RU2408342C1 - Method of treating minor structure functional disorders following retinal detachment surgery - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to ophthalmology, and can be used for treating minor structural functional disorders following retinal detachment surgery by micropulse technology. For treating structure functional disorders of the central retina, on the 5-10th day following the retinal detachment surgery, on silicone fluid tamponade of the vitreal cavity if observing structure functional disorders in macula, 10-200 staggered applications exposed for 10-100 ms, described by spot diametre 75 mcm and spaced 100 mcm from each other coat the entire surface of disorders with the exception of the central avascular region. If the structure functional disorders transcend the macula, macula exposure is added with 50-400 staggered applications exposed for 100-500 ms, described by spot diametre 125 mcm and spaced not less than 150 mcm from each other on the entire surface of disorders, with a micropulse technique enabled by an infrared diode laser IRIS Medical IQ 810c with parameters: micropulse length 25 mcs, porosity 2%, frequency 800 Hz, power 1.5 Wt, wave length 810 nm.

EFFECT: method allows to restore the greatest possible photosensitivity and visual acuity without involving neurosensory retina and occurrences of scotomas in the postoperative period.

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Description

The invention relates to medicine, in particular to ophthalmology, and is intended for the treatment of structurally functional disorders that occur after vitreoretinal surgery of retinal detachment, such as incomplete neuroepithelial fit less than 60 μm, macular edema with a foveal zone thickness of less than 300 μm, focal transudative maculopathy and local extravasal hyperfluorescence.

Modern methods of surgery for retinal detachment in most cases make it possible to achieve its anatomical fit, confirmed by ophthalmoscopy and an ultrasound method. However, often visual acuity after surgery remains at the same level or increases slightly. Patients complain of distortion of objects, the appearance of spots in front of the eye, which violates their social adaptation. After adjoining the detached retina, the articulation of the outer and inner segments of the photoreceptors is absent, the adaptation of all its layers is impaired. Often there is swelling, fluid accumulation in the form of cracks and small cysts with a local incomplete fit of the neuropigmented epithelium. Also, after the operation, there are phenomena of vasculitis, neuropathy with powerful edema along the perineural pathways, prominence of the optic nerve disc (optic disc) into the vitreous body, which is caused by the plugging of the vitreoretinal cavity. The long-term existence of such disorders associated with retinal detachment and surgical trauma can lead to irreversible changes in the retinal tissues and optic nerves, therefore it is pathogenetically justified to carry out laser treatment as early as possible.

The closest analogue is the method for achieving the functional result of surgical treatment of retinal detachment (X. P. Takhchidi, G. F. Kachalina, T. A. Kasmynina, E. V. Ivanova “Efficiency of transpupillary laser coagulation of the central zone of the retina after vitreoretinal surgery of retinal detachment”, abstract collection “Modern Technologies for the Treatment of Vitreoretinal Pathology - 2009” edited by H.P. Tahchidi, pp. 163-165), where for the treatment of structural and functional disorders that occur after vitreoretinal surgery of retinal detachment, and We used laser coagulation with the following parameters: wavelength 561 nm, power 50-140 mW, pulse duration 0.02-0.1 s, spot diameter 100-200 μm.

However, this method is advisable to apply for severe structural and functional disorders, when to achieve a therapeutic effect, it is necessary to conduct laser coagulation, affecting the entire thickness of the retina. Minor structural and functional disorders include: incomplete neuroepithelial fit less than 60 microns, macular edema with a foveal zone thickness of less than 300 microns, focal transudative maculopathy and local extravasal hyperfluorescence. In these cases, to obtain the clinical effect, it is sufficient to selectively act on the cell layer of the pigment epithelium and not damage the sensorial retina (neuroepithelium).

The problem solved by the invention is the creation of an effective, gentle way to treat minor structural and functional disorders that occur after vitreoretinal surgery of retinal detachment.

