RU2459584C1 - Method of determining indications for treatment of impairment of microcirculation of anterior segment of eye in children - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely to ophthalmology. Method includes measurement of diagnostic parameters of microcirculation in basin of anterior ciliary artery. Measurement is performed by contactless method of laser Doppler flowmetry. For this purpose analyser LAKK is used. Light guide probe of analyser is installed at distance 2 mm from limbus: at 9 o'clock - on right eye and at 3 o'clock - at left eye, in projection of ciliary body, at height 2 mm from eye conjunctiva surface. After that, average value microcirculation (M) parameter in perfuse units, coefficient of variation (Cv) and index of blood flow shunting (IS) are calculated. If M parameter equals or is lower than 19.0, Cv index is equal or is lower than 3, IS index is equal or is higher than 0.9, treatment is indicated.

EFFECT: method increases accuracy of diagnostics and reduces microtrauma of conjunctiva.

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Description

The invention relates to medicine, and specifically to ophthalmology, and can be used to determine indications for the treatment of microcirculation disorders of the anterior segment of the eye in children.

The study and treatment of hemodynamic disorders of the eye is an urgent problem, since the violation of blood supply lies in the pathogenesis of many eye diseases. In a number of works Avetisov E.S., Balzhanova A.B., Petraevsky A.V. it is suggested that vascular changes precede anatomical changes, leading to dystrophic changes and a decrease in visual function.

The anterior segment of the eye, combining such anatomical elements as the sclera, cornea, drainage area, iris, ciliary body with accommodation muscle and the lens, is characterized by a common blood supply to this region. In recent years, the work on the hemodynamics of the eye recognized the priority of the anterior ciliary circulation system in the blood supply to the anterior segment of the eye (Petraevsky A.V. Study of blood circulation of the anterior segment of the eye, its clinical significance: Abstract of thesis, Doctor of Medical Sciences. M., 2004 ) It seems reasonable to purposefully study and correct the revealed violations of this main link of regional hemomicrocirculation in children with pathology, in the pathogenesis of which the role of hemodynamic changes is known.

Thus, assessing the state of microcirculation of the anterior segment of the eye allows you to choose the necessary medication, correction of the revealed violations makes it possible to prevent the development and inhibit the development of many diseases caused by hemodynamic disorders of the eye (myopia, accommodation spasm, etc.).

Modern techniques that allow you to study the features of microcirculation of the anterior segment of the eye include laser Doppler flowmetry (LDF). Previously, microcirculation of the ciliary body was studied in an experiment in rabbits (Bespalyuk Yu.G. Experimental and clinical justification for the use of pulsed low-frequency electromagnetic field in combination diseases associated with undifferentiated dysplasia of the connective tissue: Abstract of Cand. Sc. Medical Sciences. M., 2009) .

O.L. Fabrikantov (Experimental-clinical basis for the use of pulsed infrared low-intensity laser radiation in ophthalmology: Abstract of thesis, Doctor of Medical Sciences., 2007) used the method of transconjunctival (contact) laser Doppler flowmetry to assess the dynamics of chorioretinal eye microcirculation after exposure pulsed low-intensity laser radiation.

P.P. Bakshinsky investigated the microcirculation of the ciliary body in patients with various stages of glaucoma before and after antiglaucomatous operations, highlighting various types of microcirculation changes (hyperemic, spastic) and determining the prognosis of the course of the disease, as well as the correction of therapy (Bakshinsky P.P. Features of ocular microcirculation in patients with primary open-angle glaucoma before surgery and the postoperative period. // Glaucoma. - 2006, - No. 2. - S.9-16).

OV Danilov and co-authors developed a method for determining the type of eye microcirculation in patients with central retinal vein thrombosis and its branches (RF patent No. 2403858), with which various types of reactions to irifrin 10% were determined and possible complications were predicted and vascular therapy was corrected .

It should be noted that in Russia until recently, all these methods used were carried out by the contact (transconjunctival, transscleral) method, by which, according to the authors, “chorioretinal blood flow”, “microcirculation of the ciliary body”, “microcirculation of the eye” in adults were measured of the researchers did not give a clear topographic and anatomical justification for his measurement method.

The disadvantage of these invasive techniques is that anesthetics, conjunctival microtraumatism upon contact of the sensor with the ocular surface alter the true microhemoperfusion of the eye, moreover, the contact method is difficult to do in children.

The authors do not know the analogue of the invention.

The technical result is the creation of a method for determining indications for the treatment of disorders of eye microcirculation in children in order to correct microhemodynamic disorders and the prevention and treatment of diseases with this pathology.

