RU2289453C2 - Method for treatment of seasonal affective disorders - Google Patents

Abstract

FIELD: medicine, in particular, psychiatry, possible use for treating seasonal affective disorders.

SUBSTANCE: in accordance to method, non-coherent optical radiation effect is induced in spectrum of 456-498 nm onto carotid arteries projection area. Stimulation is performed in the morning for 30 minutes. Treatment course consists of 10 sessions.

EFFECT: increased emotional status, normalization of sleep, increased intellectual efficiency.

2 tbl, 1 dwg

Description

The invention relates to medicine, namely to therapy, psychiatry and neurology, and is intended for the treatment of seasonal affective disorders.

At present, affective disorders associated with insufficient intake of visible light in the autumn-winter period, especially in the shortwave part of the spectrum, are manifested, which are manifested by sleep disturbance, increased appetite with an attraction to sweet food, decreased emotional background, increased fatigue, and impaired mental performance [1 , 2].

The closest treatment is described in General Psychiatry, ed. A.S. Tiganova [3]. It consists in exposing a person to bright white light (the spectral interval is at least the entire visible region). The action of light therapy is based on the melatonin theory of seasonal affective disorders and the associated theory of the shift of daily (circadian) rhythms of a person. Light can not only change the circadian rhythms of melatonin (the hormone of the pineal gland), but also affect their phases and amplitudes. In this case, illumination from 1,500 to 10,000 lux (usually 2,500 lux) is used, which is almost 200 times more than normal daytime indoor lighting. The light source is special lamps that give white light (full spectrum) up to 10,000 lux with the elimination of ultraviolet rays. Incandescent and fluorescent type devices are available. As a rule, a daily exposure of light from 2500 to 4500-5000 lux is used from 30 minutes to 1 hour in the morning or evening hours (sometimes in the morning and in the evening). There are also special tables according to which the exposure time of the light (treatment session) is calculated depending on the light intensity and the distance of its source from the patient, etc. Treatment lasts 10-14 days.

The disadvantages of the method are the high cost and rapid failure of high power light sources, as well as possible multidirectional effects when exposed to a broadband radiation source. In addition, it was found [4, 5] that light in the blue region of the visible spectrum is most effective in controlling the production of the hormone melatonin in the body, which plays an important role in circadian rhythms. Thus, exposure to visible light of a narrower spectral range is possible.

The essence of the invention lies in the fact that the treatment of seasonal affective disorders is carried out by the action of optical radiation in a narrower spectral range (in the range 456-498 nm) by sources of much lower intensity (LEDs) and only on some parts of the body (on the projection area of the carotid arteries that feed the head brain).

The technical result of the invention is the low cost of treatment, the possibility of widespread use at home and reducing the likelihood of side effects.

The drawing shows the spectral characteristic of the incident radiation.

A method for the treatment of seasonal affective disorders is implemented as follows.

Influenced by incoherent optical radiation in the range of 456-498 nm on the projection area of the carotid arteries that feed the brain. Sources of radiation are several solid-state emitters (LEDs) (10-15 pcs.), Which are fixed on both sides of the neck over the desired areas. Exposure is carried out for 30 minutes in the morning. The course of treatment consists of 10 sessions.

To prove the effectiveness of the invention, observations were made on 30 volunteers.

The course, clinical manifestations of seasonal disorders and biochemical blood data in dynamics were analyzed: before phototherapy sessions, exposure to incoherent optical radiation in the range of 456-498 nm on the projection area of the carotid arteries that feed the brain for 30 minutes in the morning 10 days and after the course of treatment . The biochemical study material was blood from the cubital vein, obtained by venipuncture in an amount of 7.0 ml in blood collection tubes from Vacutaner (USA), and a solution of ethylene diamine tetraacetate (EDTA) at a concentration of 1 mg / ml was used as a preservative. The work used informative classical and modern biochemical research methods [6]. Total lipids (TLs) were determined by reaction with sulfophosphovaniline reagent; the level of total cholesterol (cholesterol) and its fractions in the composition of low density lipoproteins (cholesterol-LDL) and high-density lipoproteins (cholesterol-HDL) - by reaction with ferric chloride by the method of Zlatkis-Zack; triacylglycerols (TAG) - a standard set of reagents from Lachema (Czech Republic). The state of lipid peroxidation (LPO) processes was judged by the intensity of hydrogen peroxide chemiluminescence (CL) in the presence of an excess of Fe ^{2+ ions} determined using an Emilite El 1105 chemiluminometer. The total light sum for 30 and 60 s, the average reaction rate for every 10 s of measurement, were determined and maximum outbreak of CL intensity during the measurement. We also determined the final products of LPO with which the reaction of 2-thiobarbituric acid (TBA-associated products - TBCap) spectrophotometrically at a wavelength of 535 nm. From the elements of the antioxidant defense system (AOD) in the blood serum, the content of ceruloplasmin was determined by the modified method with paraphenylenediamine. The lipid fraction for the determination of diene conjugates (DCs) was extracted with a heptane-isopropanol mixture. In the heptane phase, the amount of DC was measured spectrophotometrically at the length of their maximum absorption (233 nm). The resulting digital material was processed statistically. Significance of the difference was determined by t-student test. Results with a confidence level of at least 95% (p <0.05) were taken into account.