The technical result is the restoration of the maximum possible photosensitivity and visual acuity without damage to the neuroepithelium and the appearance of cattle in the postoperative period.

The technical result is achieved by the fact that in the method of treating structural and functional disorders of the central zone of the retina after surgery for retinal detachment, such as incomplete neuroepithelial fit less than 60 microns, macular edema with a thickness of the foveal zone less than 300 microns according to optical coherence tomography (OCT), focal transudative maculopathy and local extravasal hyperfluorescence according to the results of fluorescence angiography (FAG), including laser treatment in the area of revealed structural and functional disorders within 5-10 days after vitreoretinal surgery, retinal detachment on the tamponade of the vitreous cavity with silicone oil, according to the invention, in the presence of structurally functional disorders in the macula, 10-200 applications are applied at an exposure time of 10-100 ms, a spot diameter of 75 microns, staggered a distance of at least 100 μm from each other on the entire surface of the disturbance zone, excluding the central avascular zone, if the zone of structurally functional disorders extends beyond the macula, then in addition to the effect on the macula apply 50-400 applications with an exposure time of 100-500 ms, a spot diameter of 125 μm in a checkerboard pattern at a distance of at least 150 μm from each other on the entire surface of the disturbance zone, while the micropulse effect is performed on an IRIS Medical IQ 810 infrared diode laser (IRIDEX Corporation, USA) with parameters: micro pulse duration 25 μs, duty cycle 2%, frequency 800 Hz, power 1.5 W, wavelength 810 nm.

The method is as follows.

Provided that the retina fits completely according to ophthalmoscopy on days 5-10 after vitreoretinal surgery, retinal detachment, tamponade of the vitreous cavity with silicone oil, in the presence of macular edema on the OCT, fluid accumulation in the form of cracks and small cysts, with a foveal zone thickness of not more than 300 microns , local incomplete fit of the neuroepithelium of not more than 60 μm, and also if there is transudative maculopathy, local extravasal hyperfluorescence according to the phage data, microperimetry shows the presence of relative livestock with light Sensitivity of from 4 to 12 dB in the areas corresponding to the topographical location of zones with impaired retinal structural adaptation of OCT FAG and produce micropulse effects on infrared diode laser IRIS Medical IQ 810 (IRIDEX Corporation, USA).

Based on the calculations of the surface energy density taking into account the characteristics of the IRIS Medical IQ 810 device, the following parameters are proposed: the duration of the micropulse 25 μs, duty cycle 2%, frequency 800 Hz, spot diameter 75 or 125 μm, exposure time 10-500 ms, which corresponds to 8-400 micropulses in the package, power 1.5 W, wavelength 810 nm.

With the help of mydriatics, maximum expansion of the pupil is achieved. After epibulbar anesthesia, a three-mirror Goldman universal lens is installed on the patient's eye. Using coaxial illumination, the macular region is examined through the central part of the three-mirror Goldman lens and the site of exposure is marked.

In the presence of structural and functional disorders in the macula, a micropulse effect is produced for a duration of 10-100 ms, which corresponds to 8-80 micropulses in a packet, with a spot diameter of 75 μm. Apply 10-200 applications in a checkerboard pattern at a distance of not less than 100 microns from each other on the entire surface of the zone of structural and functional disorders, excluding the central avascular zone (fovea).

If the zone of structural and functional disorders extends beyond the macula, then an additional micropulse effect is carried out with a duration of 100-500 ms, which corresponds to 80-400 micropulses in a packet, with a spot diameter of 125 μm. Apply 50-400 applications in a checkerboard pattern at a distance of not less than 150 microns from each other on the entire surface of the zone of structural and functional disorders.

The invention is illustrated by the following examples.

