RU2349252C1 - Method of headache pathogenesis diagnostics - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention concerns medicine and is intended for headache pathogenesis diagnostics. It involves method of computer dermography including measurement of skin impedance in at least 183 microzones of both auricles. Measurement results undergo computer processing, and information is presented as diagrams of function of tonic activity distribution along cerebrospinal axis. Pathology focus is located by obtained results.

EFFECT: possible headache diagnostics for a wide range of disorders, large-scale examination (screening) of people.

3 ex, 13 dwg

Description

The invention relates to medicine, and more specifically to neurology, and can be used for non-invasive diagnosis of headaches in humans with the determination of their pathogenesis during medical examination and / or screening examinations of the population.

Headache is the most common complaint with which patients turn to a doctor in almost any specialty and at any age. The headache problem is a multidisciplinary medical problem, because this pain can be not only a symptom of pathological processes localized in the head region, but also a leading manifestation of many somatic and psychogenic diseases. During mass examinations, patients' complaints of headache are practically neglected due to the complexity and high cost of differential diagnosis, and patients do not receive proper targeted therapy.

From the scientific and practical point of view, the following pathogenetic types of headache can be distinguished: vascular, muscle tension, cerebrospinal fluid, neuralgic and psychalgic (with the exception of headache due to coronary heart disease, hypertension and other organic pathology).

A known method for diagnosing headaches, based on the use of etiological principles, for example, on the basis of the generally accepted work "Classification and diagnostic criteria for headaches, cranial neuralgia and facial pains", "International classification of headaches" (1988), which are based on (Classification and Diagnostic Criteria for Headache Disorders, Cranial Neuralgia and Facial Paim. / Headache classification Commite of the International Headache Society. // Cefalgia. - 1988. - V.8 - No. 7. - P.1-8).

However, headache is a symptom and therefore all attempts to classify it from a nosological position are groundless. Etiotropic headache therapy is not always successful. Therefore, the task of diagnosing a headache is to establish the correct diagnosis of the underlying disease that is its cause, to identify the pathogenetic mechanisms that cause headaches.

Methods for diagnosing headache pathogenesis are also known, including the use of instrumental techniques, for example, such as X-ray computed tomography of the brain; X-ray angiography of the brain; computer angiography; magnetic resonance imaging of the brain; rheovasography of cerebral vessels; ultrasound dopplerography; extra- and transcranial ultrasound dopplerography; myography; X-ray examination of the cervical spine; X-ray examination of the skull; electroencephalography, etc. (see, for example, Headache. / A.M. Vein et al. M. Medicine. 1994. - 286 p .; Headache. / A.A. Shutov et al. Perm. Algos-Press Publishing House. 1997. - 157 pp .; Kolosova OA, Osipova VV Classification of headache // Journal of Neurology and Psychiatry named after S.S. Korsakov. 1996. No. 3. - P.8-11; Olesen J. Diagnosis of headache. // Neurological journal. 1996. No. 3. P.4-11; Stock VN Headache. - M .: Medicine. 1987. 303 p.).

The above methods are very time-consuming, expensive, take considerable time (about an hour or more), are complicated by the method of implementation, are often unsafe, especially for children, can be used only for individual indications and are practically unacceptable for mass screening examinations.

There is also a method for diagnosing headache pathogenesis, including the use of an instrumental method that provides a non-invasive examination of the patient and subsequent computer analysis of the measurement results (see RU No. 2160039, A61B 5/00, 2000). Diagnosis is based on the identification of temperature anomalies (temperature gradients) in the pericranial and cervical muscles, measured by microwave radiothermometry in the range 1100-1200 MHz (RTM-01-RES radio thermometer). Assess the temperature of the tissues at a depth of 4-6 cm under the contact area of the antenna with the skin. Based on temperature gradients greater than 0.8 ° C throughout the study area and more than 0.2 ° C above the symmetrical points of this area, pericranial muscle disorders are diagnosed with headaches.

The named method can only be used to detect pathogenesis in a limited range, in particular for the diagnosis of pericranial muscle disorders in headaches. The total duration of the measurements is quite large (the tissue temperature measurement area is released 15 minutes before the measurement to acclimatize the entire measurement area to clothing for acclimatization to room temperature), and during the measurement process, the receiving antenna is pressed firmly to the skin surface above the temperature measurement area, while during the measurement it is necessary pause to stabilize the measured parameters before fixing them in the computer database. In addition, due to the presence of radio noise in the atmosphere and to exclude the influence on the results of measuring the position of the antenna in space, the latter is always oriented in one direction - the patient changes position while sitting on a rotating chair. In addition, the room of the radiothermometry cabinet is shielded from external radio noise.

The objective of the invention is expressed in providing the ability to diagnose the pathogenesis of headaches in a wide range with the possibility of using the method for mass examination (screening) of the population.

The technical result achieved by solving the problem is expressed in providing the possibility of operational diagnosis of headaches with a wide variety of diagnoses. The duration of the diagnostic procedure does not exceed 3-5 minutes. The short duration of the procedure, the absence of special requirements for ensuring the operability of the equipment provide the ability to use the method for mass examination (screening) of the population.

