RU2546926C1 - Method for imaging truncated sides of distal haptic element of intraocular lens rsp-3 - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: before tucking a distal haptic element under the iris, a 0.1 mm incision is performed along a proximal haptic element exactly in a projection of the middle of one truncated side of the distal haptic element by means of microsurgical scissors.

EFFECT: method enables localising the truncated sides of the distal haptic element exactly.

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Description

The invention relates to medicine, and in particular to ophthalmology, and can be used in the surgical treatment of cataracts.

Often in situations of cataract surgery, situations arise when implantation of an iridovitreal intraocular lens (IOL) model RSP-3 is necessary. In particular, this happens when there is a subluxation of the lens and when the posterior lens capsule ruptures.

The existing method of implanting an iridovitreal IOL RSP-3 involves the establishment of a distal haptic element of the IOL, having the shape of a truncated disk, under the iris. In this case, the proximal haptic element, having the shape of a circular disc, is displayed on the front surface of the iris.

Since the collagen copolymer from which the iridovitreal IOL RSP-3 is made has the property of adhesion to the pigment sheet of the iris, this can create difficulties for the physiological hydrodynamics of intraocular fluid from the posterior chamber to the anterior one. As a result, the pupil block and secondary glaucoma develop. Therefore, for the prevention of the development of the pupil block and secondary glaucoma in such situations, surgical peripheral iridectomy is necessary. In this case, an important point should be taken into account - peripheral iridectomy should be performed exclusively in the projection of the absence of a distal haptic element behind the iris, otherwise the peripheral iridectomy will be ineffective, since its opening will be blocked by the plane of the distal haptic element of the IOL.

The difficulty lies in the fact that when implanting the IOL RSP-3 through a 2.2 mm micro incision, it has to be rotated, displaced, refilled with the distal haptic element under the iris, and the proximal haptic element displayed on the iris. These manipulations ultimately lead to the fact that the reference point is lost, where, in which meridians there is a sufficiently wide distal haptic element, and in which areas beyond the iris it is absent. A situation arises when the surgeon, having performed a peripheral iridectomy, suddenly discovers that its opening coincided and is tightly covered by the wide surface of the distal haptic element of the iridovitreal IOL RSP-3. In such cases, the surgeon is forced to re-form peripheral iridectomy at 60 ° -90 ° from the previous one. This creates additional trauma to the eye, increases the risk of complications such as temporary hemorrhage, hyphema, partial hemophthalmus, because the iris has a rich blood supply. The same difficulties arise for laser surgeons in determining the area for laser peripheral iridectomy in the eyes with IOL RSP-3. Because with time or after injuries and strokes, as well as after repeated operations or manipulations, the rotation of the IOL RSP-3 is possible.

The closest analogue to the prototype of the proposed method is the method of implantation of pupillary intraocular lens RSP-3 (RF Patent No. 2477987. Publ. March 27, 2013, authors: Fabrikantov OL, Kuzmin SI). Its essence: the RSP-3 intraocular lens is implanted in the anterior chamber of the eye through a self-sealing 2.2 mm incision by placing the posterior haptic part of the lens in the injector cartridge book filled with pre-viscoelastic.

The disadvantages of the prototype are:

- the inability to accurately determine the location of the truncation of the distal haptic element IOL RSP-3 after filling it under the iris, since the iris hides this truncation from the eyes of the surgeon;

- lack of control over the possible displacement of the iridovitreal IOL RSP-3 during intraoperative manipulations, for example, when the distal haptic element is placed under the iris, or the proximal haptic element on the iris, the IOL is stitched with nylon 10-00, leaching of viscoelastic from the anterior chamber, or over time in the postoperative period;

- the lack of a guideline for choosing the location of both surgical and laser peripheral iridectomy in the postoperative period may require repeated iridectomy, and this is an additional trauma to the iris;

- performing repeated iridectomy causes a high risk of hemorrhagic complications: temporary hemorrhage, hyphema, partial hemophthalmus.

Objective: to create a method for visualizing the location of the sides of the truncation of the distal haptic element of the iridovitreal IOL model RSP-3.

Effect: the ability to accurately determine the location of the sides of the truncation of the distal haptic element of the iridovitreal IOL RSP-3 to form a consistent peripheral iridectomy.

The invention is illustrated by drawings:

Figure 1 - iridovitreal IOL model RSP-3,

Figure 2 is a view of the iridovitreal IOL model RSP-3 and the iris after implantation.

1 - distal haptic element,

2 - side truncation of the distal haptic element,

3 - proximal haptic element,

4 - incision

5 - the iris of the eye,

6 - optimal areas for performing peripheral iridectomy.

