RU2546506C1 - Method for pre-operative detection of degree i latent dislocation of lens - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: ultrasonic biomicroscopy is used to measure the distance of the lens and corneal endothelium and the distance of the trabecule and iris in the lying and sitting patient. A difference of 0.5 mm and more of the lying and sitting distances of the lens and corneal endothelium is detected. A difference of 0.1 mm and more of the lying and sitting distances of the trabecule and iris is detected. The detected distance differences testify to the presence of degree I latent dislocation of the lens.

EFFECT: reliable and precise pre-operative detection of degree I latent dislocation of the lens ensured by a possibility to measure the depth variations of the anterior eye chamber, iris-lens diaphragm shift, ligament instabilities accompanying postural changes.

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Description

The invention relates to medicine, in particular to ophthalmology, and can be used in the diagnosis of lens subluxation.

Lens subluxation is a factor that significantly complicates cataract phacoemulsification. A lens subluxation not diagnosed during a preoperative examination can cause a number of intraoperative complications, such as rupture of the capsule of the lens, prolapse of the vitreous body, and luxation of fragments of the lens in the vitreous body. Timely preoperative detection of lens subluxation allows the surgeon to choose the optimal tactics of surgical intervention in advance.

A method for the clinical diagnosis of lens subluxation is biomicroscopy of the anterior segment of the eye. The most difficult for biomicroscopic diagnosis is a weak degree of subluxation of the lens - I degree according to the clinical classification Pashtaeva (1986). Its diagnostic features during visual biomicroscopic evaluation are elusive, sometimes not detected at all. Although the obvious degree of subluxation of the lens (II-III degree) using the biomicroscopy method is easily diagnosed, because at these stages their clinical signs are clearly identified.

A known method for the diagnosis of subluxation of the lens, which consists in detecting changes in the zinc ligament (rupture and lysis of fibers) on the background of pseudoexfoliation syndrome (PES). The anterior segment of the eye is examined by ultrasound biomicroscopy (UBM) in the supine position (Takhchidi H.P., Panteleev E.N., Yanovskaya N.P., Mukhametshina E.Z. Method for determining indications for fixation of an intraocular lens in a ciliary sulcus during phacoemulsification cataract complicated by pseudoexfoliation syndrome, with implantation of the intracapsular ring. RF Patent 2391072. Publ. 10.06.2010). The diagnostic capabilities of this method are limited only by the cases of the presence of deposits of pseudoexfoliation on zinc ligaments, since it is they that make it possible to ultrasound visualize the ligaments. Evaluation is also performed only with a static examination of the patient without changing the position of his body, which does not allow us to assess the strength of the ligamentous apparatus of the lens in dynamics.

There is also a method for the diagnosis of lens subluxation, which is realized by ultrasound biomicroscopy in the supine position. Its essence lies in measuring at four points (upper, lower, outer and inner) the following distances: "ciliary processes - equator of the lens", the depth of the anterior chamber, the thickness of the lens. After that, the discriminant function (f) is calculated by the specified parameters using a special formula. The presence of a lens subluxation is determined with asymmetry in the parameters and f> 0 (Ioshin I.E., Egorova E.V., Shakhbazov A.F., Uzunyan D.G., Bessarabov A.N. Method for determining indications for intracapsular cataract extraction. RF patent 2142264. Publ. 10.12.1999). The method is ineffective in cases of uniform sprain of the ligaments along the entire perimeter of the lens or with a uniform distribution of sections of ligament ruptures in all sectors of the lens equator circumference, because there will be no difference in distances at 4 points.

The closest analogue prototype is a method for the diagnosis of lens subluxation (Takhchidi X. P., Egorova E.V., Uzunyan D.G., Sarukhanyan A.A., Bessarabov A.N. A method for early preclinical diagnosis of rupture of the fibers of the zinc ligament. Patent RF 2281696. Published. 08.20.2006). Its essence lies in a comparative analysis of the parameters in the examined and paired eye, revealed using the ultrasound biomicroscopy method in the patient's supine position. The parameters studied include:

- the angle formed between the line connecting the ciliary groove with the point of contact of the iris with the lens capsule, and the line going from the point of contact of the iris with the lens capsule with the boundary of the equatorial image of the lens capsule;

- maximum thickness of the ciliary body.

If a difference is found in the indices of the test and double eyes, the presence of ruptures of the fibers of the zinc ligament is diagnosed.

The disadvantages of this method:

- Ineffective if there is an initial difference in the anatomical parameters of the eyes - the anteroposterior axis of the eyes, the thickness of the lens, the position and thickness of the ciliary processes.

- Ineffective in the case of the presence of a pseudoexfoliation syndrome in one eye and the absence in the other or with an uneven degree of severity of the pseudoexfoliation syndrome in the studied and paired eyes.

- It is ineffective in cases of rupture and lengthening of the ligaments and subluxation of the lens and in the double eye, even with full symmetry of the two eyes.

The objective of the invention is to offer an effective method for preoperative detection of latent subluxation of the lens of the 1st degree.

The technical result is an increase in preoperative detectability of the latent subluxation of the lens of the 1st degree.

The technical result is achieved by the fact that at the first stage, all patients undergo an A-scan of the eyeball in the supine position and measure the depth of the anterior chamber in the optical center. Then, biomicroscopy of the anterior segment of the eye is performed and obvious signs of a subluxation of the lens (phacodesone, lens displacement relative to the optical axis, unevenness of the anterior chamber depth) are revealed. In this case, visually assess the depth of the anterior chamber in the optical center in millimeters. In the absence of obvious signs of a subluxation of the lens, the anterior chamber depth indices obtained by biomicroscopy and A-scanning are compared. If the anterior chamber depth index obtained by A-scanning in the supine position is greater by 0.5-1.5 mm, then a subluxation is assumed and the anterior chamber depth is examined using ultrasound biomicroscopy under dynamic load on the ligaments, that is, in the positions the patient lying, and then sitting, and in each position determine the following indicators:

- distance “crystalline lens - corneal endothelium”, measured as a perpendicular line from the central area of the corneal endothelium to the surface of the anterior lens capsule in the center;

distance “trabecula - iris”, measured as a perpendicular line running from the front surface of the iris to the trabecular membrane at a distance of 500 μm from the scleral spur (at 4 points: on the meridians 12 hours, 3 hours, 6 hours, 9 hours).