The problem is solved in that a method for diagnosing headache pathogenesis, including the use of an instrumental method that provides a non-invasive examination of the patient and subsequent computer analysis of the measurement results, is characterized in that a computer dermography method is used that includes measuring the skin electrical resistance of at least 183 microzones on both ear shells and computer processing of measurement results with the output of graphical information in the form of graphs of tone distribution functions activity along the spinal axis for the system of adrenoreceptors of smooth muscle of the internal organs (F1), the arterial link of the microvasculature of the internal organs (F2), the venous link of the microvasculature of the internal organs (F3), the receptor system of connective tissue and nerve tissue (F4), M-cholinergic receptors epithelial tissue of internal organs (F5), with the display of the left (L) and right (R) branches of the function graphs, while, from the graphs of the subfunctions F '(n), where n is from 1 to 5, the location of the pathology focus is established in the vertebral artery, and according to the graphs of the subfunctions F '' (n), the location of the pathology focus in the carotid artery basin is established, and when the pathology focus is located on the site of the cervical segments C1-C8, the cervical region is diagnosed, when the pathology focus is located on the site of the head segments C1 * -C2 * diagnose a lesion of the occipital region, when a lesion is located on the site of the head segments C3 * -C5 * diagnose a lesion of the temporoparietal region, when the lesion is located on the site of the head segments C6 * -C8 *, the diagnosis damage the frontal or facial region, in addition, if the difference between the left and right branches of the function graphs F2 (R) -F2 (L) in the sections of the mentioned segments exceeds 1.5 values of the physiological corridor of electrical resistance of the skin, then constriction of arterial vessels in the focal area is diagnosed , in addition, if the difference between the left and right branches of the function graphs F1 (R) -F1 (L) in the sections of the mentioned segments exceeds 1.5 values of the physiological corridor, then an increase in the tone of the scalp muscle elements in the focal area is diagnosed, in addition, if the difference of the left and right branches of the graphs of the function F3 (R) -F3 (L) in the sections of the mentioned segments exceeds 1.5 values of the physiological corridor, then dilation of the veins in the focus area is diagnosed, in addition, if the difference of the left and right branches of the graphs of the function F4 ( R) -F4 (L) in areas of the mentioned segments exceeds 1.5 values of the physiological corridor, irritation of the nerve elements of the head in the focus area is diagnosed, in addition, if the difference between the left and right branches of the function graphs F5 (R) -F5 (L) in the areas mentioned segments exceeds 2.5 physiologist values of the corridor, then the psychogenic nature of the headache or the presence of a tumor is diagnosed.

A comparative analysis of the features of the claimed solution with the features of the prototype and analogues indicates the conformity of the claimed solution to the criterion of "novelty."

Moreover, the features of the characterizing part of the claims provide a solution to the following functional problems.

The signs “use a computer dermography method, including measuring the electrical resistance of the skin of at least 183 microzones on both auricles and computer processing of the measurement results with the output of graphical information in the form of graphs of the distribution functions of tonic activity along the spinal axis for the adrenoreceptor system of smooth muscle of internal organs (F1) , arterial link of the microvasculature of internal organs (F2), venous link of the microvasculature of internal organs new (F3), systems of receptors of connective tissue and nerve tissue (F4), M-cholinergic receptors of the epithelial tissue of internal organs (F5), with the display of the left (L) and right (R) branches of the function graphs ”provide the ability to graph all the basic functions, which are necessary for the formation of a symptom complex, providing a diagnosis of a wide spectrum.

The signs “according to the graphs of the subfunctions F '(n), where n is from 1 to 5, determine the location of the lesion in the vertebral artery pool, and according to the graphs of the subfunctions F' (n) the location of the lesion in the region of the carotid artery basin” allows not only to identify the focus of the inflammatory process in the body, but also to determine the affiliation of the lesion to the region of the pools of the vertebral or carotid artery.

Signs “when a focus of pathology is located on the site of cervical segments C1-C8, a lesion is diagnosed in the cervical region, when a focus of pathology is located on a site of segments of the head segments C1 * -C2 *, a lesion of the occipital region is diagnosed; damage to the temporoparietal region, when the focus of the pathology is located on the site of the segments of the head segments C6 * -C8 *, they diagnose damage to the frontal or facial region ”, they reveal the affiliation of the focus of the pathology to the cervical region, occipital region sti of the head, temporoparietal region of the head, frontal or facial part of the head and thereby provide the possibility of making a differential diagnosis of headache with sufficient resolution for practice.

The signs "if the difference of the left and right branches of the F2 (R) -F2 (L) function graphs on the sections of the mentioned segments exceeds 1.5 values of the physiological corridor, then the constriction of arterial vessels in the focal area is diagnosed", provide the identification of headaches associated with constriction of arterial vessels.

The signs "if the difference between the left and right branches of the function graphs F1 (R) -F1 (L) in the areas of the mentioned segments exceeds 1.5 values of the physiological corridor, then they diagnose an increase in the tone of the scalp muscle elements in the focal area", they allow to identify headaches associated with increased muscle tone of the cervical spine or scalp.

The signs "if the difference of the left and right branches of the function graphs F3 (R) -F3 (L) in the sections of the mentioned segments exceeds 1.5 values of the physiological corridor, then the dilation of the veins in the focal area is diagnosed", provide the identification of headaches associated with impaired venous tone vessels.

The signs “if the difference between the left and right branches of the function graphs F4 (R) -F4 (L) in the sections of the mentioned segments exceeds 1.5 values of the physiological corridor, they diagnose irritation of the nerve elements of the head in the focal area”, provide the identification of headaches associated with nerve irritation elements in the focus area.