The technical result is achieved by the fact that in the method based on the measurement of the diagnostic parameters of microcirculation in the anterior ciliary artery pool by the non-contact laser Doppler flowmetry analyzer LAKK (LLC NPO Lazma), the light guide probe of the LAKK analyzer is installed at a distance of 2 mm from the limbus for 9 hours at the right eye and at 3 o’clock on the left eye in the projection of the ciliary body and at a height of 2 mm from the surface of the conjunctiva of the eye, then the average values are calculated from the specified list of diagnostic parameters microcirculation index (M) in perfusion units (pf), coefficient of variation (Kv), bypass rate (PN) of blood flow and, if indicator M is equal to or less than 19.0, Kv is equal to or less than 3, blood flow PN is equal to or more 0.9, then treatment is indicated.

The inventors have developed and anatomically substantiated a method for non-contact measurement of microcirculation of the anterior segment of the eye in children, given its angioarchitectonics.

The study of eye microcirculation was performed by the LDF method on a computerized LAKK capillary blood flow analyzer under standard conditions. The tissue was probed by radiation at a wavelength of 0.8 μm. The probing depth in the tissue reached 1.5 mm.

The LACC analyzer automatically measures the average value of the eye microcirculation index M, the coefficient of variation (Kv), and also uses the spectral-frequency analysis to estimate the degree of blood flow shunting (PS).

M - the average value of the microcirculation index, the average blood flow in a given time interval in pf, characterizes hemomicroperfusion of the tissue.

Kv - coefficient of variation - the most objective parameter that allows you to generally assess the state of microcirculation, the higher it is, the better microhemodynamics. Moreover, Kv is a dimensionless quantity and is automatically calculated by the device according to the formula: Kv = σ / M,

where σ is the standard deviation of the amplitude of the fluctuation in blood flow, (pf).

PS - the indicator of blood shunting is calculated using spectral-frequency analysis, is the ratio of the amplitude of the fluctuations in blood flow in arterioles and precapillary sphincters that regulate the flow of blood into the tissue. According to this indicator, it is possible to assess the degree of tissue ischemia and the discharge of blood bypass anastamoses.

The blood flow PN indicator - a dimensionless quantity - is automatically calculated by the device according to the formula: PN = An / Am,

Where

An - the amplitude of fluctuations in blood flow in arterioles (neurogenic range);

Am - the amplitude of fluctuations in blood flow in precapillary sphincters (myogenic range).

The choice of the measurement point 2 mm from the limb was due to the fact that the conjunctiva zone 4 mm from the limb is supplied with blood by the anterior ciliary arteries, which, perforating the sclera, form the plexus in the surface of the ciliary body and merge with the large arterial circle of the iris. Thus, this method allows you to assess the state of hemodynamics in the anterior ciliary artery pool, which plays a leading role in the blood supply to such structures of the anterior segment of the eye as an episclera, bulbar conjunctiva, limb, iris and ciliary body. Since disturbances of microhemodynamics in the ciliary muscle are a cause of a violation of its function - the accommodation process and, consequently, the development and progression of diseases in children, such as myopia, accommodation spasm, asthenopic syndrome and others, the identification and correction of microcirculation disorders in this region of the eye is of great importance.

Localization of the light probe (sensor) of the analyzer in the zone at 9 o’clock in the right eye and at 3 o’clock in the left eye gives the most convenient access and safety of the measurement. The location of the light probe at a height of 2 mm from the surface of the conjunctiva of the eye is due to the fact that during contact studies it is installed directly on the conjunctiva of the eye with a metal nozzle, in which the light probe of the analyzer is also 2 mm from the surface of the eye. We made measurements without a metal nozzle, which allowed us to measure non-contact at the same height from the surface of the conjunctiva of the eye. Thus, the data obtained by the contact and non-contact method are comparable. Also, removing the nozzle reduced the size of the head of the light probe and made the measurement more convenient, excluded trauma to the conjunctiva and cornea with random eye movements and did not cause fear and negative emotions when conducting a contactless study in children. In this case, the movements of the eye or light probe can be fixed on the resulting curve of the indicator M and adjusted to obtain the most reliable data.

The authors evaluated the state of microcirculation of the ciliary body in 120 children. In 20 healthy children with emmetropia, the M index was 20.2 × 0.8 bp, Kv was 3.17 × 0.1, and the blood flow PN was 0.76 ± 0.01. And if the indicator M is equal to or less than 19 p.p., and Kv is equal to or less than 3, and the blood flow PN is equal to or more than 0.9, then the state of microcirculation is defined as reduced (impaired). In these cases, treatment is indicated for violation of microcirculation of the anterior segment of the eye: vascular therapy by using the Derinat 0.25% preparation, laser stimulation of the ciliary muscle using the MacDel apparatus, and massage of the collar zone.

