraction.

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