RU2197304C2 - Method for treating patients suffering from urogenital system disorders for prostatitis, prostate adenoma - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves subjecting visual analyzer to color-and-frequency field produced as eye iris possessing complex differentiated structure having segments colored in seven rainbow colors as it has been shown on dwg 1. Each color has 60 tints varying sequentially in lightness and saturation. Direct and inverse color tint representation sequences are used in neighboring segments on systematically coupled electroencephalogram frequencies under fixed luminescence duration. EFFECT: enhanced effectiveness of treatment. 1 dwg, 3 tbl

Description

 The invention relates to medicine, namely to psychophysiology and urology.

 In the prototype (Game R.V. A method for the treatment of enuresis in children. AS USSR 4179231/14; priority 09.01.87; publ. BI 3, 1991) the effect of a physical factor through the visual analyzer on the body system is used, which allows to achieve the correction effect urinary tract in psychosomatic disorders in children. The exposure is carried out by light flickers individually at frequencies of the theta range of 3-7 Hz, congruent to the frequencies of assimilation of the rhythm of light flickers in the patient's EEG power spectrum.

Significant disadvantages of this method of exposure to a physical factor on the body system are:
1) the lack of complexity and differentiation in the qualitative and quantitative characteristics of the affecting physical factor:
a) in terms of physical characteristics, the effect of light flickering on the visual analyzer is a binary metric invariant of the light black continuum of the source of exposure. The binary nature of the metric invariant of influence determines accordingly the binary nature of the reaction of the substrate - the target of the impact, which is the system: the visual analyzer of the brain - the efferent pathways of the central nervous system - organs and tissues of different specialization and differentiation. As a result, the range of variations activated by the action of nerve connections in the body system is extremely limited.

In this case, the positive effect in the treatment of enuresis in children can be explained more by the global system-forming ability of the theta rhythm (Yurlin L. A. Typological characteristics of personality in terms of the structure of the EEG spectra. Author's thesis. Candidate of Psychological Sciences. Moscow, Psychological Institute of the Russian Academy of Education , 1993, 35 p.). Of course, the brain systems responsible for color perception are more differentiated with respect to light perception systems, since each of the colors and shades has its own wavelength. When light exposure is dominated by a quantitative characteristic - the intensity of the light source. In color processing, the dominant character, on the contrary, acquires a qualitative characteristic - the color-tonality modality of the chromatic components of the color source. Experimental studies have revealed the high lability and specificity of color perception (Vekker L.M. Mental processes. L .: Publishing house LSU, t.1, 1974, 334 p.). As a result, color a priori can be considered more specific and differentiated with respect to exposure to light;
b) light exposure carried out at a single frequency, even if it is the dominant rhythm assimilation frequency recorded in the patient’s EEG power spectrum, is limited by the energy, statistical and space-time frames of the brain structure that is responsible for the generation of the imposed frequency oscillations. At the same time, brain structures that are responsible for the generation of other theta rhythm frequencies found in the patient’s EEG power spectrum, whose value from the point of view of the normal functioning of the brain and the entire body system, remain unaffected by the effect of negative induction on the brain.

 2) Exclusion from the qualitative and quantitative characteristics of the affecting physical factor of the frequency components of alpha, beta and delta rhythms.

 In the work (Yurlin L.A. Typological characteristics of a person in terms of the structure of EEG spectra. Author's thesis. Candidate of Psychological Sciences. Moscow, Psychological Institute of the Russian Academy of Education, 1993, 35 pp.) It was shown that theta types of power EEG spectra are strictly and are uniquely associated with the frequency (median power) of alpha activity and the frequency variability of the EEG delta rhythm, and the human theta rhythm thus acts as a backbone in relation to alpha and delta rhythms. Therefore, at least such a structure can be considered as the most adequate structure of the affecting physical factor, which simultaneously includes systemically consistent frequency components of the three main "human" rhythms: delta 0.2-3.0 Hz; theta 3.2-7.0 Hz; alpha 7.2-14.0 Hz.

 The objective of the invention is to provide a method of non-pharmacological psychophysiological correction (treatment) of prostatitis, prostate adenoma in patients with disorders of the genitourinary system.

 The invention is illustrated by a figure ("Scheme of the screen field color-frequency exposure").

 The method is as follows.

 The field of color-frequency exposure on the computer screen is formed in the form of an iris with a complex differentiated multi-segment structure (drawing).

