RU2777740C1 - Method for topographically oriented laser treatment of subactive choroidal neovascular membranes of extrafoveal localization on a navigational laser unit - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to ophthalmology, and can be used for treatment of extrafoveal choroidal neovascular membrane (CNVM). In case of CNVM type 2, the patient is preliminarily subjected to optical coherence tomography in angio-mode (OCT-A), with the help of which the localization and area of ​​CNVM are determined. Then, a color photograph of the fundus is performed on a Navilas 577s navigation laser. Digital OCT-A images are superimposed and compared with a color photograph of the fundus and topographically oriented laser coagulation is performed over the entire determined area of ​​the CNVM. Parameters of laser coagulation: laser spot diameter - 100 microns, exposure - 0.05-0.1 s, power - 80-240 mW, wavelength - 577 nm. OCT-A is performed one month after the treatment. In case of scarring of CNVM, dynamic observation is recommended to the patient. If there are signs of continued growth of CNVM, repeated laser coagulation is performed with the above parameters until complete scarring.

EFFECT: method provides for stopping the growth of HNVM with its gradual regression due to laser coagulation with the specified parameters.

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Description

SUBSTANCE: invention relates to medicine, namely to ophthalmology, and can be used for treatment of extrafoveal choroidal neovascular membrane (ECNVM), detected according to angio-mode optical coherence tomography (OCT-A).

CNVM occurs in various macular lesions (age-related macular degeneration, complicated myopia, Grundblad-Strandberg syndrome and idiopathic genesis of CNVM) and consists in the germination of newly formed vessels of choroidal origin through defects in the Bruch's membrane under the retinal pigment epithelium or neurosensory retina.

The presence and increase in the area of CNVM may not be accompanied by exudative activity for a long time. The final stage of the development of the process - the formation of a subretinal fibrous scar in the central part of the fundus - is associated with a significant loss of central vision (Arya M. et al., 2018).

The most informative method for detecting anatomical changes in the retina characteristic of CNVM and for determining treatment tactics is OCT-A. Early detection of this pathology in a subactive form allows you to start targeted treatment and reduce the risk of complications.

Identification of signs of CNVM activity is fundamental when making a decision to start or resume treatment of a patient with intravitreal injections of an angiogenesis inhibitor, as well as to conduct photodynamic therapy (with special forms of wet age-related macular degeneration (AMD), laser treatment (with extrafoveal localization of CNVM and the impossibility of treatment with intravitreal administration of angiogenesis inhibitors).

A known method for the treatment of CNVM extrafoveal localization is laser coagulation (LC), the purpose of which is the desolation of newly formed vessels by coagulating effect on their walls in order to stabilize the process (patent RU 2179007 dated 02.10.02).

The closest analogue of the invention is the method of laser coagulation described in the textbook Izmailov A.S. "Chorioidal neovascularization (diagnosis and treatment)": Proc. allowance. - St. Petersburg, 2001

The disadvantage of this method is that during laser coagulation, thermal damage to the neurosensory retina inevitably occurs, which can lead to progressive perifocal chorioretinal atrophy and the appearance of scotomas in the field of view, which is unacceptable for exposure to the foveal avascular zone.

This method does not take into account the data of modern methods of multimodal diagnostics, which make it possible to detect the presence of initial subactive membranes as early as possible, which allows for early treatment and reduces the risk of relapses and late complications.

The objective of the invention is to develop the safest, most effective and topographically oriented, in accordance with OCT-A data, laser treatment of choroidal neovascular membranes of extrafoveal localization on a navigational laser unit.

EFFECT: complete arrest of CNVM growth with its gradual regression, prevention of vision loss and loss of central vision, as well as complete exclusion or reduction of the duration of long-term use of drugs and multiple intravitreal injections of angiogenesis inhibitors.

The technical result is achieved by the fact that in case of extrafoveal CNVM, OCT-A is first performed in the En face mode to determine the exact localization and area of the vascular membrane, then a color photograph of the fundus is performed on the Navilas 577s navigation laser unit (NLU). Using the software, digital OCT-A images are superimposed and compared with a color photograph of the fundus; over the entire area of the HNVM within the defined boundaries (by the OCT-A method), laser coagulation is carried out, the applicates are applied close to each other, the following parameters are used: laser radiation spot diameter - 100 μm, exposure - 0.05-0.1 s, power - 80-240 mW, wavelength - 577 nm. OCT-A is performed 1 month after the treatment: in case of scarring of the CNVM, the patient is transferred to a dispensary observation, and if there are signs of continued growth of the CNVM, repeated laser coagulation is performed with the above parameters.

EFFECT: method allows to significantly reduce the frequency of occurrence of functionally significant scotomas in the central field of vision after retinal laser coagulation, reduce treatment time and improve social rehabilitation of patients.

The invention is illustrated by the following clinical examples.