The signs “if the difference between the left and right branches of the function graphs F5 (R) -F5 (L) in the sections of the mentioned segments exceeds 2.5 values of the physiological corridor, then the psychogenic nature of the headache or the presence of a tumor is diagnosed” provide the identification of the psychogenic nature of headaches or the presence of a tumor .

In the aggregate, the signs using a quantitative assessment of the mismatch parameters of the left and right branches of the graphs of the function F (n) allow us to clarify the initial diagnosis (established at the first stage of the method) in relation to the pathogenesis of headache.

Figure 1 shows a segmental coordinate system or somatic segmental matrix; figure 2 shows the affiliation of the branches of the vertebral and carotid arteries to the subfunctions F 'or F' '; figure 3 shows an image of a subfunction F2 ', which in the region of segments C1-C8, C1 * -C8 * corresponds to the tone of the branches of the vertebral artery basin; figure 4 shows the image of the subfunction F2 '', which in the region of segments C1-C8, C1 * -C8 * corresponds to the tone of the branches of the carotid artery basin; figure 5 shows an image of a pathological focus in the occipital region and upper cervical segments of the spinal cord, vertebral artery with coordinates C1-C3, C1 * -C3 *, on the subfunction F2 'corresponding to a headache associated with constriction of the branches of the vertebral artery; figure 6 shows the normalization of the pathological focus (shown in figure 5) under the influence of the drug Cinnarizine; 7 shows an image of a pathological focus in the occipital region and upper cervical segments of the spinal cord with coordinates C1-C3, C1 * -C3 *, on the subfunction F1 ', corresponding to a headache associated with an increase in muscle tone; in Fig.8 shows the normalization of the pathological lesion (shown in Fig.7) under the influence of the drug HO-ShPA; figure 9 shows an image of a pathological lesion in the temporal-parietal region, venous branches in the region of the carotid artery with coordinates C3 * -C5 *, on the subfunction F3 '' corresponding to headache associated with dilation of the veins; figure 10 shows the normalization of the pathological venous focus (shown in figure 9) under the influence of the drug Nitroglycerin; 11 shows an image of a pathological focus in the occipital region, with coordinates C1 * -C3 *, on the subfunction F4 '' corresponding to a headache associated with irritation of the nerve elements of the head; in Fig.12 shows the normalization of the pathological focus (shown in Fig.11) under the influence of the drug Analgin; on Fig shows an image of a pathological lesion in the temporoparietal, frontal region, with coordinates C * 4-C * 6, on the subfunction F5-1, which corresponds to a headache of a psychogenic nature or associated with the development of a tumor.

The basis of the claimed method is the use of Computer Dermography (CD), based on the study of the topographic distribution of skin electrical resistance on the outer surface of the auricle and a detailed analysis of both absolute and relative values of electrical skin resistance in order to detect electrical abnormalities indicating the pathology of their corresponding dermatomes and segments of the central nervous system. The method allows one to judge the distribution of tonic activity in vegetative segmental centers associated with internal organs from one of the characteristics of the functional state of the skin (permeability of the epidermis).

By regulating the vascular tone and activity of internal organs, affecting trophic tissue, the autonomic nervous system provides metabolic support for the organ under the regulatory influence of the central nervous system. Of all the structures of the brain stem, a significant role in the regulation of autonomic functions is played by the reticular formation, the nuclei of which form suprasegmental centers of vital functions. It is in the reticular formation that afferent impulses come from internal organs and body parts, which then, while maintaining the principle of somatic segmentation, are topically reflected on the outer surface of the auricle.

The CD method is based on widely known studies on the integration of afferent systems performed in 60-80. Authors: A.S. Batuev, A.V. Waldman, R.A. Durinyan, E.Sh. Hayrapetyants and others; studies of nonspecific and activating brain function: R.A. Durinyan, V.F. Ananin, etc.

In solving this problem, it is important to have a coordinate system in which the position of each zone of the receptive sensitivity field can be uniquely “tied”. Historically, the center of research and the reference frame in the integration of analyzers has become the most sensitive skin sensitivity field for research.

When implementing the claimed solution, a direction is used in the description of the coordinates of the body diagram, based on the use of traces of the metameric organization of the peripheral part of the central nervous system. In this area, works are known (authors A.M. Grinshtein (1946), Hansen, Schilak (1962), M. B. Krol (1936), Forster (1936), V. M. Bekhterev (1926), etc.) in which the basic principles of viscero-skin integration using the concepts of “dermatomes” and “body segments” were studied to describe the coordinates of various effects of the interaction of receptive analytic fields (V. Vasilieva, Skin potentials in normal and pathological conditions. Author's abstract. Diss. Moscow, 1965.37 s). It is known that the areas of distribution of skin nerves (mainly sensitive) of the body are organized into “segments” - “belts” or “dermatomes”, which form the “rows” of the segmental matrix. In addition, the distribution areas of the peripheral spinal cutaneous cutaneous nerves of the trunk (including sensitive, effector-sympathetic and secretory-nerve fibers innervating smooth muscles, blood vessels, and skin glands) form vertically oriented “zones” that define the corresponding division (zoning) of dermatomes into plots. Zonal innervation forms the “columns” of the segmental matrix (R.D.Sinelnikov. Atlas of human anatomy. T3. M. Medicine. 1981. 399 S.).

