RU2365359C1 - Choosing tactics for vitreous diseases treatment - Google Patents

Abstract

FIELD: medicine; ophthalmology.

SUBSTANCE: acoustic density and vitreous volume, blood flow rate in an eye and central artery of a retina are determined. Value of "a" and "b" wave indicators is determined using an electroretinogram. The standard therapeutic treatment is carried out at 5.000-25.000 MG acoustic density, 0.10-1.30 cm³ volume of a vitreous, 34.5-37.5 cm/sec systolic rate of a blood flow in an eye artery, 11.5-13.5 cm/sec systolic rate of a blood flow in the central artery of a retina, indicators of "a" wave amplitude 92.0-104.0 mcV, "b" wave - 315.0-345.0 mcV. Enzymotherapy is carried out is carried out in addition to the standard treatment at 25.100-35.000 MG acoustic density, 1.31-2.60 cm³ volume of a vitreous, 31.3-34.4 cm/sec systolic rate of a blood flow in an eye artery, 9.5-11.4 cm/sec systolic rate of a blood flow in the central artery of a retina, indicators of "a" wave amplitude 79.0-91.0 mcV, "b" wave - 284.0-314.0 mcV. Vitrectomy is carried out at 35.100-55.000 MG acoustic density, 2.61-3.90 cm³ volume of a vitreous, 28.5-31.2 cm/sec systolic rate of a blood flow in an eye artery, 7.5-9.4 cm/sec systolic rate of a blood flow in the central artery of a retina, indicators of "a" wave amplitude 66.0-78.0 mcV, "b" wave - 253.0-283.0 mcV.

EFFECT: stabilisation of visual acuity with recurring prevention and advance of fibrous-proliferative changes.

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Description

The invention relates to ophthalmology, and in particular to the choice of tactics for the treatment of vitreous diseases.

The widespread use of modern ultrasound research methods is due to the need to use new technologies that make it possible to more accurately diagnose and evaluate the effectiveness of treatment of various diseases of the organ of vision. The question of indications for conservative and surgical treatment of hemophthalms of various genesis still remains debatable. According to the available literature, it is not possible to determine the exact indications for both surgical and therapeutic methods for the treatment of hemophthalmus. It is known that in the complex therapy of hemophthalmus, the timeliness and intensity of therapeutic measures, which, on the one hand, prevent the progression of the disease and the formation of gross fibrotic changes in the retina and vitreous body (ST), and, on the other hand, prevent the recurrence of intraocular hemorrhages, play an important role. I. Belyaeva, G. S. Polunin, D. V. Angelova, K. A. Mirzabekova “The combination of laser coagulation of the retina and enzyme therapy for diabetic retinopathy complicated by hemophthalms of various types fines of gravity ", Ophthalmology, 2004, Volume 1, Number 3, str.57-62).

Despite the high level of technical equipment and the accumulated surgical experience, vitreoretinal surgery is associated with a risk of complications requiring repeated surgical interventions, which should be recommended with special care to patients with a single sighted eye or severe somatic condition.

The closest analogue of the present invention is a method of selecting tactics for the treatment of hemophthalmus of various origins by evaluating microdensitometric indicators from acoustic eye scans (Ph.D. thesis, Angelova DV "Computer analysis of acoustic eye scans in the selection of tactics for treating hemophthalms of various origins", 1997). This method allows you to quantify the scan by microdensitometry and computer analysis of the total intensity and area of distribution of hemophthalmus.

The use of ultrasound scanning in combination with microdensitometry made it possible to judge the volume of spilled blood in the CT and the clinical topography of hemophthalmus, and, therefore, the need to choose surgical or conservative treatment.

The indicators of the computer-analytic system of television images (KASTI) correspond to the data of a seroscale B-scan (subjectively), however, the KASTI method has a number of disadvantages: it does not allow to obtain quantitative characteristics necessary for choosing effective treatment tactics and, accordingly, minimizing complications and lengthening the remission period.

The task of the invention is to develop an improved method for choosing the tactics of treatment of diseases of the vitreous body.

The technical result of the proposed method is the possibility of an adequate choice of the treatment method, accompanied by stabilization of visual acuity with the prevention of recurrence and progression of fibro-proliferative changes.

