RU2299732C1 - Method for glaucoma treatment with non-stabilized visual functions - Google Patents

Abstract

FIELD: medicine, ophthalmology.

SUBSTANCE: method involves administration of chitosan sponge with square up to 2 cm² into sub-Tenon's space wherein chitosan sponge shows the deacetylation degree 98%, its molecular mass is 1000 kDa and it comprises 2.8 x 10^-9 g of hyaluronic acid, 27.8 x 10^-8 g of chondroitinsulfuric acid, 3.06 x 10^-11 g of cattle serum growth factor and 7 x 10^-9 g of heparin per 1 mm² of chitosan sponge. Method provides stabilizing visual function, to improving vision and expanding vision field based on enhancing sensitivity of optic nerve as result of blood stream enhancing. Invention can be used in treatment of progressing glaucoma with non-stabilizing functions.

EFFECT: improved method of treatment.

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Description

The invention relates to medicine, namely to ophthalmology, and can be used to treat glaucoma with unstabilized visual functions. In the treatment of glaucoma with unstabilized visual functions, various auto-, allo-, xenoplastic, and synthetic materials (explants) have been proposed and applied that are introduced extrasclerally into the tenon space [1].

VVLantukh, I.A. Iskakov [2] suggested to the posterior pole of the eye into the tenon space of the eye to inject successively 0.12 ml of a 10% solution of trichloroacetic acid and 80-120 mg of crystalline talc. After surgery, patients with glaucoma in the advanced stage after surgery achieved the following: stabilization of visual acuity in 82.2% of patients, visual fields in 84.2%, increase in rheographic coefficient from 0.77 ± 0.09 to surgery and to 1.27 ± 0.14 in the near and up to 1.29 ± 0.09 in the long-term postoperative period.

The disadvantages of this method are the use of aggressive materials such as acid, a special type of talc in the work.

In ophthalmology, the method of M.V. Zaykova et al. [3], its essence is the introduction of umbilical tissue into the tenon space.

Closest to the proposed is the method proposed by A.V. Svirin et al. [4], where mechanically shredded homo-cartilage was used to stimulate visual functions in glaucoma with various stages, to which 0.3 ml of dexazone and 0.3 ml of a 1% solution of kanamycin were added and this paste was introduced into the tenon space. In the long term, it was possible to achieve stabilization of visual functions in 81.9% of patients. The continuation of the therapeutic effect was observed for several months and even years.

The disadvantages of these methods are the use of donor tissues, for the use of which it is necessary to conduct a series of laboratory studies to exclude infection of the material (HIV, HBV, HCV, etc.), to prepare, process, store tissues according to the method proposed by the authors, which can cause difficulties in the absence of a bank donor tissue.

The objective of the invention is to slow the deterioration of visual functions or their stabilization in patients with unstable glaucoma.

The problem is solved due to the fact that as a biopolymer, a chitosan sponge with an area of up to 2 cm ² with a degree of deacetylation of chitosan of 98%, with a molecular weight of 1000 kDa, containing 28 · 10 ^-9 g of hyaluronic acid in 1 mm ^2, is introduced into the subtenon space once, 27 , 8 · 10 ^-8 g of chondroitin sulfuric acid, 3.06 · 10 ^-11 g of serum cattle growth factor, 7 · 10 ^-9 g of heparin.

The method is as follows.

Patients in the lower-outer or lower-inner quadrant are 5-6 mm from the limbus, and a conjunctiva incision 6-8 mm long is made in parallel with it. A tunnel is formed in the tenon space to the posterior pole of the eye towards the optic nerve. A flap is cut from a collagen-chitosan sponge with an area of up to 10 mm × 20 mm with a degree of chitosan deacetylation of 98%, its molecular weight of 1000 kDa, containing 28 · 10 ^-9 g of hyaluronic acid in 1 mm ² , 27.8 · 10 ^-8 g of chondroitin sulfur acid, 3.06 · 10 ^-11 g of serum cattle growth factor, 7 · 10 ^-9 g of heparin, and with the help of tweezers and a spatula, the cut flap is inserted into the formed tunnel to the optic nerve and straightened. The wound of the conjunctiva is closed with sutures. In the postoperative period, drops are prescribed as standard anti-inflammatory therapy for patients: Sol. Dexamethasoni 0.1%, Sol. Cipromedi 0.3%, parabulbarno: Sol. Dexamethasoni 2 mg, Sol. Gentamycini sulfatis 4% - 0.2 ml, within 7 days.

15 patients were treated (8 men and 7 women) aged 66 to 76 years. In patients, visual acuity, total boundaries of the visual fields, the critical frequency of flicker fusion, optic nerve lability were determined, biomicroscopy, ophthalmoscopy, topography, tonometry, rheophthalmography were performed before the operation, after the operation (upon discharge), after 1.3 and 6 months.

Immediate and long-term results showed the effectiveness of the proposed treatment. The table below shows stable indicators of visual functions, electrophysiological parameters and hydrodynamics of operated eyes.

