RU2576811C1 - Method for laser treatment of primary open-angle glaucoma following minimally invasive nonpenetrating deep sclerectomy - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to laser treatment of primary open-angle operated glaucoma. Effect on pigment cells and pseudexfolation of eye trabecular reticulum (TR) is carried out by nanosecond Nd-YAG laser emission of wave with length 532 nm, upon spot diameter 400 mcm, power 0.7-1.2 mJ. Laser pulses are applied on TR in a segment including operation zone along circle arc 60-70°, with arc middle in the area of operation, first in one, and then at the same arc in reverse direction, wherein the total number of pulses in both directions is equal to 70-80.

EFFECT: method allows to stabilise intraocular pressure in different time frames after operation due to maximum evacuation of pigment cells and pseudo-exfoliation from the surface of TR, improving the intraocular fluid outflow, reducing tissue injuries by reducing the volume of laser intervention.

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Description

The invention relates to medicine, in particular to ophthalmology, and for laser treatment of primary open-angle operated glaucoma.

The closest to the technical solution of the problem is a method of laser treatment of primary open-angle glaucoma, including exposure to pigment cells and pseudoexfoliation in the lower part of the trabecular network (TS) of the eye in the corner of the anterior chamber at the level of the Schlemm's channel with nanosecond Nd-YAG laser radiation with a wavelength of 532 nm, with spot diameter 400 μm, power 0.7-1.2 mJ, the number of pulses 80-100, applied along an arc of a circle of 80-100 °, first in one and then in the opposite direction, thereby affecting the remaining pigment cells and ps vdoeksfoliatsii (RF patent №2340321 ES Ivanova, TS Lyubimov, EE Farazheva, Tumanyan ER).

The disadvantages of this method are the large amount of laser exposure, its implementation in the lower part of the TS, and the authors do not describe the possibility of using this type of laser treatment of patients at different times of the postoperative period after microinvasive non-penetrating sclerectomy (MNGE).

It is known that sufficient filtration of intraocular fluid through the trabeculo-descemet membrane (TDM) formed during non-penetrating surgery prevents the development of proliferative processes in the area of surgically formed outflow paths (CSPO) (A. Zolotarev, D. Snigarevsky, D., Achkurin D. B. Experience with the use of reconstruction of the filtration zone as a hypotensive reoperation // Broshevsky readings. - Samara, 2002. P. 72-73). But at various times in the postoperative period, TDM causes deposition of pigment cells and pseudoexfoliation, and therefore its penetrating ability decreases. Thus, the flow of intraocular fluid through HSPO is hindered and the hypotensive effect of the antiglaucomatous operation decreases.

The objective of the invention is to develop an effective method of prolonging the hypotensive effect with unstable intraocular pressure (IOP) after MNSE in the case of deposition of pigment cells and pseudoexfoliation on TDM.

The technical result is the stabilization of IOP at different times after MNSE due to the maximum evacuation of pigment cells and pseudoexfoliation from the surface of the TDM, improving the outflow of intraocular fluid (VGI) by CVD and reducing tissue trauma by reducing the amount of laser intervention.

The technical result is achieved by the fact that in the method of laser treatment of primary open-angle glaucoma, including exposure to pigment cells and pseudoexfoliation of TS eyes with nanosecond Nd-YAG laser radiation with a wavelength of 532 nm, with a spot diameter of 400 microns, a power of 0.7-1.2 mJ, according to the invention, laser pulses are applied to the vehicle in a segment including the operation zone, along an arc of a circle of 60-70 °, with the middle of the arc in the operation zone, first in one and then in the opposite direction, with the total number of pulses per both sides is 70-80.

According to the invention, the influence of the indicated parameters of laser energy on the pigment cells and pseudoexfoliation deposited on the TDM increases its permeability and improves the HPW current according to the CVD, and the effect on the TC zones located around the TDM improves the outflow of intraocular moisture through natural pathways. Such a combined effect leads to the stabilization of IOP and prolongation of the hypotensive effect in the postoperative period.

Differences from the closest analogue are the application of the proposed method at different times of the postoperative period after the MNSE, the laser exposure of the TS segment, including the operation area, reduction of the volume of laser intervention, namely the reduction in the number of pulses and the length of the laser exposure arc.

The method is as follows. After ultrasound microbioscopy (UBM) detects deposits of pigment granules and pseudoexforations on the TDM, local anesthesia (instillation of drops) is performed on the cornea, a contact lens for gonioscopy of the Goldman type is installed, the laser beam is focused through the side mirrors of the lens on the trabecula surface, and the channel of the helmet projection is held exposure to Nd-YAG with laser radiation with a wavelength of 532 nm, as follows: laser pulses are applied in the segment of the vehicle, including the operation area, along a circular arc of 60-70 °, from the middle arc in the zone of operation, first in one and then on the same arc in the opposite direction. The total number of pulses in both directions is 70-80, the pulse energy is 0.7-1.2 mJ (a small bubble is formed at each focusing point).

According to the invention, such a laser exposure length is sufficient in combination with the energy used in each pulse and the total number of pulses.