The technical result is achieved by evaluating a certain combination of parameters of spatial ultrasound imaging, the state of the vascular bed and the sensorineural apparatus of the eye.

In our studies, a combination of parameters was selected to select one or another method of treatment for diseases of the vitreous body, on the one hand, characterizing the morphological state of the vascular bed (systolic and diastolic blood flow velocity), and on the other, the state of pathological changes in CT (acoustic density, volume, area), as well as parameters characterizing the functional changes in the neurosensory apparatus of the eye in the pathology of ST, electrophysiological examination (EFI), electroretinography (ER) ).

In the proposed method for the selection of tactics for treating diseases of the vitreous body, acoustic density, vitreous volume, systolic blood flow velocity in the ocular and central retinal arteries, amplitude values of “a” and “b” waves on the electroretinogram are determined. In the conducted studies, the values of the determined parameters were evaluated, which allow the choice of tactics for treating diseases of the vitreous body. With an acoustic density of 5.000-25.000 MG, a vitreous volume of 0.10-1.30 cm ³ , a systolic blood flow velocity in the ophthalmic artery of 34.5-37.5 cm / s, a systolic blood flow velocity in the central retinal artery of 11.5-13 , 5 cm / sec, amplitude indicators “a” of the wave 92.0-104.0 μV, “c” of the wave 315.0-345.0 μV carry out conventional therapeutic treatment.

With an acoustic density of 25.100-35.000 MG, a vitreous volume of 1.31-2.60 cm ³ , a systolic blood flow velocity in the ophthalmic artery of 31.3-34.4 cm / sec, a systolic blood flow velocity in the central retinal artery of 9.5-11 , 4 cm / sec, amplitude indicators “a” of the wave 79.0-91.0 μV, “c” of the wave 284.0-314.0 μV are carried out in addition to conventional treatment with enzyme therapy. With an acoustic density of 35.100-55.000 MG, a vitreous volume of 2.61-3.90 cm ³ , a systolic blood flow velocity in the ophthalmic artery of 28.5-31.2 cm / sec, a systolic blood flow velocity in the central retinal artery of 7.5-9 , 4 cm / sec, amplitude indicators “a” of wave 66.0-78.0 μV, “c” of wave 253.0-283.0 μV carry out vitrectomy. The method is as follows.

Spatial ultrasound imaging of the orbit included a B-mode study, color Doppler mapping and energy mapping (CDK and EC, respectively), which allowed a qualitative and quantitative assessment of blood flow in the vessels of the eyeball. The study was carried out on a Kretz multifunctional ultrasonic diagnostic device VOLUSON 730 Pro using a linear transducer from 10 to 16 MHz using the contact transpalpebral method in the patient’s supine position. Blood flow in the ophthalmic artery (GA) was determined, as is customary, from the place of bending of the vessel around the optic nerve to the upper angle of the orbit (on average at a depth of 20 mm). The retinal central artery (CAS) was located in the thickness of the optic nerve trunk at a distance of 2 mm from the posterior pole of the eye.

Cornea circular electrodes mounted in a suction cup lens with a built-in optical system and LEDs to stimulate the entire area of the retina — a white LED and a frosted front glass that scatters light — were used to record the ERG. During the study, before applying the ocular electrode, anesthesia was performed with a 0.4% inocaine solution. A ground electrode using an electrically conductive gel was applied to the patient’s earlobe, and a reference electrode to the middle of the forehead.

ERG was recorded after 3-5 minutes of dark adaptation, using the stimulus duration of 6 msec, brightness 10.6 cd / m ^2. The response was recorded as the result of 10 averages. The obtained values of all parameters were analyzed and the appropriate treatment method was selected, as described above.

Example No. 1

Patient B., 30 years old, type 1 diabetes mellitus. Hemophthalmus of the left eye. On admission, visual acuity of the right eye is 0.8, left 0.03. When conducting spatial ultrasound imaging, hemophthalmus is located in the posterior vitreous. The acoustic density of the vitreous is 25.800 MG, the volume of the vitreous is 2.15 cm ³ , the systolic blood flow velocity in the ophthalmic artery is 31.8 cm / sec, the systolic blood flow velocity in the central retinal artery is 10.4 cm / sec. When conducting an ERG, the amplitude indicators “a” of the wave are 83 μV, and “c” of the wave are 284.0 μV. Indicators of ultrasound and electrophysiological methods of research indicate that the patient should be assigned to the group where comprehensive drug resorption therapy with enzyme therapy should be carried out: emoxipine 0.5 ml parabulbarno № 10, dicinone 0.5 ml parabulbar №10, ascorbic acid 5 % 2 ml No. 10, collalysin 700 KE parabulbarno 0.5 ml No. 10 each. Hemophthalmus partially resolved. 1 month after the therapy, the visual acuity of the left eye increased to 0.3, which indicates the correct treatment tactics.