To perform UBM in the sitting position, an additional silicone nozzle is used, which is installed in the conjunctival cavity of the eye, into which the ultrasound sensor is placed.

Then compare the distance indicators “lens - endothelium of the cornea" in the position of the patient lying and sitting; as well as distance indicators "trabecula - iris" in the position of the patient lying and sitting. The identification of the difference in the distance between the lens and the corneal endothelium between the supine position and the sitting position of 0.5 mm or more and the distance between the trabecula and the iris between the supine position and the sitting position of 0.1 mm or more is the basis for the conclusion the presence of weakness of the ligamentous apparatus, which indicates the I degree of subluxation of the lens according to N.P. Pashtaev (due to a shift in the iris-lens diaphragm with a change in body position).

The advantages of the proposed method:

- It does not depend on the anatomical features of the twin eye.

- Allows you to identify a subluxation of the lens of the 1st degree, even in the absence of PES.

- Allows you to identify rare cases of latent subluxation of the crystalline lens of the I degree, due to the uniform lengthening of the ligament or the uniform distribution of sections of ligament ruptures along the entire perimeter, because even with minimal violations of the ligament strength, microasymmetry of the position of the lens is formed, which is quite capable of revealing a comparative assessment of the distance “trabecula-iris”.

- The ability to detect a hidden subluxation of the lens of the I degree in a vertical position (sitting) due to a change in the depth of the anterior chamber when the iridociliary diaphragm is displaced.

The method is illustrated by the following examples.

Example 1. Patient M, 72 g., Was admitted with complaints of reduced vision of the left eye. Diagnosis: Senile immature cataract, operated primary open-angle HA glaucoma of the left eye. Visual acuity OS = 0.15 n / c, IOP 20 mmHg, A-scan: anterior chamber depth 3.72 mm, lens thickness 4.53 mm, anteroposterior axis of the eye 23.45 mm . Visually during biomicroscopic examination: the depth of the anterior chamber in the center is 2.5 mm, the subatrophy of the iris is degree I, the lens is partially clouded in the nucleus and cortical layers. Considering the difference in the anterior chamber depth indices according to the A-scan and 1.22 mm biomicroscopic examination, the patient underwent a UBM study in the lying and sitting positions. The following indicators were identified:

- distance “crystalline lens - endothelium of the cornea” in the supine position - 3.7 mm (no ligament ruptures were detected), sitting position 2.5 mm. A difference of 1.2 mm was revealed.

- distance “trabecula - iris”: in the supine position 12 hours - 0.21 mm, 3 hours - 0.22 mm, 6 hours - 0.21 mm, 9 hours - 0.21 mm; in the sitting position on the meridian of 12 hours - 0.11 mm, 3 hours - 0.11 mm, 6 hours - 0.11 mm, 9 hours - 0.11 mm. A difference was found for all 0.1 mm meridians.

The revealed differences in the indices indicate a shift in the iris-crystalline diaphragm with a change in body position and instability of the ligamentous apparatus. The conclusion is made about the subluxation of the lens of the 1st degree.

Example 2. Patient K, 78 L, was admitted with complaints of reduced vision of the right eye. Diagnosis: Senile immature cataract of the right eye. Visual acuity OD = 0.1 n / k, IOP 19 mm RT. Art., A-scan: The depth of the anterior chamber is 3.63 mm, the thickness of the lens is 4.48 mm. The anterior-posterior axis of the eye is 23.57 mm. During biomicroscopic examination, the depth of the anterior chamber in the center is 2.4 mm, the subatrophy of the iris is degree I, the lens is partially clouded in the nucleus, under the posterior capsule and in the cortical layers. Given the difference in the anterior chamber depth indices according to the A-scan and 1.23 mm biomicroscopic examination, the patient underwent a UBM study in the lying and sitting positions. The following indicators were identified:

- the distance "lens - endothelium of the cornea" in the supine position - 3.61 mm (no rupture of the ligaments), sitting position 2.42 mm. A difference of 1.19 mm was detected.

- distance "trabecula - iris": in the supine position 12 hours - 0.20 mm, 3 hours - 0.20 mm, 6 hours - 0.20 mm, 9 hours - 0.20 mm; in the sitting position on the meridian of 12 hours - 0.09 mm, 3 hours - 0.09 mm, 6 hours - 0.09 mm, 9 hours - 0.09 mm. For all meridians, a difference of 0.11 mm was revealed.

These differences in indicators indicate a shift in the iridocrystalline diaphragm with a change in body position and instability of the ligamentous apparatus. The conclusion is made about the subluxation of the lens of the 1st degree.

Claims (1)

A method for preoperative detection of latent subluxation of the lens of the first degree, which consists in conducting ultrasound biomicroscopy of the depth of the anterior chamber of the eye, characterized in that if, when comparing the parameters obtained by ultrasonic biomicroscopy in the supine and sitting distance of the “lens-corneal endothelium”, a difference of 0 , 5 mm or more, and when comparing the indicators obtained by ultrasonic biomicroscopy in the supine and sitting positions of the “trabecula - iris” distance, a difference of 0.1 mm or more is revealed, iagnostiruyut lens subluxation of I degree.