The technical result is achieved as follows: after implantation of the iridovitreal IOL model RSP-3 in the anterior chamber of the eye, before inserting the distal haptic element 1, truncated on both sides 2 under the iris 5, along the edge of the proximal haptic element 3 strictly in the projection of the middle of any of the truncated sides 2 of the distal haptic element 1 with microsurgical scissors, an incision 4 is made with a length of about 0.1 mm (FIG. Then, the distal haptic element 1 is started under the iris 5, the proximal haptic element 3 is brought out on the iris 5, the lens is centered, rotated and hemmed with nylon 10-00 per iris.

Since the proximal haptic element 3 of the iridovitreal IOL RSP-3 is located on the front surface of the iris 5, the incision 4 on it is clearly visible and serves as a clear reference to the location of the middle of the sides of the truncation 2 of the distal haptic element.

Corresponding to this landmark, the midpoints of the truncation sides are determined in the following projections: right below the incision and 180 ° from the opposite side and, accordingly, the optimal area for performing peripheral iridectomy is the place of the iris 6 opposite to the incision 4 or 180 ° from the opposite side.

The advantages of the proposed method:

- the method allows you to accurately determine the location of the sides of the truncation of the distal haptic element of the iridovitreal IOL RSP-3 after its implantation;

- the method allows you to guarantee to choose the right place for the formation of a viable both surgical and laser peripheral iridectomy;

- even with a possible displacement of the IOL RSP-3 in the postoperative period, a clear visualization of the landmark location of the sides of the truncation of the distal haptic element of the iridovitreal IOL RSP-3 is maintained, which allows you to choose the right place for laser iridectomy;

- eliminates the risk of an ophthalmic surgeon performing a failed peripheral iridectomy due to the uncertainty of the location of the truncation of the distal haptic element of the iridovitreal IOL RSP-3;

- prevents the development of hemorrhagic complications associated with the need for repeated iridectomy;

- the proposed method is simple to implement and does not require special tools, skills.

Example 1: Patient C., 73 years old. Clinical diagnosis: Complicated mature cataract, subluxation of the lens of the first degree, secondary phacotopic glaucoma II "A" of the right eye. Visual acuity corresponded to light perception with the correct light projection. The patient underwent phacoemulsification with implantation of an iridovitreal IOL RSP-3. Moreover, after implantation of the iridovitreal IOL RSP-3 into the anterior chamber, before the distal haptic element was inserted under the iris, an incision was made with microsurgical scissors about 0.1 mm long along the edge of the proximal haptic element in the projection of the middle of one of the sides of the truncation of the distal haptic element . The subsequent stages of the operation did not differ from the generally accepted. Peripheral surgical iridectomy was formed taking into account the incision. The operation went without complications. Visual acuity increased to 0.7. The postoperative period was uneventful. Intraocular pressure remained stable at 19–21 mmHg. The viability of peripheral iridectomy was determined both in the early and late postoperative period of observation, which indicated the effectiveness of the intervention, and repeated operations were not required.

Example 2: Patient S., 65 years old. Clinical diagnosis: Complicated immature cataract, pseudoexfoliation eye syndrome of the third degree, subluxation of the lens of the first degree of the right eye. Visual acuity of 0.2 does not correct. The patient underwent phacoemulsification with implantation of an iridovitreal IOL RSP-3. Moreover, after implantation of the iridovitreal IOL RSP-3 into the anterior chamber, before the distal haptic element was inserted under the iris, an incision was made with microsurgical scissors about 0.1 mm long along the edge of the proximal haptic element in the projection of the middle of one of the sides of the truncation of the distal haptic element . The subsequent stages of the operation did not differ from the generally accepted. Peripheral surgical iridectomy was formed taking into account the incision. The operation went without complications. Visual acuity increased to 0.9. The postoperative period was uneventful. Intraocular pressure remained stable at 18–20 mmHg. The viability of peripheral iridectomy was determined within 3 months. After 3.5 months, the patient got into a traffic accident, hit his head on the glass. When viewed on a slit lamp, the rotational displacement of the IOL RSP-3 was determined with an almost complete closure of surgical peripheral iridectomy. Intraocular pressure was 32 mmHg, there was a shallow anterior chamber, which was an indication for laser iridectomy. The localization of laser intervention was chosen taking into account the incision on the IOL. During the formation of the first laser iridectomy, the intraocular fluid flow was visualized from the posterior chamber to the anterior chamber, the anterior chamber recess, and the normalization of intraocular pressure. This testified to the effectiveness of the intervention and additional iridectomy was not required.

Claims (1)

A method for visualizing the sides of truncation of the distal haptic element of the intraocular lens RSP-3, which consists in implanting an iridovitreal intraocular lens in the anterior chamber of the eye, characterized in that before filling the distal haptic element under the iris, along the edge of the proximal haptic element strictly in the projection of the middle of one from the sides of the truncation of the distal haptic element with microsurgical scissors, an incision of about 0.1 mm is performed.

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