Thus, when registering the topographic distribution of the electrophysiological parameters of the skin and clarifying the spatial somatic segmentation of the outer surface of the auricle with its correlation with internal organs on a computer, a segmental coordinate system or somatic segmental matrix is obtained (see Fig. 1), along the lines of which 32 spinal segment and 8 segments of the facial nerves and head, along the columns - groups of tissue reflex links (groups of receptors of internal organs).

To conduct a diagnostic test CD, use a "Computer DgKTD-01 Dermograph" with the KD 01-07 software package implemented on the basis of an IBM PC computer. Registration certificate of the Ministry of Health of the Russian Federation No. FS 022a2004 / 0892-04; TU 9442-001-15246669-2004. It belongs to the class of medical devices - auxiliary devices for functional diagnostics.

Using a probe (electrode), semi-automatic removal (scanning) of the electrophysiological parameters of 183 skin microzones of both auricles is performed. When scanning, discrete input of information on the topography (reference location) of the electrical permeability of the epidermis of the surfaces of the auricles is performed and two state maps of the epidermis are formed from the left and right auricles.

Further, in automatic mode, after entering data into a computer, graphic information is displayed in the form of graphs of the distribution of the "basic" functions on the segments (along the spinal axis): graphs of the distribution functions of the tonic activity of adrenoreceptor systems of smooth muscle of the internal organs (F1), arterial link microcirculatory bed of internal organs (F2), venous link of the microcirculatory bed of internal organs (F3), as well as graphs of the distribution function of tonic activity of receptors sole tissue and nerve tissue (F4), as well as graphs of the distribution function of the tonic activity of M-cholinergic receptors of the epithelial tissue of internal organs (F5-1 - epithelial tissue of the lungs, liver, urinary organs, thymus, tonsils; F5-2 - epithelial tissue of the heart, pancreas glands, genitals, thyroid gland; F5-3 - epithelial tissue of the bronchi, lining of the stomach and intestines). At the same time, the left (L - dashed line) and right (R - solid line) branches of the function graphs are displayed.

In the process of measurement, they deal not with the graphs of the above-mentioned functions F (n) (F1-F5) themselves, but with the graphs of subfunctions, for which each of the functions F (n) (F1-F5) is displayed in the form of two graphs - graphs of subfunctions with one and two strokes. Physically, these two lines are located very close, as in Figure 1, they differ slightly functionally, although their main purpose (group of receptors) does not change: Fn '' - the gastrointestinal tract (GIT), heart, lungs and urinary system, nose , eyes, forehead, upper jaw; Fn '- gastrointestinal tract, heart, lungs and pelvic organs, occiput, ear, lower jaw.

Most of these subfunctions differ on the head, where Fn '' displays the segments of the upper jaw, captures the face, eyes, nose (these are I, II, III, IV, V pairs of cranial nerves), while Fn 'displays the segments of the lower jaw, the occipital region, inner ear (these are V, VI, VII, VII, IX pairs of cranial nerves);

Physically, these subfunctions were obtained at points lying on the lines running along the curl and anti-curl of the outer surface of the auricle, and these “measured” lines go side by side, but spaced spatially, the “measured” line for Fn '' always goes in the middle of the anatomical region, “ the measuring line for Fn 'is always closer to the inside of the auricle. But in the region of the head (earlobes), these lines diverge greatly, the “measured” line for Fn 'goes to the tragus region, the “measured” line for Fn' goes to the anti-tragus region.

The named subfunctions are displayed by graphs that are plotted in a system of coordinate axes, the horizontal of which contains dermatomes, including segments in the following sequence from left to right: segments of the head nerves (C *), cervical (C), pectoral (Th), lumbar (L), sacral (S) and coccygeal (K) segments of the spinal cord (see FIGS. 3-4). Each segmental department is divided into segments - from 5 to 12 (except coccygeal). Numbering of segments of the spinal cord from left to right, and the brain from right to left. The vertical axis shows the quantitative characteristic of the measured parameter in relative units, and also indicates the area of the physiological corridor (the normal limit of variation of the quantitative characteristic).

We found that with clinically verified diagnoses of headache associated with either constriction of arterial vessels, or with impaired vein tone, or with irritation of nerve structures, or having a muscular nature, differential diagnosis of these conditions using the Computer Dermography method is possible. To confirm the possibility of diagnosing and identifying CD signs of pathological conditions, a series of studies and functional tests were performed.

Using the methods of virtual angiography and ultrasound dopplerography, the blood flow of the main great vessels of the head was studied.

X-ray computed tomography of the brain was carried out according to the standard technique of G. Hounsfild, J. Ambrose (1968) taking into account three-dimensional reconstructions. X-ray angiography was carried out according to the method proposed by E. Monitz in the modification of Seldinger (1950). The femoral artery was punctured, followed by catheterization, contrasting and selective image of the arteries using technical means. Computer angiography was performed 25-30 seconds after a bolus injection of 75-100 ml of omnipack radiopaque substance. Magnetic resonance imaging was used if necessary to obtain a more accurate description of the abnormal parenchyma or to typify the pathological process. Extra- and transcranial ultrasound dopplerography was carried out during the period of active wakefulness with a 30-minute adaptation to the study on the Premier apparatuses of the domestic company “BIOSS” and “Pioner TC-4040” of the company “Nicolet - EME (Germany - USA) using probes 2, 4 and 8 MHz in a three-stage system (method B.V. Gaidar et al., 1995). Pathological signs of dopplerograms were evaluated taking into account a comparison of hemodynamic and normodynamic parameters (M.Bode, 1988).

