RU2642291C1 - Method for determination of viscoelastic volume for introduction into eye anterior chamber during intraoperative blockade of surgery area by iris root during microperforation of trabeculo-descemet's membrane during deep non-penetrating sclerectomy - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: prior to the non-penetrating deep sclerectomy (NDSE), the depth of the anterior chamber of the eye is determined according to biometrics, the refraction of the cornea is determined according to autorefractometry, the minute volume of moisture is determined according to the tonography data. The volume of viscoelastic is determined by the formula:

where V is the volume of viscoelastic, ml, p is the depth of the anterior chamber, mm, K is the refraction of the cornea, dptr, F is the minute volume of moisture, mm³/min.

EFFECT: method allows to prevent hypotension, hyphema and blockade of the surgery area by the iris root with microperforation of the trabeculo-descemet's membrane during non-penetrating deep sclerectomy, by reducing the intraocular pressure in the physiological range.

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Description

The invention relates to medicine, namely to ophthalmology, and can be used to determine the amount of viscoelastic for insertion into the anterior chamber of the eye during intraoperative prophylaxis of the blockade of the operation area with the root of the iris during microperforation of the trabeculo-descemetic membrane during non-penetrating deep sclerectomy.

Non-penetrating deep sclerectomy (NSES) was developed by S.N. Fedorov et al. [Fedorov S.N., Kozlov V.I., Timoshkina N.T. and other Non-penetrating deep sclerectomy with open-angle glaucoma // Ophthalmic surgery. 1989. (3-4). 52-55] and is currently one of the most common and effective operations in primary open-angle glaucoma.

In the process of performing NSES, when cutting a deep flap of the remaining scleral layers with removal of the outer wall of the Schlemm canal until the descemet membrane is exposed, microperforation of the trabeculo-descemet membrane can occur. If measures to block microperforation are not taken, increased outflow through it can lead to blockage of the operation area by the root of the iris and, in fact, to disavow the anti-glaucomatous intervention with increased intraocular pressure.

One of the methods for preventing the blockage of the area of operation by the root of the iris during microperforation of the trabeculo-descemet membrane during non-penetrating deep sclerectomy can be the introduction of viscoelastic with high viscosity into the anterior chamber [Egorova EV, Sidorova AV, Opletina AV, Eremenko I.L., Shormaz I.N. Prevention of intraoperative complications during non-perforating antiglaucomatous operations / Siberian Scientific Medical Journal. 2015.Vol. 35. No. 2. S. 55-59]. However, the volume of the anterior chamber varies significantly depending on the curvature of the cornea, the depth of the anterior chamber, and with an excessive amount of viscoelastic hypertension may occur with a prolonged period of increased pressure until the outflow of viscoelastic from the anterior chamber. With an insufficient volume of viscoelastic, there will be an increased outflow in the microperforation zone with a corresponding sharp decrease in intraocular pressure. To prevent these complications, it is necessary to introduce the minimum sufficient, in order to avoid acute hypotension, and the maximum required amount of viscoelastic to prevent excessive hypertension.

The authors do not know a method for determining the volume of viscoelastic for insertion into the anterior chamber of the eye during intraoperative prophylaxis of the blockade of the operation zone by the root of the iris during microperforation of the trabeculo-descemet membrane during non-penetrating deep sclerectomy.

The objective of the invention is to develop a method for determining the amount of viscoelastic for insertion into the anterior chamber of the eye during intraoperative prophylaxis of the blockade of the area of operation by the root of the iris during microperforation of the trabeculo-descemetic membrane during non-penetrating deep sclerectomy.

The technical result of the proposed method is the prolongation of the hypotensive effect of NSHE due to the preservation of the outflow paths created by the operation, which allows to reduce intraocular pressure in the physiological range and minimize postoperative complications, such as blockage of the operation area by the root of the iris, hypotension, hyphema.

The technical result is achieved by the fact that in the method for determining the amount of viscoelastic for insertion into the anterior chamber of the eye during intraoperative prophylaxis of the blockade of the area of operation by the root of the iris during microperforation of the trabeculo-descemet membrane during non-penetrating deep sclerectomy, the depth of the anterior chamber is determined by biometric data, corneal refraction according to autorefractometry, minute volume of moisture according to tonography and calculate the amount of viscoelastic according to the formula:

where V is the volume of viscoelastic, ml;

p is the depth of the anterior chamber, mm;

K - refraction of the cornea, diopters;

F - minute volume of moisture, mm ³ / min.

This ratio is determined empirically based on an analysis of clinical and experimental data.

With the introduction of the calculated volume of viscoelastic with a kinematic viscosity of 25,000 mPa⋅s, the outflow of moisture and moisture through microperforation will be difficult for at least three days, and microperforation cannot cause postoperative hypotension, and there will be no excessive hypertension. This makes it possible to block microperforation of a trabeculo-descemetic membrane with viscoelastic. Thus, the necessary and sufficient conditions for blocking the influence of microperforation on the result of the operation will be satisfied.