Table
The results of studies of patients with unstabilized form of glaucoma Indicators before treatment after 10 days 1 month after surgery 3 months after surgery 6 months after surgery Visual acuity without correction 0.15 ± 0.25 0.18 ± 0.15 0.17 ± 0.11 0.15 ± 0.19 0.16 ± 0.18 Visual acuity with correction 0.21 ± 0.18 0.24 ± 0.12 0.24 ± 0.15 0.25 ± 0.12 0.24 ± 0.14 The sum of the degrees of peripheral fields of view, degrees 254 ± 33 265 ± 29 280 ± 0.24 284 ± 0.26 281 ± 0.20 Sensitivity threshold of the optic nerve, mA 362 ± 26 360 ± 28 340 ± 20 310 ± 21 315 ± 23 Lability, Hz thirty thirty 32 thirty 31 Intraocular pressure, mmHg 22.51 ± 1.95 23.12 ± 2.10 22.11 ± 1.84 22.10 ± 1.12 22.12 ± 2.11 True intraocular pressure, mmHg 18.21 ± 1.51 19.01 ± 2.10 18.02 ± 1.12 18.18 ± 1.41 18.11 ± 1.16 The ease of outflow, mm ³ / min / mm Hg 0.13 ± 0.08 0.12 ± 0.12 0.14 ± 0.09 0.13 ± 0.07 0.13 ± 0.17 Becker coefficient 145 ± 14 158 ± 16 136 ± 13 132 ± 12 139 ± 15 Geographic coefficient 1.17 ± 0.13 1.26 ± 0.11 1.30 ± 0.13 1.22 ± 0.09 1.20 ± 0.07 Pulse volume according to Kedrov 7.3 ± 0.91 8.40 ± 2.21 8.75 ± 1.25 8.83 ± 1.10 8.43 ± 1.7

The table shows that within a few days after the operation, visual acuity without correction and with correction increases, the boundaries of the visual fields expand, the rheographic coefficient and pulse volume increase, the sensitivity threshold of the optic nerve, the remaining parameters vary slightly. These changes indicate an increase in the sensitivity of the optic nerve due to increased blood flow, and the increase in these parameters continues a month after the operation and their values are maintained for 6 months of observation, the hydrodynamic parameters also remain stable.

Clinical example: Antonov N.F. 76 years old. The diagnosis is open-angle developed with compensated intraocular pressure operated glaucoma, immature age-related cataract, mild hyperopia of the right eye; open-angle, far-reaching operated unstabilized glaucoma, immature age-related cataract, mild hypermetropia of the left eye, the diagnosis was made on the basis of complaints, medical history, biomicroscopic, ophthalmoscopic, electrophysiological studies, the state of intraocular pressure and eye hydrodynamics.

Before treatment, the visual acuity of the left eye without correction of 0.5, visual acuity with correction (sphere (+) 1.0 diopters) is 0.6, the sum of the degrees of peripheral fields of vision is 389, the threshold of sensitivity of the optic nerve is 260 mA, the lability of the optic nerve is 40 Hz , the critical fusion flicker frequency is 40 Hz, the true intraocular pressure is 13.0 mm Hg, the ease factor of the outflow of intraocular fluid is 0.15 mm ³ / min / mm Hg, the production of intraocular fluid is 0.5 mm ³ / min , Becker coefficient - 86.67, reographic coefficient - 1.4, pulse volume according to Kedrov 8.4.

The patient in the lower-outer quadrant 5-6 mm from the limbus was parallel with an incision of the conjunctiva 6-8 mm. A tunnel has been formed in the tenon space, towards the posterior pole of the eye towards the optic nerve. Cut out a flap from a collagen-chitosan sponge 10 mm × 20 mm with a degree of deacetylation of chitosan of 98%, its molecular weight of 1000 kDa, containing 28 · 10 ^-9 g of hyaluronic acid in 1 mm ² , 27.8 · 10 ^-8 g of chondroitin sulfuric acid, 3.06 · 10 ^-11 g of serum cattle growth factor, 7 · 10 ^-9 g of heparin, with tweezers and a spatula, is inserted into the formed tunnel towards the optic nerve and straightened. The wound of the conjunctiva is sutured. In the postoperative period, as a standard anti-inflammatory therapy, the patient received drops: Sol. Dexamethasoni 0.1%, Sol. Cipromedi 0.3%; parabulbar: Sot. Dexamethasoni 2 mg, Sol. Gentamycini suifatis 4% - 0.2 ml, within 7 days.

On the 10th day after the operation, the patient has the following indicators of the left eye: visual acuity without correction of 0.5, visual acuity with correction (sphere (+) 1.0 diopters) is 0.6, the sum of the degrees of peripheral fields of view is 395 degrees, the sensitivity threshold optic nerve 240 mA, optic nerve lability 40 Hz, critical flicker fusion frequency 40 Hz, true intraocular pressure 12 mm Hg, lightness coefficient of outflow of intraocular fluid - 0.17 mm ³ / min / mm Hg, intraocular products fluid 0.65 mm ³ / min, the coefficient Becker 70.59, reog afichesky coefficient of 1.63, the pulse volume of Kedrov 8.9.

