RU2409318C1 - Method to forecast development of glaucoma in case of progressing nearsightedness - Google Patents

Abstract

FIELD: medicine. ^ SUBSTANCE: invention relates to medicine, namely, to ophthalmology, and may be used in ophthalmologic survey to forecast development of glaucoma in case of progressing nearsightedness. In patients with progressing nearsightedness, using method of triplex scanning, values of indices of peripheral resistance are identified in orbital arteries of the right (RIODÇèOA) and the left (RIOSÇèOA) of eyes and in one of rear long ciliary arteries of the right (RIODÇèRLCA) and the left (RIOSÇèRLCA) of eyes. Then hemodynamic iridociliary coefficients are calculated, using the following formulas: ICCOD=RIODÇèOA/RIODÇèRLCA, ICCOS=RIOSÇèOA/RIOSÇèRLCA, where ICCOD - hemodynamic iridociliary coefficient of the right eye, ICCOS - hemodynamic iridociliary coefficient of the left eye. If value of any iridociliary coefficient is below 0.9, development of glaucoma is forecasted on according eye. ^ EFFECT: method makes it possible to forecast development of glaucoma in case of progressing nearsightedness with high extent of validity. ^ 1 ex

Description

The invention relates to medicine, namely to ophthalmology, and can be used in ophthalmological studies to predict the development of glaucoma with progressive myopia.

The problem of predicting the development of glaucoma with progressive myopia is of great medical and social importance, since a timely prognosis and prophylactic treatment initiated can help avoid blindness in most patients. With progressive myopia, the development of glaucoma depends on the distinctive anatomical and topographic relationships and clinical and functional indicators, which include: an increase in the size of the eyeball, stretching of the scleral ring and physiological excavation of the optic disc (optic nerve disc), the presence of peripapillary chorioretinal dystrophy, iris atrophy in combination with inhibition of hydrodynamic indicators (Bochkareva A.A. Eye diseases. - M., 1989. - P.71). In connection with the presence of structural features of the eyeball with progressive myopia, difficulties arise in predicting the development of glaucoma, since the known methods for predicting glaucoma become less informative in this category of patients.

Conducted research on the medical-scientific and patent literature found various methods for predicting the development of glaucoma.

RF patent No. 2297171 (2007, BIPM No. 11) describes a method for predicting the development of glaucoma by performing an unloading test and evaluating the dynamics of computer static perimetric data. If changes are detected in the areas of the visual field characteristic of the glaucomatous process, an unloading test is carried out: after preliminary monitoring of intraocular pressure, 1 drop of Travatan ophthalmic preparation is instilled once. After 24 hours, a control measurement of intraocular pressure is performed and computer-assisted static perimetry is repeated. With an improvement in the sensitivity of the retina against the background of a decrease in intraocular pressure, the sample is considered positive and the development of glaucoma is predicted. The disadvantage of this method is the low reliability of the forecast for the development of glaucoma in patients with progressive myopia, since Travatan reduces the level of intraocular pressure in these patients in 60% of cases (Dolzhich PP Pathogenetic mechanisms for reducing visual function in complicated myopia and its combination with glaucoma, the development of differentiated rehabilitation and dispensary observation systems: Abstract of thesis ... of a doctor of medical sciences - Samara, 2006. - P.26).

In the patent of the Russian Federation No. 2318431 (2008, BIPM No. 7), the development of glaucoma is predicted by determining systolic, diastolic, average ophthalmic pressure in the orbital artery and perfusion pressure of the eye by ophthalmic dynamography under vacuum compression of the eyeball. At levels of diastolic pressure below 50.6 ± 5.0 mm Hg, average ophthalmic pressure below 69.6 ± 4.4 mm Hg, perfusion pressure below 48.9 ± 1.6 mm Hg predict the development of glaucoma. The disadvantages of this method are its trauma to the myopic eye, the likelihood of bleeding during compression from choroidal or retinal vessels due to the pronounced initial chorioretinal dystrophy.

In the patent of the Russian Federation No. 2314033 (2008, BIPM No. 1), the development of glaucoma is predicted by determining the ratio of the volumes of excavation of the optic disc in general and by sectors to the corresponding volumes of the neuroretinal girdle. If the maximum values of the norms of these relations are exceeded, at least one sector or disk as a whole predicts the development of glaucoma.