The set of essential distinguishing features proposed by the authors is necessary and sufficient for the unambiguous achievement of the claimed technical result.

The method is as follows. In patients before performing a non-penetrating deep sclerectomy antiglaucomatous operation, the anterior chamber depth is determined according to biometrics in mm, corneal refraction according to autorefractometry in diopters, minute volume of moisture according to tonography in mm ³ / min. The initial stages of the operation are performed using the non-GSE technology with a conjunctival incision along the limb 3 mm long, cutting out a surface scleral flap 1/3 thick sclera thick, with a base to the limb 3 × 3 mm in size, entering into the transparent layers of the sclera. Under the surface flap, a deep flap is cut out to almost the entire thickness of the remaining scleral layers until the descemet membrane is exposed. Next, the inner scleral flap together with the outer wall of the Schlemm's canal is removed. In the case of intraoperative microperforation of the trabeculo-desmetic membrane at the time of removal of the internal scleral flap, corneal paracentesis is performed with a 20 G knife in 9 or 15 h segments and a volume of viscoelastic (1% sodium hyaluronate) calculated by the formula is introduced into the anterior chamber using a 27 G cannula.

The volume V of viscoelastic is calculated by the formula:

where V is the volume of viscoelastic, ml;

p is the depth of the anterior chamber, mm;

K - refraction of the cornea, diopters;

F - minute volume of moisture, mm ³ / min.

Under the scleral flap, 0.1 ml of the HealaFlow drainage implant is injected, which fills the recess of the removed internal scleral flap and maintains the shape of an oval. From above, HealaFlow is covered with a superficial scleral flap, fixing it to the scleral bed with one interrupted suture (8-0). The wound is sealed by applying one nodal suture to the conjunctiva (8-0). The operation is completed by injection of dexamethasone and an antibiotic under the conjunctiva.

In the postoperative period, patients are once prescribed acetazolamide in a dosage of 250 mg, taking into account the somatic status of the patient.

Example 1

Patient A., 69 years old.

Diagnosis - Primary open-angle glaucoma 2B.

Intraocular pressure before surgery 29 mm Hg in combined hypotensive mode;

p is the depth of the anterior chamber = 3.15 mm;

K - corneal refraction = 43.0 diopters;

F - minute moisture volume = 2.1 mm ³ / min.

Intraoperatively, perforation of the trabeculo-descemetic membrane occurred. According to the proposed formula, the volume of viscoelastic is calculated, which must be entered into the anterior chamber:

The calculated amount of 0.175 ml Provisk viscoelastic was introduced into the anterior chamber through paracentesis. Under the scleral flap, 0.1 ml of the HealaFlow drainage implant was introduced, which was covered with a superficial scleral flap and fixed to the scleral bed with one nodal suture (8-0), then the conjunctiva was sealed with one nodal suture on the conjunctiva (8-0). The operation was completed by injection of dexamethasone and an antibiotic under the conjunctiva.

In the postoperative period and once prescribed acetazolamide in a dosage of 250 mg.

The postoperative period was uneventful. Intraocular pressure after 1 day 13 mm Hg, after 1 month - 14 mm Hg

Example 2

Patient S., 57 years old.

Diagnosis - Primary open-angle glaucoma 3B.

Intraocular pressure before surgery 27 mm Hg in combined hypotensive mode;

p is the depth of the anterior chamber = 3.56 mm;

K - corneal refraction = 44.25 diopters;

F - minute moisture volume = 1.5 mm ³ / min.

Intraoperatively, perforation of the trabeculo-descemetic membrane occurred. According to the proposed formula, the volume of viscoelastic is calculated, which must be entered into the anterior chamber:

The calculated amount of 0.2 ml Provisk viscoelastic was introduced into the anterior chamber through paracentesis. Under the scleral flap, 0.1 ml of the HealaFlow drainage implant was introduced, which was covered with a superficial scleral flap and fixed to the scleral bed with one nodal suture (8-0), then the conjunctiva was sealed with one nodal suture on the conjunctiva (8-0). The operation was completed by injection of dexamethasone and an antibiotic under the conjunctiva.

In the postoperative period, acetazolamide was once prescribed in a dosage of 250 mg.

The postoperative period was uneventful. Intraocular pressure after 1 day 9 mm Hg, after 1 month - 16 mm Hg

Claims (6)

A method for determining the volume of viscoelastic for insertion into the anterior chamber of the eye during intraoperative prophylaxis of the blockade of the area of operation by the root of the iris during microperforation of the trabeculo-descemet membrane during non-penetrating deep sclerectomy, which consists in the fact that before the operation, the depth of the anterior chamber is determined by biometric data, corneal refraction according to autorefractometry , minute volume of moisture according to tonography and the volume of viscoelastic is calculated by the formula:

where V is the volume of viscoelastic, ml; p is the depth of the anterior chamber, mm; K - refraction of the cornea, diopters; F - minute volume of moisture, mm ³ / min.