 Segments of the acting field (VP) are painted in seven colors of the rainbow (red (segments 3, 4, 11, 12); orange (segments 20, 21, 22, 26, 27, 28); yellow (segments 5, 6, 13, 14 ); green (segments 1, 2, 9, 10); blue (segments 17, 18, 19, 23, 24, 25); blue (segments 7, 8, 15, 16); purple (segments 29, 30, 31 , 32)), as shown in the drawing. Each color is represented by 60 shades, the duration of which is strictly fixed on the computer screen. Hues from the first to the sixtieth successively change the characteristics of lightness and saturation from dark unsaturated (0th hue) to light saturated (59th hue). The correspondence of the serial number of the shades and the duration of their glow on the screen (in milliseconds) is presented in table. 1.

 As a result, the shades of 0-5th are reproduced on the screen in direct order with periods of the alpha rhythm of the electroencephalogram (EEG), in the opposite - the delta rhythm of the EEG.

 Shades of the 6-11th in direct order with periods of the EEG quasitet rhythm, in the opposite - the EEG theta rhythm.

 Shades of 12-17th - in direct order with periods of quasi-delta rhythm of the EEG; in the opposite, quasi-alpharhythm of the EEG.

 The shades of the 18-23rd are in direct order with periods of the quasi-beta 2-rhythm of the EEG, in the opposite - beta1-rhythm of the EEG.

 The shades of the 24-29th are in direct order with periods of the quasi-beta1-rhythm of the EEG, in the opposite - beta2-rhythm of the EEG.

 The shades of the 30-35th are in direct order with periods of the beta2-rhythm of the EEG, in the opposite - the quasi-beta1-rhythm of the EEG.

 Hues 36-41 are in direct order with periods of the beta1 rhythm of the EEG, in reverse - quasi-beta2 rhythm of the EEG.

 Shades of 42-47th - in direct order with periods of quasi-alpha rhythm of the EEG; in the opposite, the quasi-delta rhythm of the EEG.

 Shades of 48-53rd - in direct order with periods of the EEG theta rhythm; in the opposite, the quasi-rhythm of the EEG.

 Shades of the 54-59th - in direct order with periods of the EEG delta rhythm; in the opposite, the alpha rhythm of the EEG.

 To reproduce the shades of colors in the segments (see the drawing) in a conditional direct order, a sequence is established (see table 2a).

 To reproduce the shades of colors in the segments (see the drawing) in a conditional reverse order, the sequence is set (see table 2b).

 In the table. 3 shows a generalized sequence of reproducing shades of colors in segments of the color-frequency field of influence (see drawing).

 The principles of the structure of color-frequency effects.

 1. The similarity isomorphism of the source and receiver of the impact. (Vekker L.M. Mental processes. L .: Publishing house of Leningrad State University, vol. 1, 1974, 334 pp.). The receiver of the influencing factor is the most differentiated visual analyzer, therefore the screen field of the color-frequency exposure is formed in the form of an iris with a complex-differentiated structure in accordance with the principles of clinical iridology (Velkhover ES, Clinical iridology. Orbit. 1992. 430 p.).

 2. Natural isomorphism of the source and receiver of exposure. The colors of the source of exposure are electromagnetic waves of fixed wavelengths. In turn, the receiver is also the electromagnetic components of the nervous tissue of the optic tract and the brain as a whole.

 3. Frequency isomorphism of the source and receiver of exposure. In the author's work (Yurlin L.A. Typological characteristics of the personality in terms of the structure of the EEG spectra. Author. Thesis. Candidate of Psychological Sciences. Moscow, Psychological Institute of the Russian Academy of Education, 1993. 35 p.) 4 types of brain activity in people aged from 17 to 60 years old. Each type is characterized by a specific structure of the EEG power spectra and a specific composition of frequencies (periods) in the delta, theta, alpha and beta frequency ranges. Color fluctuations of the segments of the source of exposure (see drawing) are carried out with periods (at frequencies) of the natural rhythms of the human brain (see table. 1).

 4. The expansion of variations in the nervous and humoral bonds in the human body.

 A person belongs to one of 4 identified in the author's work (Yurlin L.A. Typological characteristics of a person in terms of the structure of EEG spectra. Author. Dissert. Candidate of Psychological Sciences. Moscow, Psychological Institute of the Russian Academy of Education, 1993, 35 pp.) , the most common types of brain activity and is characterized by an individually-specific composition of EEG rhythm frequencies in the delta, theta, alpha, and beta frequency ranges. The brain of a particular person "does not know" the frequencies of the types of brain activity of other people to which its immediate and distant relatives may belong. Color-frequency exposure includes all 4 types of frequency compositions (see Table 1), which, according to the principle of assimilation of rhythms (see prototype) by the brain, significantly expands the range of variations in the nerve connections of the human brain. On each newly formed neural connection, biologically active substances are synthesized using the well-known physiological mechanism, which are transported through the nerve and humoral channels to all organs and tissues and create the conditions for the most active and stable psychophysiological homeostasis in the human body.