RF patent No. 2372018 (2009, BIPM No. 31) describes a method for predicting the development of glaucoma by determining the presence of excavation of the optic disc, the presence of cattle in the fields of view, the presence of the closure of the anterior chamber angle and the presence of venous stasis. If one of the signs is present, the development of glaucoma is predicted.

The disadvantages of the last two methods are the low reliability and informativeness of the prognosis of glaucoma in people with progressive myopia, since with a significant increase in the size of the eyeball, excavation of the optic nerve disk (optic disc) remains small against the background of increased intraocular pressure, and the increase in the borders of the blind spot is due to the development of chorioretinal dystrophy around the optic disc .

The closest technical solution and taken as a prototype is a method for predicting the development of glaucoma with progressive myopia (Dolzhich PP Pathogenetic mechanisms for reducing visual function in complicated myopia and its combination with glaucoma, development of a differentiated rehabilitation system and dispensary observation: Abstract of thesis ... Dr. med. . Science -. Samara, 2006. - P.23) by determining method triplex scanning peripheral resistance index values (RI) in the ophthalmic artery right (RI ^OD _HA) and evogo (RI ^OS _HA) eyes. Also determine the linear velocity of blood flow (BFV) in the orbital artery (HA) and the central retinal artery (CAC), posterior short ciliary arteries (SCCA). With a decrease in BFV in GA by 20%, in CAC by 32%, in CSCA by 44% with an increase in RI in GA by 20% compared with the norm in any eye, the development of glaucoma with progressive myopia in the corresponding eye is predicted.

The disadvantage of the prototype is its lack of reliability, since the hemodynamic parameters do not reflect earlier pathological changes in the iridociliary system of the eye, which subsequently can lead to the development of glaucoma, since a deficiency of blood flow in the posterior long ciliary arteries due to an increase in the peripheral resistance index affects the development of dystrophic changes in the trabecular apparatus, which subsequently lead to a violation of the outflow of intraocular fluid and the rise of the intraocular high pressure (IOP).

The aim of the invention is to increase the reliability of predicting the development of glaucoma with progressive myopia.

This goal is achieved by the fact that in a patient with progressive myopia, the triplex scanning method determines the values of the indices of peripheral resistance in the orbital arteries of the right (RI ^OD _GA ) and left (RI ^OS _GA ) eyes. In addition, peripheral resistance indices are determined in one of the posterior long ciliary arteries of the right (RI ^OD _HSCA ) and left (RI ^OS _HSCA ) eyes. After that, hemodynamic iridociliary coefficients are calculated by the formulas:

CCI ^OD = RI ^OD _HA / RI ^OD _HACA ,

ITSK ^OS = RI ^OS _GA / RI ^OS _ZDCA ,

where ICC ^OD - hemodynamic iridociliary coefficient of the right eye,

ITSK ^OS - hemodynamic iridociliary coefficient of the left eye.

If the value of any iridociliary coefficient is less than 0.9, the development of glaucoma in the corresponding eye is predicted.

The method is as follows. Triplex scanning of the eyeball and orbit is performed using a multi-purpose diagnostic system, for example Acuson Aspen. A 7.5 MHz linear sensor is used in pulsed Doppler mode and color mapping mode. In the patient's position, "lying down" through the upper eyelid in the gray-scale mode, the posterior pole of the eyeball and the orbit tissue with the optic nerve are visualized. In the mode of color Doppler mapping find the location of the investigated vessels. The values of the indices of peripheral resistance in the ophthalmic arteries of the right (RI ^OD _HA ) and left (RI ^OS _HA ) eyes and in one of the posterior long ciliary arteries of the right (RI ^OD _HAA ) and left (RI ^OS _HAA ) eyes are determined by the readings of the monitor. Then calculate the hemodynamic iridociliary coefficients according to the formulas:

CCI ^OD = RI ^OD _HA / RI ^OD _HACA ,

ITSK ^OS = RI ^OS _GA / RI ^OS _ZDCA ,

where ICC ^OD - hemodynamic iridociliary coefficient of the right eye,

ITSK ^OS - hemodynamic iridociliary coefficient of the left eye.

If the value of any iridociliary coefficient is less than 0.9, the development of glaucoma in the corresponding eye is predicted.

The practical feasibility of the proposed method is illustrated by a clinical example.

Example: Patient K., 18 years old (source. Bol. 24/2008), went to the consultative clinic of the Regional Clinical Hospital of Rostov-on-Don with complaints of visual impairment in the left eye. The history of myopia appeared at 9 years old, gradually intensified. Over the past 6 months, the increase in myopia in the left eye was 0.5 diopters.