These changes in indicators indicate an improvement in the sensitivity of the optic nerve and retina, an increase in the outflow of intraocular fluid, and an increase in intraocular circulation by the 10th day after the operation.

1 month after surgery, the patient showed the following indicators of the left eye: visual acuity without correction of 0.5, visual acuity with correction (sphere (+) 1.0 diopters) is 0.7, the sum of degrees of peripheral fields of view is 408 degrees, the sensitivity threshold optic nerve 240 mA, optic nerve lability 40 Hz, critical flicker fusion frequency 40 Hz, true intraocular pressure 12 mmHg, ease factor of outflow of intraocular fluid - 0.16 mm ³ / min / mmHg, intraocular products fluid 0.65 mm ³ / min, the coefficient Becker 75 reogr Graphical coefficient of 1.60, the pulse volume of Kedrov 7.8.

These changes in indicators indicate stabilization and a slight improvement in visual functions, an increase in the sensitivity of the optic nerve, and the preservation of enhanced blood circulation.

3 months after surgery, the patient recorded the following indicators of the left eye: visual acuity without correction of 0.5, visual acuity with correction (sphere (+) 1.0 diopters) is 0.65, the sum of the degrees of peripheral fields of view is 404 degrees, the sensitivity threshold optic nerve 240 mA, optic nerve lability 40 Hz, critical flicker fusion frequency 40 Hz, true intraocular pressure 14.1 mmHg, lightness coefficient of outflow of intraocular fluid - 0.13 mm ³ / min / mmHg, intraocular fluid production 0.89 mm ³ / min, Becker coefficient 108.46, reographic coefficient 1.53, pulse volume according to Kedrov 7.2.

These changes in indicators indicate stabilization of visual functions, sensitivity of the optic nerve, indicators of the level of hydrodynamics, intraocular circulation.

6 months after surgery, the patient showed the following indicators of the left eye: visual acuity without correction of 0.5, visual acuity with correction (sphere (+) 1.0 diopters) is 0.6, the sum of degrees of peripheral fields of view is 398 degrees, the sensitivity threshold optic nerve 240 mA, optic nerve lability 40 Hz, critical flicker fusion frequency 40 Hz, true intraocular pressure 12 mmHg, ease of outflow of intraocular fluid 0.16 mm ³ / min / mmHg, production of intraocular fluid 0 , 84 mm ³ / min, Becker coefficient 75, reography the coefficient is 1.57, the pulse volume according to Kedrov is 8.4.

These values indicate the preservation of the achieved indicators of visual functions, sensitivity of the optic nerve, retina, level of intraocular circulation and intraocular hydrodynamics, biometric parameters by 6 months after surgery.

The proposed method allows to stabilize visual function, improve visual acuity with correction, expand the field of view, improve the sensitivity of the optic nerve, improve the rheographic coefficient, pulse blood volume, stop the progression of the glaucoma process. The result obtained remains stable for a long time of observation after surgery.

Bibliography

1. Abramov V.G., Vakurin E.A., Kurysheva N.I. and other Revascularization in open-angle glaucoma // Ophthalmic surgery. - 1991. - N1. - C.32-35.

2. Lantukh V.V., Iskakov I.A. Revascularization of the optic nerve in combination with simultaneous sinusotrabeculectomy in patients with open-angle far-reaching glaucoma // Abstracts of the VI Congress of Ophthalmologists of Russia. M., 1994 .-- S. 233.

3. Zaykova M.V., Translnikova A.P. Yakovleva N.I. Prevention of the progression of myopia by transplantation of umbilical tissue // Ophthalmol. Journal. - 1993. - N3. - S. 157-158.

4. Svirin A.V., Antipova O.A., Serebryakova T.V. Modification of the operation of introducing a suspension of homotissue into the tenon space with high progressive myopia // Tomsk State University Journal. Ophthalmol. - 1984.- N4. - S.31-34.

5. Tanaka Y., Tanioka S., Tanaka M., Tanigawa T., Kitamura Y., Minami S., Okamoto Y., Miyashita M., Nanno M. Effects ofchitin and chitosan particles on BALB / c mice by oral and parenteral administration. Biomaterials. 1997 .-- Vol. 18. - No8. - P.591-595.

Claims (1)

A method of treating glaucoma with unstabilized visual functions, characterized in that through a surgical opening in the conjunctiva into the tenon space to the posterior pole of the eye, a sponge is injected once with an area of up to 2 cm ² containing chitosan with a degree of deacetylation of 98%, a molecular weight of 1000 kDa, including 1 mm ² 28 · 10 ^-9 g of hyaluronic acid, 27.8 · 10 ^-8 g of chondroitin sulfuric acid, 3.06 · 10 ^-11 g of serum cattle growth factor, 7 · 10 ^-9 g of heparin, followed by anti-inflammatory therapy, concluding Xia administering drops of a 0.1% solution of dexamethasone, 0.3% solution tsipromeda parabulbarnom and 2 mg dexamethasone solution, 0.2 ml of a 4% solution of gentamicin sulfate during therapy within 7 days.