In the study of patients by the method of Computer dermography on the apparatus “DgKTD-01” (manufactured by NPF LUCHEZAR, Russia), functional tests were carried out using various pharmacological preparations to determine the reaction of various groups of receptors in the vascular pool, nervous and muscular systems.

A. We studied the representation on the functions of CD of the vascular pools of the vertebral and carotid arteries.

A comparative analysis of the CD graphs of the vascular tone of the arteries F2 and F3 veins and the state of the vascular pools of the brain during ultrasound dopplerography, computer angiography showed that (see figure 2):

- branches of the vertebral artery are presented on the graphs of the subfunction F2 '(arteries), and veins (external and basilar) are presented on the graphs of the subfunction F3' in the corresponding cervical segments (C1-C8) and segments of the head (see figure 3): (C1 * -C2 *) - the occipital region; (C3 * -C5 *) - temporal-parietal region; (C6 * -C8 *) - frontal and facial area;

- the branches of the carotid artery are presented on the graphs of the subfunction F2 '' (arteries), and the veins (external, anterior and middle) are presented on the graphs of the subfunction F3 '') in the corresponding cervical segments (C1-C8) and segments of the head (see Figure 4 ): (C1 * -C2 *) - the occipital region; (C3 * -C5 *) - temporal-parietal region; (C6 * -C8 *) - frontal and facial area.

B. Headache associated with constriction of arterial vessels:

Verified headache associated with constriction of arterial vessels in the CD graphs looks like a mismatch of the left (L) and right (R) branches of the graphs of subfunctions F2 'or F2' ', respectively, of the carotid or vertebral artery pools. At the same time, the left branch (L) in the corresponding segments (C or C *) rises to “zero”, the right branch (R), going down, takes on values greater than the physiological corridor 1.5 times its size. The greater the mismatch of the values of the left and right branches of the F2 graphs, expressed relative to the size of the physiological corridor, the higher the tone of the corresponding arteries (Fig. 5). The use of the pharmacological drug cinnarizine - an alpha-adrenoreceptor blocker reduces the tone of the arteries, while the difference in the values of the graphs of the subfunctions F2 (R) - F2 (L) is from 0 to 1.5 values of the physiological corridor (Figure 6). In this case, a headache is clinically relieved or relieved.

In this way:

- spasm (constriction) of the branches of the carotid artery of the brain is proportional to the values of the difference in the graphs of the subfunctions F2 '' (R) -F2 '' (L), corresponding (with pathological constriction) to more than 1.5 values of the physiological corridor, provided that F2 '' (R)> F2 '' (L). The physiological norm of the difference in the subfunctions F2 '' (R) -F2 '' (L) should be considered from 0 to 1.5 values of the physiological corridor;

- spasm (constriction) of the branches of the vertebral artery of the brain is proportional to the difference in the values of the subfunctions F2 '(R) -F2' (L) under the condition F2 '(R)> F2' (L) with the same magnitude of the ratio of the difference in their values to the value of the physiological corridor.

B. Headache associated with increased tonus of the muscles of the scalp;

The verified headache associated with an increase in the tonus of the scalp muscles on the CD graphs looks like a mismatch of the left (L) and right (R) branches of the graphs of subfunctions F1 'or F1' '(depending on the vascular pool). In this case, the left branch (L) in the corresponding segments (C or C *) rises to “zero”. The greater the difference in the values of the functions F1 (R) -F1 (L), the higher the muscle tone (Fig. 7). The pathological value of muscle tone is formed when the difference in functions is greater than 1.5 values of the physiological corridor. The use of the pharmacological preparation no-shpa reduces muscle tone, while the graph F1 (L) goes down and the difference function F1 (R) -F1 (L) takes physiological values from 0 to 1.5 physiological corridor values (Fig. 8) . In this case, a headache is clinically relieved or relieved.

In this way:

- increased muscle tone of the scalp in the pool of carotid artery branches of the brain is proportional to the values of the difference of subfunctions F1 '' (R) -F1 '' (L), provided that F1 '' (R)> F1 '' (L). The pathological constriction can be considered the difference values greater than 1.5 values of the physiological corridor, the physiological norm - the difference values from 0 to 1.5 values of the physiological corridor;

- an increase in muscle tone of the scalp in the pool of branches of the vertebral artery of the brain is proportional to the values of the difference of the subfunctions F1 '(R) -F1' (L) at F1 '(R)> F1' (L) with the same as the above values of their difference, relative values of the physiological corridor.

G. Headache associated with impaired vein tone;

The verified headache associated with dilatation of venous vessels on the CD graphs looks like a mismatch of the left (L - dashed line) and right (R - solid line) branches of the graphs of subfunctions F3 'or F3' '(depending on the vascular pool). At the same time, the right branch (R) in the corresponding segments (C or C *) takes values more than 2.5 values of the physiological corridor. The larger the values of F3 (R) in relative units, the more pronounced is the dilatation of blood vessels (Figure 9). The use of the pharmacological drug nitroglycerin increases the tone of the venous vessels, while the graph F3 (R) rises, taking the values of the physiological norm from 0.5 to 2.5 values of the physiological corridor (Figure 10). In this case, a headache is clinically relieved or relieved.

