RU2438637C1 - Method of treating diabetic macular oedema - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely ophthalmology, and can be used for treating diabetic macular retinopathy (DMR), particularly diabetic macular oedema. It involves laser infrared transpupillary thermotherapy that implies having a single exposure on an eye retina to subthreshold radiation of wave length 810 nm, in a micropulse mode, radiation power 500-2000 mWt, spot diameter 3-5 mm for 5-20 seconds. A working cycle of microimpulse enable in a micropulse mode is 10-20 %.

EFFECT: method allows improving visual acuity ensured by decreased macular thickness, eliminating risk of the intraoperative and remote complications, and also reducing length of treatment.

2 cl, 2 ex

Description

The method relates to medicine, namely to ophthalmology, and can be used to treat diabetic maculopathy (DMP), in particular diabetic macular edema.

One of the main causes of vision loss in diabetes is macular edema. Long-standing diabetic edema of the macula leads to irreversible death of retinal photoreceptors.

It is diabetic eye lesions, including macular edema, that are currently the leading cause of decreased visual acuity and blindness among people under 60 years of age [1].

Known methods for treating diabetic macular edema by intravitreal injection of glucocorticosteroids, as well as local and systemic use of angiogenesis inhibitors - inhibitors of vascular endothelial growth factor, in particular avastin and lucentis [2]. However, with intravitreal injections of glucocorticosteroids, there may be the development of distant severe complications. This is secondary glaucoma, posterior capsular cataract and endogenous endophthalmitis. The incidence of complications is directly proportional to the number of injections. The use of angiogenesis inhibitors is limited by the lack of official permission and the possible legal problems associated with intravitreal administration of avastin and the very expensive cost of approved lucentis.

There is a method of surgical treatment of this disease, namely the introduction of intravitreal triamcinol, which in 19% of cases leads to a decrease in macular edema, but this effect is unstable and dangerous such complications as the development of glaucoma, intravitreal hemorrhage, retinal detachment [3].

The most effective means of stabilizing the process with DMF is laser treatment [4].

It is known to treat diabetic macular edema by laser coagulation of the retina using threshold laser treatment (514 nm), which can reduce the risk of sudden vision loss by more than 50% [5].

However, laser coagulation of the retina using threshold laser treatment (514 nm) is associated with progressive atrophy of retinal pigment epithelium in the long-term postoperative period, decreased retinal sensitivity, development of subretinal fibrosis, chorioretinal neovascularization and loss of central vision from a direct burn of the foveolar zone [6].

There is a method of direct laser coagulation in the area of retinal edema, lasers with different wavelengths from 497-810 nm are used for this, the parameters are selected individually depending on the transparency of the media, retinal pigmentation, edema, the presence of intraretinal hemorrhages, etc. As a result of this intervention, ischemic zones are “turned off”, the spread of macular edema is limited, multiple scars on the retina are formed in order to prevent the production of a vasoproliferative factor and the oxygen tension in the retina and vitreous increases due to the death of some oxygen consuming photoreceptors. However, this method of treatment is very aggressive and has many complications, including an increase in macular edema [7].

The closest in the set of essential features and the achieved technical result to the proposed method is a known method for the treatment of diabetic maculopathy, which the authors selected as a prototype.

The known method is carried out by laser exposure using laser infrared transpupillary thermotherapy, which is a subthreshold method, the effect being carried out directly on the optic nerve disk with a wavelength of 810 nm, a radiation power of 500-700 mW, a spot diameter of 2.0 mm, an exposure of 60- 90 s with a course of treatment of 1-2 sessions [8].

This method allows to reduce macular edema, increase visual acuity and improve blood circulation.

However, exposure to macular edema of continuous radiation leads to its hyperthermic damage to the retina and, as a result, to atrophy of the pigment epithelium of the macular region, leading to loss of vision.

In addition, the duration of treatment of patients with a large area of macular edema. This is due to the fact that with radiation with a spot diameter of 2 mm it is impossible to affect the entire area of macular edema in one session. The objective of the invention is to develop an effective method for the treatment of diabetic macular edema, which does not lead to complications in the form of hyperthermic damage to the retina in the macular zone, and also allows for the treatment of patients in one session.

The problem is solved by the proposed method for the treatment of diabetic macular edema, including laser infrared transpupillary thermotherapy when exposed to subthreshold radiation with a wavelength of 810 nm, according to the invention, exposure is performed once on the retina of the eye in micropulse mode, radiation power 500-2000 mW, spot diameter 3-5 mm , for 5-20 s. It is preferable that the exposure in the micropulse mode is carried out with a duty cycle of switching on the micropulse of 10-20%.

A new technical result of the proposed method is to minimize the risk of hyperthermic damage to the retina in the macular zone and, as a result, the absence of complications in the form of a sharp drop in visual acuity and the appearance of an absolute central scotoma due to damage to the retinal pigment epithelium, as well as the possibility of a single exposure to the entire macular area zones due to the uniform distribution of laser energy.

This is due to the fact that the exposure to radiation is carried out once on the retina with a spot diameter of 3-5 mm in the micropulse mode with a duty cycle of the micropulse 10-20%, radiation power 500-2000 mW, for 5-20 s. Micropulse radiation mode allows you to get a uniform distribution of power and radiation density over the entire area of macular edema.

In this case, the magnitude of the radiation power and the exposure time necessary to obtain a sufficient coagulation effect is determined by the pigmentation of the epithelium.

The proposed method is as follows

For the patient, an ophthalmological study is carried out previously for making this diagnosis.