Example 1

Patient B. was operated on with vitreoretinal surgery for regmatogenous retinal detachment. With ophthalmoscopy, the retina is completely attached. On day 6 after surgery, the visual acuity of the right eye was 0.5. According to OCT, there is an incomplete fit of a neuroepithelium with a height of 40 μm, the thickness of the foveal zone is 213 μm. According to the phage, focal transudative maculopathy is noted, with an increase in intensity in the late venous phase. By microperimetry, relative scotomas with photosensitivity from 8 to 12 dB in the area of the incomplete area. In other areas, photosensitivity ranged from 14 to 18 dB.

We performed a micropulse action in the macula in the zone of detected abnormalities on an IRIS Medical IQ 810 instrument. 42 applications were staggered at a distance of at least 100 μm from each other on the entire surface of the area of detected abnormalities, excluding fovea. Impact parameters: duration of a micropulse 25 μs, duty cycle 2%, frequency 800 Hz, spot diameter 75 μm, exposure time 10-75 ms, power 1.5 W, wavelength 810 nm.

After 1.5 months, visual acuity was 1.0. On OCT, the neurosensory retina is completely adjacent. According to microperimetry, the photosensitivity ranged from 16 to 20 dB.

Example 2

Patient L. was operated on with vitreoretinal surgery for regmatogenous retinal detachment. With ophthalmoscopy, the retina is completely attached. On day 3 after surgery, the visual acuity of the left eye was 0.4. According to OCT, macular edema was detected with a thickness of the foveal zone of 261 μm. FAG shows focal transudative maculopathy and local extravasal hyperfluorescence with increasing intensity in the late venous phase. Microperimetry revealed the presence of relative livestock with photosensitivity from 6 to 10 dB in the areas of structural and functional disorders. In remote areas, photosensitivity ranged from 10 to 16 dB.

We performed a micropulse action of a macula in the zone of detected abnormalities on an IRIS Medical IQ 810 instrument. 56 applications were staggered at a distance of at least 100 μm from each other on the entire surface of the area of detected abnormalities, excluding fovea. Impact parameters: duration of a micropulse 25 μs, duty cycle 2%, frequency 800 Hz, spot diameter 75 μm, exposure time 50-100 ms, power 1.5 W, wavelength 810 nm.

In areas where structural and functional disturbances spread beyond the macula, an additional micropulse effect was performed with the following parameters: micropulse duration 25 μs, duty cycle 2%, frequency 800 Hz, spot diameter 125 μm, exposure time 200-400 ms, power 1.5 W, wavelength 810 nm. They applied 180 applications in a checkerboard pattern at a distance of at least 150 microns from each other on the entire surface of the disturbance zone.

After 2 months, visual acuity was 0.9. By OCT, the retina is fully adapted. According to microperimetry, the photosensitivity ranged from 16 to 20 dB.

Claims (1)

A method for treating structural and functional disorders of the central region of the retina after surgery for retinal detachment, such as incomplete neuroepithelial fit less than 60 microns, macular edema with foveal zone thickness less than 300 microns according to optical coherence tomography, focal transudative maculopathy and local extravasal hyperfluorescence according to fluorescence results , including laser treatment in the area of revealed structural and functional disorders within 5-10 days after vitreoretinal surgery from retinal fouling on the tamponade of the vitreous cavity with silicone oil, characterized in that in the presence of structurally functional disorders in the macula, 10-200 applications are applied at an exposure time of 10-100 ms, a spot diameter of 75 μm, staggered at a distance of at least 100 μm from the other on the entire surface of the disturbance zone, excluding the central avascular zone, if the zone of structural and functional disorders extends beyond the macula, then in addition to the impact on the macula, 50-400 applications are applied at an exposure time of 100-500 ms, the spot diameter is 125 μm in a checkerboard pattern at a distance of at least 150 μm from each other on the entire surface of the disturbance zone, while the micropulse effect is performed on an IRIS Medical IQ 810 infrared diode laser with parameters: micropulse duration 25 μs, duty cycle 2%, frequency 800 Hz , power 1.5 W, wavelength 810 nm.