In this way:

- dilatation of veins in the area of the branches of the carotid artery of the brain is proportional to the values of the subfunction F3 '' (R), while pathological dilatation can be considered the values of the subfunction> 2.5 values of the physiological corridor with a difference of F3 '' (R) -F3 '' (L) more than 1.5 values of the physiological corridor; physiological norm - values F3 '' (R) from 0.6 to 2.5 values of the physiological corridor with a difference F3 '' (R) -F3 '' (L) not more than 1.5 values of the physiological corridor.

- dilatation of veins in the area of branches of the vertebral artery of the brain is proportional to the values of the function F3 '(R) with the same values of the boundary conditions.

D. Headache associated with irritation of nerve structures.

The verified headache associated with irritation of the nerve structures of the head (nerve endings, ganglia, sensory elements, etc.) on the CD graphs looks like a mismatch of the left (L - dashed line) and right (R - solid line) branches of the F4 'or F4' graphs '(depending on localization in the areas of various vascular pools). At the same time, the difference in the functions F4 (R) -F4 (L) in the corresponding segments (C or C *) takes values more than 1.5 values of the physiological corridor under the condition F4 (R)> F4 (L). The larger the difference value F4 (R) -F4 (L) in relative units, the more pronounced is the irritation of the nerve structures of the head (Figure 11). The use of the pharmacological drug analgin calms the pain of a neurogenic nature, while the difference in functions of F4 (R) -F4 (L) decreases, taking the values of the physiological norm from 0 to 1.4 values of the physiological corridor (Fig. 12). In this case, a headache is clinically relieved or relieved.

In this way:

- pathological irritation of nerve structures in the area of the branches of the carotid artery of the brain is proportional to the difference of subfunctions F4 '' (R) -F4 '' (L), which takes values greater than 1.5 values of the physiological corridor under the condition F4 '' (R)> F4 ' '(L).

- pathological irritation of nerve structures in the zone of branches of the vertebral artery of the brain is proportional to the difference of the subfunctions F4 '(R) -F4' (L), with the same boundary conditions.

E. Headache of a psychogenic nature or associated with the presence of a tumor.

A verified headache of a psychogenic nature or associated with the presence of a tumor on the CD graphs looks like a mismatch of the left (L - dashed lines of the right (R - solid line) branches of the graphs F5-1, F5-2, F5-3. The difference in functions is F5 (R ) -F5 (L) in the corresponding segments C * takes values of more than 2.5 values of the physiological corridor under the condition F5 (R)> F5 (L). The larger the difference values F5 (R) -F5 (L) in relative units, the a more pronounced sign (Fig.13).

The claimed method is implemented in the following order.

For CD use "Computer Dermograph DgKTD-01." Using the probe (electrode), semi-automatic removal (scanning) of the electrophysiological parameters of the skin microzones of both auricles is performed, for which the dermograph probe is brought into contact with the skin of the auricle and, without tearing, move it along 14 routes in accordance with the known method (see. Methodological development of the application of the Computer Dermograph "KD-01" in clinical practice. / G.A.Shabanov, V.T. Solomonov, Yu.V. Ponomarev, A.A. Rybchenko, E.V. Pegova. Vladivostok. 1990. - 84 s.).

In this case, the skin resistance is measured at a constant stabilized current of 1-2 nA in 0.3-0.5 s after application of the active electrode, after 170-120 ms from the moment the current passes, an analysis of segmental foci is carried out according to 20-40 indicators of the distribution of electric skin resistance, using these indicators, determine the state coefficient of each segment and, when its value is 3.5-6, a pathological focus in the organs of the segment is isolated.

At the end of work with one auricle, the same set of work is repeated on the second. When scanning, in automatic mode, information about the values of the permeability of the epidermis of the surfaces of the auricles in each of the 183 microzones of the values of the permeability of the epidermis of the surfaces of the auricles occurs and two maps of the state of the epidermis are formed from the left and right auricles.

Next, the computer automatically processes the received information and displays the results of the analysis in graphical form.

At the same time, at the first stage, analyzing the basic complex of functions in a known manner, a segmental focus of pathology is revealed, after which the above symptom complexes (corresponding to one of the possible causes of headache) are analyzed sequentially, forming them from a set of basic complex of functions. Moreover, when the amplitude and configuration features of the set of functions taken from the base complex coincide with the set of functions corresponding to one of the declared symptom complexes, a conclusion is drawn about the development of headaches of muscular, vascular arterial, venous or neurogenic nature in the pool of the vertebral or carotid artery, respectively, in the frontal , temporal-parietal or occipital areas of the head, the psychogenic nature of the headache or the presence of a tumor. Thus, when examining a patient, if a focus of pathology C or C * is detected at any segmental level, the pathogenesis of headache can be determined by the state and combination of reactions of F1-F5 functions.

Wherein:

- by the affiliation of the pathological focus to F '(n) or F' '(n), they conclude that the process develops in the pools of the vertebral or carotid arteries;

- by the affiliation of the focus to segments C or C *, a conclusion is drawn about the pathological process in the cervical segments of the spinal cord or areas of the head;

- by affiliation of the focus to the segments of the head:

C * 1-2 - to the occipital region,

C * 3-5 - to the temporoparietal region,

C * 6-8 - to the frontal or facial region of the head;

- by the affiliation of the pathological focus to function F2, with the corresponding boundary conditions, they conclude that the headache is associated with constriction of arterial vessels;

- by the affiliation of the pathological focus to the function F1, with the corresponding boundary conditions, they conclude that the headache is associated with an increase in muscle tone;

- according to the affiliation of the pathological focus to function F3, with the corresponding boundary conditions, they conclude that the headache is associated with the venous vascular deletion;

- by the affiliation of the pathological focus to function F4, with the corresponding boundary conditions, they conclude that the headache is associated with irritation of the nerve elements of the head;

- by the affiliation of the pathological focus to the F5 function, with the corresponding boundary conditions, they conclude that the headache is psychogenic or the tumor is present and refer the patient for further examination.