Example 1. Patient S., born in 1955, complained of decreased vision and distortion of objects on the OS during the last 6 months. Objectively: OS - macular reflex is blurred, dispigmentation. According to computer microperimetry, foveal photosensitivity was 23.9 dB. OCT-A method: identified CNVM type 2 on OS. CNVM was treated by the proposed method. Navigational laser coagulation was performed over the entire area of the CNVM, determined according to OCT-A data, with the following parameters: coagulate diameter 100 μm, power 180 mW, exposure 0.05 sec, number of coagulates 43. One month after the treatment, subjective a decrease in distortion, according to microperimetry, an increase in the index of foveal photosensitivity was noted - 24.1 dB, as well as the absence of functional scotomas within the fovea. Ophthalmoscopically, scarring of CNVM was observed - the focus was white, there was no hemorrhage around the focus. According to OCT-A performed 1 month later, complete scarring of the CNVM was noted without continued growth. The patient was transferred to dispensary observation. 3 months after treatment, stable indicators of foveal photosensitivity were noted according to microperimetry - 24.1 dB, ophthalmoscopically observed scarring of CNVM - a white focus, with pigmentation at the edges of the focus, there were no hemorrhages around the focus, according to OCT-A, no growth of CNVM was noted. No disease progression was observed during the 6-month follow-up period. Thus, after the navigational laser treatment, continued growth of CNVM was not observed, no functional scotomas appeared in the foveal zone, and the patient did not need intravitreal injections of angiogenesis inhibitors.

Example 2. Patient G., born in 1961, complained of decreased vision, lack of clarity and image distortion in the right eye during the last 4 months. According to computer microperimetry, foveal photosensitivity was 24.7 dB. Objectively: OD - macular reflex is blurred, dispigmentation. Done OKT-A:: OD HNVM type 2. CNVM was treated by the proposed method. Navigational laser coagulation was performed over the entire area of the HNVM, determined according to OCT-A data, with the following parameters: coagulate diameter 100 μm, power - 240 mW, exposure - 0.05 sec, number of coagulates - 37. After 1 month, a decrease in distortions was noted, according to According to microperimetry, the foveal photosensitivity was 24.7 dB, and there were no functional scotomas within the fovea. Ophthalmoscopically, scarring of CNVM was observed - the focus was white, there was no hemorrhage around the focus. According to OCT-A performed 1 month later, there was an area of continued growth of CNVM, the patient underwent repeated laser coagulation with the following parameters: coagulate diameter 100 μm, power - 240 mW, exposure - 0.05 sec, number of coagulates - 17. After 1 a month after an additional treatment session, there was a slight increase in the foveal photosensitivity index according to microperimetry - 24.9 dB, ophthalmoscopically observed scarring of the CNVM - a chorioretinal focus with uneven pigmentation, according to OCT-A, complete scarring of the CNVM was noted, the patient was transferred to dispensary observation. During the observation period of 3 months after an additional session, the progression of the disease was not observed. Thus, after the navigational laser treatment, no continued growth of CNVM was observed, no functional scotomas appeared in the foveal zone, and the patient did not need intravitreal injections of angiogenesis inhibitors.

Example 3. Patient O., born in 1959, complained of decreased vision and distortion of objects in the left eye during the last 7 months. Objectively: OS - macular reflex is blurred, dispigmentation. According to computer microperimetry foveal photosensitivity - 23.6 dB. OCT-A method: identified CNVM type 2 on OS. CNVM was treated by the proposed method. Navigational laser coagulation was performed over the entire area of the CNVM, determined according to OCT-A data, with the following parameters: coagulate diameter 100 μm, power 80 mW, exposure 0.1 sec, number of coagulates 47. One month after the treatment, subjective reduction of distortions, according to microperimetry, an increase in the index of foveal photosensitivity was noted - 24.3 dB, as well as the absence of functional scotomas within the fovea. Ophthalmoscopically, scarring of CNVM was observed - the focus was white, there was no hemorrhage around the focus. According to OCT-A performed 1 month later, complete scarring of the CNVM was noted without continued growth. The patient was transferred to dispensary observation. 3 months after treatment, stable indicators of foveal photosensitivity were noted according to microperimetry - 24.6 dB, ophthalmoscopically observed scarring of CNVM - a white focus, with pigmentation at the edges of the focus, there were no hemorrhages around the focus, according to OCT-A, no growth of CNVM was noted. No disease progression was observed during the 6-month follow-up period. Thus, after the navigational laser treatment, continued growth of CNVM was not observed, no functional scotomas appeared in the foveal zone, and the patient did not need intravitreal injections of angiogenesis inhibitors.

Claims (1)

A method for treating subactive choroidal neovascular membrane (CNVM) of extrafoveal localization, including laser coagulation, characterized in that in type 2 CNVM, the patient is first subjected to optical coherence tomography in the angio-mode (OCT-A), which determines the location and area of CNVM, then perform a color photograph of the fundus on the Navilas 577s navigation laser unit, superimpose and compare digital OCT-A images with a color photograph of the fundus of the eye, and perform topographically oriented laser coagulation over the entire determined area of the HNVM with the following parameters: laser spot diameter - 100 μm, exposure - 0.05-0.1 s, power - 80-240 mW, wavelength - 577 nm; OCT-A is performed one month after the treatment: in case of scarring of CNVM, dynamic observation is recommended for the patient, and if there are signs of continued growth of CNVM, repeated laser coagulation is performed with the above parameters until complete scarring.