Example No. 2

Patient S., 48 years old. Recurrent hemophthalmus of the left eye. On admission, visual acuity of the right eye 0.6, left 0.01. When conducting spatial ultrasound imaging, hemophthalmus is located in the anterior vitreous. The acoustic density of the vitreous is 18,000 MG, the volume of the vitreous is 1.00 cm ³ , the systolic blood flow velocity in the ophthalmic artery is 35.5 cm / sec, the systolic blood flow velocity in the central retinal artery is 11.5 cm / sec. When conducting an ERG, the amplitude indicators “a” of the wave are 92 μV, and “c” of the wave are 345.0 μV. Indicators of ultrasound and electrophysiological methods of research indicate that the patient should be assigned to the group in which the generally accepted therapeutic treatment should be carried out: emoxipin parabulbar 0.5 ml in number 10, dicinone parabulbar in 0.5 ml number 10, ascorbic acid 5% 2 ml No. 10. Hemophthalmus resolved. 1 month after the treatment, the visual acuity of the left eye increased to 0.4, which indicates the right treatment tactics.

Example No. 3

Patient D., 45 years old. Type 2 diabetes mellitus is 15 years old. Vitreous hemorrhage of the left eye, relapse. Upon receipt, visual acuity of 0.02, the right eye of 0.4. When conducting spatial ultrasound imaging, hemophthalmus is located in the central and posterior vitreous. The acoustic density of the vitreous is 35.500 MG, the volume of the vitreous is 3.00 cm ³ , the systolic blood flow velocity in the ophthalmic artery is 28.5 cm / sec, the systolic blood flow velocity in the central retinal artery is 7.5 cm / sec. When conducting an ERG, the amplitude indicators "a" of the wave are 66 μV, and "c" of the wave are 253.0 μV. Indicators of ultrasound and electrophysiological research methods indicate that the patient should be assigned to the group in which surgical treatment should be carried out. 1 month after the operation, the visual acuity of the left eye increased to 0.3, which indicates the right treatment tactics.

Thus, the proposed method allows, by using a certain combination of the values of the quantitative parameters of spatial ultrasound imaging, the state of the vascular bed and the neurosensory apparatus of the eye, to adequately choose a method for treating vitreous diseases.

Claims (1)

A method for choosing treatment tactics for hemophthalmus by determining using spatial digital scanning in combination with energy and color Doppler mapping of the acoustic density and volume of the vitreous body, systolic blood flow velocity in the ocular and central retinal arteries, and amplitude values of “a” and “b” waves in electroretinogram, and acoustic density 5000-25000 MG, vitreous volume of 0,10-1,30 cm ^3, systolic blood velocity in the optic artery 34,5-37,5 cm / s, systoles the speed of blood flow in the central retinal artery is 11.5–13.5 cm / s, the amplitude indicators “a” of the wave are 92.0–104.0 μV, and “c” of the wave 315.0–345.0 μV carry out conventional therapeutic treatment, with acoustic 25100-35000 MG, vitreous volume 1.31-2.60 cm ³ , systolic blood flow velocity in the ocular artery 31.3-34.4 cm / s, systolic blood flow velocity in the central retinal artery 9.5-11, 4 cm / s, amplitude indicators “a” of the wave 79.0-91.0 μV, “c” of the wave 284.0-314.0 μV in addition to the conventional treatment with enzyme therapy, with an acoustic density of 35100-550 00 MG, vitreous volume 2.61-3.90 cm ³ , systolic blood flow velocity in the ocular artery 28.5-31.2 cm / s, systolic blood flow velocity in the central retinal artery 7.5-9.4 cm / s , the amplitude indicators “a” of the wave 66.0-78.0 μV, “c” of the wave 253.0-283.0 μV carry out vitrectomy.