Example 1. Patient A. complains of constricting headaches in the area of the temples-nape, numbness of the nape of the neck, dizziness, and sometimes unsteady gait. When analyzing the source material (Fig. 5), maximum violations were recorded in the area of segments C1-2, C1 * -C2 *, subfunction F2 '. The asymmetry of F2 '(R) -F2' (L) in the segment zone is up to 3.5 values of the physiological corridor.

It corresponds:

- subfunction F2 '- arterial vessels of the branches of the vertebral artery;

- C1-2, C1 * -C2 * - the external and basilar vertebral artery, occipital region, cerebellar pool, posterior cerebral occipital branches;

- F2 '(R) -F2' (L)> 3.5 values of the physiological corridor - constriction of arterial vessels.

The conclusion was made on the constriction of arterial vessels in the pool of the external and basilar vertebral arteries in the occipital region of the head.

The patient underwent ultrasound dopplerography of the vessels of the cervical spine and brain:

1. Signs of cerebral angioedema with a diffuse increase in vascular tone in the brachiocephalic arteries and arterial spasm phenomena in the middle and anterior cerebral arteries.

2. Hemodynamic signs of asymmetry of blood flow in the vertebral arteries with a decrease in the linear velocity of blood flow in the right vertebral artery, signs of indirectness of the right vertebral artery with a decrease in speed indicators of blood flow.

3. Signs of moderate arterial spasm in the main artery.

On the roentgenogram of the cervical spine: the cervical lordosis is enlarged, the right-side curved arch, the rotational subluxation of C1 to the right and forward.

A preliminary diagnosis of the claimed method corresponds to the instrumental examination of the patient.

Example 2. Patient B. complains of constricting headaches in the forehead and back of the head, burning pains in the afternoon in the occipital bone, stiffness of the cervical spine. When analyzing the source material (Fig.7) recorded maximum violations in the field of segments C1-6, C1 * -C3 *, subfunction F1 '. The asymmetry of F1 '(R) -F1' (L) in the segment zone is up to 3.0 values of the physiological corridor. These symptoms were considered as:

- subfunction F1 '- muscle tone in the area of branches of the external vertebral artery;

- C1-6 - muscles of the cervical spine;

- C1 * -C2 * - muscles of the scalp of the occipital region;

- F1 '(R) -F1' (L)> 3.0 values of the physiological corridor - increased muscle tone.

The conclusion was made about increasing the muscle tone of the cervical spine and the occipital region of the head, associated with this headache.

The patient underwent ultrasound dopplerography of the vessels of the brain of the occipital region, X-ray examination of the cervical spine, myographic study.

On the roentgenogram of the cervical spine: rotational dysfunction of the atlas to the left, neck extension, with C1 fixation in extension.

According to a myographic study: hypertonicity of the muscles of the occipital region with a primary lesion of the rectus and oblique muscles, more on the right, with reflex compression of the occipital nerve.

A preliminary diagnosis of the claimed method corresponds to an instrumental examination of the patient.

Example 3. Patient S. complains of headaches in the temporoparietal region, heaviness in the head, the head is poured with “lead”, pressure on the eyes, dizziness when changing position. When analyzing the source material (Fig. 9), maximum violations were recorded in the region of segments C3 * -C5 *, subfunction F3 ''. The asymmetry in the zone of segments F3 '' (R) -F3 '' (L) is up to 5.0 values of the physiological corridor.

It corresponds:

- subfunction F3 '' - veins of the carotid artery basin;

- C3 * -C5 * - temporal-parietal region of the carotid middle, anterior artery;

- F3 '' (R) -F3 '' (L)> 3.5 values of the physiological corridor - dilatation of venous vessels.

The conclusion is made about the pathological dilatation of venous vessels in the temporoparietal basin of the middle and anterior carotid artery.

The patient underwent ultrasound dopplerography of the vessels of the brain of the temporal-parietal region:

1. Signs of angioedema syndrome with symptoms of mild arterial spasm in all arteries of the base of the brain.

2. Signs of the non-linearity of the course of both vertebral arteries with a decrease in the linear velocity of blood flow, more on the right. Conducting positional tests leads to an increase in the linear velocity of blood flow, more to the right, and increased venous noise in the projection of the vertebral venous plexuses - signs of moderate extravasal compression, especially on the right.

3. Signs of obstructed venous outflow across all venous collectors. Signs of venous discirculation in the middle and posterior cranial fossae.

A preliminary diagnosis of the claimed method corresponds to an instrumental examination of the patient.

Example 4. Patient D. complains of headaches in the temporoparietal region, occipital region, cervical region. The nature of the pain is shooting, burning, sometimes notes numbness, goose bumps on the scalp. Pain persistent, often recurring.