The present invention can be used for laser treatment of primary open-angle operated glaucoma after non-penetrating surgery in patients with an opening of the anterior chamber angle from 2 to 3 degrees, pigmentation of the Schlemm canal trabecula from 1 to 3, and thickening of TDM by applying pseudoexfoliation granules with impaired hydrodynamics.

According to this technique, 20 patients (25 eyes) with primary open-angle glaucoma in the initial and developed stages were treated after MNSE, with the opening of the anterior chamber angle from 2 to 3 degrees, its pigmentation from 1 to 3 and deposits of pseudoexfoliation on TDM and TS recorded using UBM, aged 54 to 78 years. The observation period ranged from 3 months to 1 year. Normalization of intraocular pressure with an improvement in the ease of outflow "C" by an average of 0.09-0.11 mm / min was achieved in 16 patients treated by this method (21 eyes). In 4 patients (4 eyes) there was a decrease in IOP in drops of 5-7 mm RT. Art.

Example 1. Patient A., 57 years old, diagnosis: OS primary open-angle operated glaucoma of the initial stage. 6 months after MNGE. Gonioscopic examination: the anterior chamber angle is open at 2, pigmentation 3. Visual acuity: OS = 0.8 uncorrectable. IOP (Maklakov tonometer): OS = 24 mmHg. Art. Tonography data: OS P = 22.6 mm RT. Art., C = 0.11 mm / min, F = 1.34 mm / min. UBM data - TDM thickness 0.06 mm, acoustic density 30%, deposits of high acoustic density 0.002 mm in size are noted. The left eye operation according to the invention was performed on a vehicle in the upper segment, including the operation zone, with the following parameters: radiation power 0.7 mJ, spot diameter 400 μm, wavelength 532 nm, number of pulses 80, the length of the circular arc in one direction is 70 ° . On the first day after surgery: the eye is calm, visual acuity has not changed, IOP 18 mm RT. Art. (Maklakov tonometer) without antihypertensive regimen. After 3 weeks IOP of the left eye 20 mm RT. Art. Tonography data: P = 17.0 mm RT. Art., C = 3 mm / min, F = 2.06 mm / min. In the next 6 months of observation, the IOP parameters on OS remained within the normal range.

Example 2. Patient M., 62 years old, diagnosis: OD primary open-angle operated glaucoma developed stage. 8 months after MNGE. Gonioscopic examination: the anterior chamber angle is open at 3, pigmentation 2, pronounced deposition of pseudoexfoliation. Visual acuity: OD = 0.6 sph -1.5 = 0.8. IOP (Maklakov tonometer): OD = 25 mm RT. Art. Tonography data: OD P = 23.3 mm Hg. Art., C = 0.12 mm / min, F = 1.29 mm / min. UBM data - TDM thickness 0.07 mm, acoustic density low, deposits of high acoustic density are noted. The operation of the right eye according to the invention was performed on a vehicle in the upper segment, including the operation zone, with the following parameters: radiation power 0.8 mJ, spot diameter 400 μm, wavelength 532 nm, number of pulses 70, the length of the circular arc in one direction is 60 ° . On the first day after surgery: the eye is calm, visual acuity has not changed, IOP 20 mm RT. Art. (Maklakov tonometer) without antihypertensive regimen. In the next 9 months of observation, the IOP parameters on OS remained within the normal range.

Example 3. Patient C, 69 years old, diagnosis: OD primary open-angle operated glaucoma of the initial stage. And months after MNGE. Gonioscopic examination: the anterior chamber angle is open at 3, pigmentation 2, pronounced deposition of pseudoexfoliation. Visual acuity: OD = 0.7 uncorrectable. IOP (Maklakov tonometer): OD = 25 mm RT. Art. Tonography data: OD P = 21.7 mm Hg. Art., C = 0.13 mm / min, F = 1.32 mm / min. UBM data - TDM thickness 0.07 mm, acoustic density low, deposits of high acoustic density are noted. The operation of the right eye according to the invention was performed on a vehicle in the upper segment, including the operation zone, with the following parameters: radiation power 1.2 mJ, spot diameter 400 μm, wavelength 532 nm, number of pulses 75, the length of the circular arc in one direction is 65 ° . On the first day after surgery: the eye is calm, visual acuity has not changed, IOP 19 mm RT. Art. (Maklakov tonometer) without antihypertensive regimen. In the next 6 months of observation, the IOP parameters for OD remained within normal limits.

Thus, the proposed method of laser treatment of patients with primary open-angle operated glaucoma allows to stabilize IOP due to the maximum evacuation of pigment cells and pseudoexfoliation from the surface of TDM and to improve the outflow of intraocular fluid according to CVD, which is confirmed by the presented examples.

Claims (1)

A method of laser treatment of primary open-angle glaucoma, including exposure to pigment cells and pseudoexfoliation of the trabecular network (TS) of the eye with nanosecond Nd-YAG laser radiation with a wavelength of 532 nm, with a spot diameter of 400 μm, a power of 0.7-1.2 mJ, characterized in that laser pulses are applied to the vehicle in the segment including the operation zone, along a circular arc of 60-70 °, with the middle of the arc in the operation zone, first in one, and then in the same arc in the opposite direction, with the total number of pulses in both directions is 70-80.