A significant positive effect of the use of phototherapy by exposure to incoherent optical radiation in the range of 456-498 nm on the projection area of the carotid arteries that feed the brain in patients for the treatment of seasonal affective disorders was noted. At the same time, an increase in emotional status, normalization of sleep (92% of cases), a decrease in increased appetite (in 87% of cases) and an increase in mental performance (92% of cases) were found in all patients. Data on the normalization of mental status and the state of the emotional sphere, as well as the results of self-diagnosis of well-being, activity and mood (SAN), were confirmed by studying the biochemical parameters of blood. Phototherapy was accompanied by inhibition of elevated LPO processes against the background of activation of the antioxidant system (increased ceruloplasmin by 31%). At the same time, the anti-sclerotic effect of incoherent optical radiation in the range of 456-498 nm is also noteworthy - a decrease in the amount of total cholesterol and the LDL-C fraction and a parallel increase in the HDL-C fraction.

Table 1
Indicators of lipid metabolism in blood serum in the dynamics of the use of incoherent optical radiation in the range 456-498 nm (X ± Sx) Indicator BEFORE AFTER OL, g / l 6.35 ± 0.28 6.22 ± 0.37 Cholesterol, mmol / l 5.23 ± 0.29 4.47 ± 0.23 HS-HDL, mmol / l 1.52 ± 0.06 1.89 ± 0.08 CS-LDL, mol / l 3.62 ± 0.22 3.12 ± 0.16 TAG, mol / L 1.32 ± 0.17 0.88 ± 0.16

table 2
The state of the processes of lipid peroxidation and antioxidant protection in blood serum in the dynamics of the use of incoherent optical radiation in the range 456-498 nm (X ± Sx) Indicator BEFORE AFTER CL intensity for 30 s, imp. 689.2 ± 70.9 452.7 ± 42.4 CL intensity for 60 s, imp. 1432.4 ± 73.2 1127.8 ± 65.9 Maximum flash CL, imp. 115.9 ± 8.4 94.0 ± 6.2 DK, conventional units 0.84 ± 0.11 0.574 ± 0.10 TBKap, μmol / L 3.24 ± 0.21 1.87 ± 0.22 CP, mg / l 148.2 ± 10.2 194.4 ± 12.0

Literature

1. Ostryanina N.L. To the problem of seasonal (autumn-winter) depression // Psychiatry and psychopharmacotherapy. - 2002. - t.4, No. 4. - p. 33-34.

2. Khananashvili M.M. On the psychopathology of seasonal depression // Affective and schizoaffective psychoses. The current state of the problem. - M., 1998.S. 147-155).

3. General Psychiatry / Ed. A.S. Tiganova. - http://www.psychiatry.ru/library/lib/article.php4?booknumber=28&article_id=76 - prototype.

4. If you want to fall asleep, look at something blue, such as the starry sky. - SciTecLibrary - Science and Technology News. - http://www.sciteclibrary.ru/rus/catalog/pages/6058.html.

5. Circadian rhythms and light. - http://www.medlight.ru/circad.php.

6. Kamyshnikov B.C. Handbook of clinical and biochemical laboratory practice. In 2 volumes. - Minsk: Belarus, 2000 .-- 963 p.

Claims (1)

A method of treating seasonal affective disorders, which consists in exposing a person to incoherent optical radiation in the visible range of 30 minutes in the morning for 10 days, characterized in that the exposure is carried out in the range of 456-498 nm by LEDs on the projection area of the carotid arteries that feed the brain .