Survey Results:

VOD = 0.08 sph - 7.0 diopters = 1.0 IOP = 17.0 mmHg

VOS = 0.04 sph - 7.5 diopters = 1.0 IOP = 20.0 mmHg

Tonography: OD Po = 14.0 mm Hg, C = 0.16 mm ³ / min · mm Hg,

F = 1.2 mm ³ / min; Po / C = 96.0;

OS Po = 16.0 mm Hg, C = 0.14 mm ³ / min · mm Hg,

F = 0.86 mm ³ / min; Po / C = 112.0.

The fundus of both eyes: DZN is pale pink, E / D = 0.5 in both eyes, around the DZN there is a circular myopic cone, diffuse choroidal dystrophy on the periphery.

Fields of vision of both eyes: a concentric narrowing of the fields of view by 10 ° across all meridians.

The patient was examined according to the claimed method. Acuson Aspen's multi-purpose diagnostic system performed a triplex scan of the eyeball and orbit. A 7.5 MHz linear sensor was used in pulsed Doppler mode and color mapping mode. In the patient's “lying” position through the upper eyelid, the posterior pole of the eyeball and the orbit tissue with the optic nerve were visualized in gray-scale mode. In the mode of color Doppler mapping, the location of the studied vessels was determined. The system monitor displayed the values of the indices of peripheral resistance in the orbital arteries of the right (RI ^OD _HA ) and left (RI ^OS _HA ) eyes and in the lateral posterior long ciliary arteries of the right (RI ^OD _HAA ) and left (RI ^OS _HAA ) eyes.

On right Left GA RI ^OD _HA = 0.58 RI ^OS _GA = 0.60 ZDCA RI ^OD _HVAC = 0.62 RI ^OS _HVAC = 0.68

Then, the hemodynamic iridociliary coefficients were calculated by the formulas:

CCI ^OD = RI ^OD _HA / RI ^OD _HACA ,

ITSK ^OS = RI ^OS _GA / RI ^OS _ZDCA ,

where ICC ^OD - hemodynamic iridociliary coefficient of the right eye,

ITSK ^OS - hemodynamic iridociliary coefficient of the left eye.

CPI ^OD = 0.935 CPI ^OS = 0.882

Since the ICC ^OS = 0.882 <0.9, the development of glaucoma in the left eye was predicted. The patient was prescribed medication and physiotherapy. However, these recommendations were not implemented. After 6 months, the patient complained of further visual impairment in her left eye. An examination revealed an increase in myopia in the left eye by 0.5 diopters, an increase in the narrowing of the peripheral border in the nasal half of the visual field by 10 °, and an increase in IOP to 26.0-27.0 mm Hg. The area of excavation of the optic disc was 0.6. He was diagnosed with glaucoma in his left eye, which confirmed the prognosis.

According to the claimed method, 45 patients were examined - 90 eyes. In 39 patients, the development of glaucoma was predicted. Of these, 37 forecast was confirmed. The reliability of the method amounted to more than 94%. A retrospective analysis of 30 case histories in which the prediction of the development of glaucoma was carried out in accordance with the methodology described in the prototype showed that the reliability of the method was 70%.

Thus, in comparison with the prototype of the claimed "Method for predicting the development of glaucoma with progressive myopia" allows you to 24% increase the reliability of predicting the development of glaucoma in patients with progressive myopia.

Claims (1)

A method for predicting the development of glaucoma with progressive myopia by triplex scanning by determining the values of peripheral resistance indices in the orbital arteries of the right (RI ^OD _GA ) and left (RI ^OS _GA ) eyes, characterized in that they further determine the values of peripheral resistance indices in one of the posterior long ciliary arteries of the right (RI ^OD _HSCA ) and left (RI ^OS _HSCA ) eyes, then calculate the hemodynamic iridociliary coefficients according to the formulas of ICC ^OD = RI ^OS _HA / RI ^OD _HACA , CCM ^OS = RI ^OS _GA / RI ^OS _HOCA , where ICC ^OD is the hemodynamic iridociliary coefficient of the right eye, ICC ^OS is the hemodynamic iridociliary coefficient of the left eye, and if the value of any iridociliary coefficient is less than 0.9, the development of glaucoma in the corresponding eye is predicted.