The invention is illustrated in figure 1, which shows a non-contact method for measuring microcirculation of the anterior segment of the eye in the anterior ciliary artery pool using LDF:

1 - light guide probe LAKK analyzer

2 - pool of the anterior ciliary (ciliary) artery

3 - cornea

4 - the lens

5 - ciliary body

6 - sclera

The method proposed by the authors is as follows.

The patient, lying on his back, is asked to binocularly fix the object at an angle of 45 ° from the midline. The LACC analyzer light probe is installed at a distance of 2 mm from the limbus for 9 hours on the right eye and 3 hours on the left eye in the projection of the ciliary body (in the anterior ciliary artery pool) and at a height of 2 mm from the surface of the conjunctiva of the eye (see Fig. 1 ) The duration of the study was 20 seconds.

The indicator M in p.p., Kv, PN of blood flow is calculated, and if the indicator M is equal to or less than 19.0, Kv is equal to or less than 3, PN of blood flow is equal to or more than 0.9, then treatment is indicated.

The invention is illustrated by the following examples.

Example 1

Patient N., 12 years old. Diagnosis: moderate progressive axial myopia.

Complaints of low vision in the distance, visual fatigue.

vis OU = 0.1 sph-3.5 = 1.0, front-rear axle OU 25.1 mm, the stock of relative accommodation (ZOA) -1.0 diopters. An LDF study, according to the invention, revealed a violation of eye microcirculation: the M indicator was 14.3, Kv was 1.17, and the blood flow PS was 0.95. A complex medication was prescribed that improves microcirculation of the anterior segment of the eye: Derinat 0.25% for local use, 2 drops 2 times a day into the conjunctival cavity for 1 month, laser stimulation of the ciliary muscle (Macdell apparatus, 10 sessions), massage collar zone.

After a course of treatment of LDF, the study revealed an increase in M score of 17.2 p.p., Kv increased to 2.8, and blood flow PS decreased to 0.82. The child noted a decrease in visual fatigue. The stock of relative accommodation increased (ZOA = -3.0 diopters). A study in dynamics after 6 months revealed stabilization of eye growth and myopia.

Example 2

Patient A., 14 years old. Diagnosis: mild myopia, refractive form, stationary.

Complaints of low vision in the distance, vis OU = 0.2 sph-0.75 = 1.0, relative accommodation margin (OAA = -3.5 diopters), LDF study, according to the invention, did not reveal disturbances in the eye microcirculation, indicator M was 19.3, Kv is 3.5, the blood flow PN is 0.8. According to the invention, treatment that improves eye microcirculation is not indicated. Appointed video-computer auto-training, training visual acuity and accommodation.

After a course of treatment, the child noted an increase in visual acuity. OU: vis = 0.3 sph-0.75 = 1.0, stock of relative accommodation (ZOA = -4.0 diopters).

Example 3

Patient N., 10 years old. Diagnosis: mild hyperopia, asthenopic syndrome.

Complaints of eye fatigue, pain in the eyeballs, redness of the eyes, near vision loss, vis OU = 1.0, vis near OU = 0.7 sph + 1 = 1.0, relative accommodation reserve (OAA = -1, 5 diopters), an LDF study, according to the invention, revealed a violation of microcirculation of the anterior segment of the eye: the indicator M was 14.2, Kv was 1.3, and the blood flow PN was 1.2. According to the invention, treatment is indicated for violation of microcirculation of the anterior segment of the eye. Appointed visual regimen and the drug "Derinat 0.25%" for local use, 2 drops 2 times a day in the conjunctival cavity for 1 month.

After a course of treatment, the child noted a decrease in asthenopic complaints, an improvement in near vision.

OU: vis = 1.0, vis near OU = 1.0, reserve of relative accommodation (ZOA = -3.5 diopters).

Thus, as a result of the studies, a method has been created for determining indications for the treatment of eye microcirculation disorders in children with the aim of correcting these disorders, and preventing and treating diseases in whose pathogenesis the role of hemodynamic changes is known. This method has demonstrated its high information content and the reliability of the data obtained.

Claims (1)

A method for determining indications for treatment of microcirculation disorders of the anterior segment of the eye in children, based on measuring the diagnostic parameters of microcirculation in the anterior ciliary artery pool by the non-contact laser Doppler flowmetry analyzer LAKK, which consists in the fact that the light guide probe of the LAKK analyzer is installed at a distance of 2 mm from the limb by 9 hours on the right eye and 3 hours on the left eye, in the projection of the ciliary body and at a height of 2 mm from the surface of the conjunctiva of the eye, then from the above list Diagnostic parameters calculate the average value of the microcirculation index (M) in perfusion units, the coefficient of variation (Kv), the bypass index (PN) of blood flow and, if the indicator M is equal to or less than 19.0, Kv is equal to or less than 3, the blood flow PN is equal to or more than 0 9, then treatment is indicated.

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