Before starting treatment, the patient is given local anesthesia, after which laser infrared transpupillary thermotherapy is performed when exposed once to subthreshold radiation with a wavelength of 810 nm, with exposure to the retina in the micropulse mode, the radiation power of 500-2000 mW, spot diameter 3-5 mm , for 5-20 s.

Moreover, the impact in the micropulse mode is carried out with a duty cycle of switching on the micropulse 10-20%.

The main criteria for the effectiveness of the treatment of the proposed method is to improve visual acuity, reducing the area and thickness of macular edema after 3 months.

The proposed method was treated 20 patients with clinically significant diabetic macular edema.

Prior to treatment, all patients were checked for maximum visual acuity with correction, fluorescence angiography of the fundus was performed, and the area and thickness of the retina in the macular region were determined using optical coherence tomography. The results of the study were evaluated and compared before treatment and 3 months after treatment by the proposed method.

All 20 patients had a tendency to improve vision in the eye after treatment in the 3-month postoperative period (average changes: +2 letters on the studied eye P = 0.08). Significant improvement was also observed according to the data of optical coherence tomography in the studied eye (average decrease in the thickness of the macula - 127 nm) compared with the paired eye (average increase - 34 nm). The difference in the data of optical coherence tomography from the start of treatment to a 3-month period was statistically significant (P = 0.02).

Examples of specific uses of the proposed method

Example 1

Patient K., 62 years old, was admitted with a diagnosis of diabetic macular edema in both eyes. Visual acuity of the right eye - 0.3, left - 0.5. Upon admission, the following examinations were carried out, visual acuity and refractometry were checked, fluorescence fundus angiography and determination of the area and thickness of the retina in the macular region using optical coherence tomography. Before treatment, the patient underwent local anesthesia with 1% alkaine. The treatment of this disease was carried out on the right eye with the proposed method using laser infrared transpupillary thermotherapy with a single exposure to subthreshold radiation with a wavelength of 810 nm, using an infrared laser 810 nm IRIDEX IQ 810 (USA) with an adapter for a wide spot, in micropulse mode with radiation power 500 mW, with a duty cycle of switching on a micropulse of 20%, a spot diameter of 5 mm, for 20 seconds. The exposure was carried out through a Reichel - Manister IX lens (Ocular Instruments, USA).

3 months after the treatment, the visual acuity of the right eye was 0.6. The thickness of the retina in the right eye decreased by 137 mm.

Example 2

Patient N., 58 years old, was admitted with a diagnosis of diabetic macular edema in both eyes. Visual acuity of the right eye - 0.2; left - 0.4. Upon admission, the following examinations were performed: visual acuity and refractometry, fluorescence fundus angiography and determination of the area and thickness of the retina in the macular region using optical coherence tomography.

Before treatment, the patient underwent local anesthesia with 1% alkaine. The treatment of this disease was carried out on the right eye with the proposed method using laser infrared transpupillary thermotherapy with a single exposure to subthreshold radiation with a wavelength of 810 nm, using an infrared laser 810 nm IRIDEX IQ 810 (USA) with an adapter for a wide spot, in micropulse mode with radiation power 2000 mW, with a duty cycle of switching on a micro pulse of 10%, with a spot diameter of 3 mm, for 5 seconds. The exposure was carried out through a Reichel - Manister IX lens (Ocular Instruments, USA).

3 months after the treatment, the visual acuity of the right eye was 0.5. The thickness of the retina in the right eye decreased by 145 mm.

As can be seen from the results obtained, the proposed method for the treatment of diabetic macular edema is effective and can improve visual acuity by reducing the thickness of the macula. This eliminates the risk of developing intraoperative and long-term complications. In addition, exposure to radiation is carried out once on the entire area of the macula, which reduces the treatment time.

Information sources

1. Klein R, Klein B.E., et al. The Wisconsin Epidemiologic Study of Diabetic Retinopathy, XIY. Ten year incidence and progression of diabetic retinopathy. Arch Ophtalmol, 1994; 112: 1217-1228.

2. Pong D.S., Ferris F.I., Aiello L.P., et al. Diabetic retinopathy. Diabetic Care 2004; 27: 2540-2553.

3. Klein R. Diabetic retinopathy. Annu Rev Public Health, 1996. P.137-158.

4. Plyukhova O.A., Kuman I.G., Edneva Ya.N. Laser treatment methods in ophthalmology. Ed. S.N. Fedorova. M., 1983, p. 140.

5. Lee S.M., Oik R.J. Modified grid laser photocoagulation for diffuse macular edema: long term results. Ophthalmology. 1991: 98, p. 1594.

6. Schatz H., Madeira D, McDonald H.R., et al. Progressive enlargement of laser scars following grid laser photocoagulation for diffuse diabetic macular edema. Arch Ophthalmol 1991: 109: 1549-1551.

7. Steven M. Bloom, Alexander S. Brucer. Laser Surgery of the Posterior Segment, 1990, p. 112.

8. The prototype. RF patent No. 2340320, application No. 2007114174 dated 04/17/2007 on "A method for the treatment of diabetic maculopathy."

Claims (2)

1. A method for the treatment of diabetic macular edema by laser infrared transpupillary thermotherapy when exposed to subthreshold radiation with a wavelength of 810 nm, characterized in that the exposure is performed once on the retina in the micropulse mode, the radiation power of 500-2000 mW, spot diameter 3-5 mm in within 5-20 s. 2. The method according to claim 1, characterized in that the exposure in the micropulse mode is carried out with a duty cycle of switching on the micropulse of 10-20%.