 These, in our opinion, are the basic principles for achieving a therapeutic effect through color-frequency exposure in patients with disorders of the genitourinary system.

 The procedure of color-frequency correction is carried out in a specially darkened room. The patient is in a chair in front of a computer. The distance from the eyes to the affecting color field of the computer screen is 0.7 m. The duration of the color-correction session is from 25 to 50 minutes. Depending on the severity of the disease, every day from Monday to Friday, the patient undergoes 1 or 2 sessions.

 Example 1

Patient M., born in 1919. The diagnosis of prostate adenoma was established in 1988. In November 1995, an ultrasound examination was performed. The rounded prostate is significantly increased in size:
a) anteroposterior - 55 mm; b) transverse - 65 mm. The number of urinations from 23.00 to 6.00 hours - 2-3 times. Since November 1996, the number of urinations from 23.00 to 6.00 hours increased to 4-5 times.

 In February 1998, a 4-week color correction course was conducted on the Rainbow computer system, a modified version of the EFI-010 color correction system (Yurlin L. Correction psychophysiologique de la pression arterielle. Brussels Eureka '94/43-eme Salon mondial de la recherche et de 1'innovation industrielle. 9-16 / 11/1994. Medaille d'Or.) The principles of color effects of the Rainbow computer system are described in this application.

 From the beginning of February 1998 until the end of March, patient M. experienced a consistent decrease in the number of urinations from 23.00 to 6.00 hours from 4-5 times to 1-2 times, which has survived to the present (June 1998). Repeated ultrasound examination 05/26/98 G. found a tendency to reduce the transverse size of the adenoma from 65 mm to 60 mm.

 Example 2

 Patient D., born in 1933. The diagnosis of prostatitis was made in 1987, and prostate adenoma in 1989. In June 1997, an ultrasound examination was performed. Iron rounded in shape increased in size: a) anteroposterior - 43 mm; b) transverse - 56 mm. The number of urinations from 23.00 to 6.00 hours - 5-6 times. In January-February 1998, a 5-week color grading course was conducted on the Rainbow computer system (the principle of the color effect of the Rainbow system is described in this application). By the end of February, the number of urinations from 23.00 to 6.00 hours consistently decreased to 2 times and has survived to the present (June 1998). A second ultrasound examination on 05/26/98 also revealed a tendency to decrease the transverse size of the adenoma from 56 mm to 49 mm .

 Thus, the claimed method, in comparison with the prototype, reveals complexity and high differentiation in qualitatively-quantitative characteristics (color and frequency of flickering) and the form of the affecting physical factor, due to which, in our opinion, a therapeutic effect is achieved in patients with urinary tract disorders.

Sources of information
1. Game R.V. A method for the treatment of enuresis in children. A.S. USSR 4179231/14; priority 09.01.87; publ. BI 3, 1991 (prototype).

 2. Yurlin L.A. Typological characteristics of personality in terms of the structure of EEG spectra. Abstract. thesis. Cand. psychol. sciences. Moscow, Psychological Institute of the Russian Academy of Education, 1993, 35 p. (analogue 1).

3. Yurlin L. Correction psychophysiologique de la pression arterielle. Brussels Eureka '94/43-eme Salon mondial de la recherche et de 1'innovation industrielle. 9-16 / 11/1994. Medaille d'Or. (analogue 2.)
4. Ayvazyan T.A., Zaitsev V.P., Taravkova I.A., Novikov I.D., Dyusova N.L. The study of the diagnostic capabilities of the color test in patients with cardiovascular diseases. Psychological Journal, vol. 10, 3, 1989.

 5. Vasilevsky N. N., Sidorov Yu.A., Suvorov N. B. On the role of biorhythmic processes in the mechanisms of adaptation and correction of regulatory dysfunctions. Human physiology. T. 19, 1, 1993, p. 91-98.

 6. Wecker L.M. Mental processes. L .: Publishing house of LGU, t. 1, 1974, 334 p.

 7. Welhover E.S. Clinical iridology. Orbit. 1992.430 s.

Claims (1)

 A method of treating prostatitis, prostate adenoma in patients with disorders of the genitourinary system, characterized in that the exposure is carried out on the visual analyzer by a color-frequency field formed in the form of an iris with a complex differentiated structure in which the segments are colored in seven colors of the rainbow, as shown in FIG. . 1; each color is represented by sixty shades, which sequentially change the characteristics of lightness and saturation from dark saturated to light saturated, while using conventionally direct and inverse sequences of reproduction of color shades in adjacent segments at systemically conjugated frequencies of the EEG with a fixed duration of their glow.

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