When analyzing the source material (Fig. 11), maximum violations were recorded in the area of segments C1-C2, C1 * -C3 *, subfunction F4 ''. The asymmetry in the zone of segments F4 '' (R) -F4 '' (L) is up to 3.4 values of the physiological corridor.

It corresponds:

- subfunction F4 '' - nerve elements of the neck and head;

- C1-C2, C1 * -C3 * - upper cervical region, occipital region;

- F4 '' (R) -F4 '' (L)> 3.5 values of the physiological corridor - irritation of nerve elements (roots, ganglia, nerve trunks, etc.).

The conclusion is made about the irritation of nerve elements in the area of the upper cervical segments, the occipital region of the head - headaches of a neurogenic nature.

The patient underwent ultrasound dopplerography of the vessels of the brain of the occipital region, myography, computed tomography.

According to computed tomography - no pathological changes.

On the radiograph of the cervical spine: lordosis is straightened, installation curvature to the right by C5 and C6, C1 rotationally shifted to the left and left anteriorly.

According to ultrasound dopplerography of brachiocephalic vessels:

1. Signs of angioedema syndrome with symptoms of mild arterial spasm in all arteries of the base of the brain with increased vascular tone and peripheral resistance.

2. Speed indicators of blood flow in the main and both vertebral arteries are reduced. During rotation tests, signs of extravasal compression and irritative effects are noted.

3. Signs of obstructed venous outflow across all venous collectors. Signs of venous discirculation in the middle and posterior cranial fossae. A preliminary diagnosis of the claimed method corresponds to an instrumental examination of the patient.

Example 5. Patient E. complains of headaches in the temporoparietal or frontal region on the left. Pain persistent, often recurring. At times, speech is disturbed, eyesight falls.

When analyzing the source material (FIG.13) recorded maximum violations in the field of segments C4 * -C6 *, subfunction F5-1. The asymmetry in the zone of segments F5 (R) -F5 (L) is more than 4.1 values of the physiological corridor.

It corresponds:

- subfunction F5-1 - M-cholinergic epithelial structures;

- C4 * -C6 * - frontal, temporal-parietal department;

- F5 (R) -F5 (L)> 4.1 values of the physiological corridor - a sign of a headache of a psychogenic nature or the presence of a tumor, an in-depth differential diagnosis is necessary.

The patient underwent ultrasound dopplerography of the vessels of the brain of the frontal region, computed tomography - a tumor was found in the frontal region on the left.

A preliminary diagnosis of the claimed method corresponds to an instrumental examination of the patient.

It is proposed to use the diagnostic method for a comprehensive assessment of the patient’s health status in order to identify not only the focus of somatic disease, but also the diagnosis of headache and its pathogenesis.

Experience in the practical use of the claimed method has confirmed its effectiveness and high reliability, which allow to effectively implement a set of diagnostic and therapeutic measures.

Claims (1)

A method for diagnosing headache pathogenesis, including the use of an instrumental method providing a non-invasive examination of the patient and subsequent computer analysis of the measurement results, characterized in that a computer dermography method is used, including measuring the skin electrical resistance of at least 183 microzones on both auricles and computer processing the measurement results with the output of information in the form of graphs of the distribution functions of tonic activity along the spinal cord axis d I have the system of adrenergic receptors of smooth muscle of the internal organs (F1), the arterial link of the microvasculature of the internal organs (F2), the venous link of the microvasculature of the internal organs (F3), the receptor system of the connective tissue and nervous tissue (F4), the M-cholinergic receptors of the epithelial tissue of the internal organs ( F5), with the display of the left (L) and right (R) branches of the function graphs, while using the graphs of the subfunctions F '(n), where n is from 1 to 5, the location of the pathology focus in the vertebral artery basin is established, and the graphs of the subfunction of the F '' (n) functions, the location of the focus of the pathology in the carotid pool is established, and when the focus of the pathology is located on the site of the cervical segments C1-C8, the lesion of the cervical region is diagnosed, when the focus of the pathology is found on the site of the segments of the head segments C1 * -C2 * the damage to the occipital region is diagnosed , when the focus of pathology is located on the site of the segments of the head C3 * -C5 *, the lesion of the temporoparietal region is diagnosed, when the focus of the pathology is located on the site of segments of the head segment C6 * -C8 *, the lesion of the frontal or facial area is diagnosed, cr In addition, if the difference between the left and right branches of the F2 (R) -F2 (L) function plots in the sections of the mentioned segments exceeds 1.5 values of the physiological corridor of skin electrical resistance, then constriction of arterial vessels in the focal area is diagnosed, in addition, if the difference is left and the right branches of the function graphs F1 (R) -F1 (L) in the sections of the mentioned segments exceeds 1.5 values of the physiological corridor, then an increase in the tonus of the scalp muscle elements in the focus area is diagnosed, in addition, if the difference between the left and right branches of the function graphs If F3 (R) -F3 (L) in the sections of the mentioned segments exceeds 1.5 values of the physiological corridor, then dilation of the veins in the focus area is diagnosed, in addition, if the difference between the left and right branches of the function graphs F4 (R) -F4 (L) in the areas of the mentioned segments exceeds 1.5 values of the physiological corridor, irritation of the nerve elements of the head in the area of the focus is diagnosed, in addition, if the difference between the left and right branches of the function graphs F5 (R) -F5 (L) in the areas of the mentioned segments exceeds 2.5 values physiological corridor, then psychogenic the nature of the headache or the presence of a tumor.

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