RU2731315C2 - Method for diagnosing and correcting reversible disorders of the human ligamentous-muscular apparatus - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention can be used for diagnosing and correcting reversible disorders of the ligamentous-muscular system. Diagnosis of reversible disorders of the ligamentous-muscular apparatus of the body is performed by combined oscillating testing of two types of manual actions. State of elasticity of the structural elements of the tissue is evaluated by exposing the arms simultaneously to opposite and reciprocal directions, the exposure is carried out with a high amplitude, using low rate of movement transfer. Interstitial fluid viscosity state is assessed by simultaneously exposing unidirectional and reciprocating hand movements, transmitting joggling shaking movements of the tested tissues, the exposure is performed in a low-intensity amplitude range, and the transfer rate of the shock transfer effects to the tissues is high. State of elasticity of structural tissue elements is assessed by the biomechanical reaction of the examined tissues to deforming effects. Interstitial fluid viscosity state is evaluated by the biomechanical response of the examined tissues in response to the shaking effects. Determining said elasticity and viscosity properties is carried out from data obtained in tactile sensations, perceived by a doctor through the receptor apparatus of their own hands, by which violations are detected. Procedure for correction of the revealed ligamentous and muscular disorders of the body is performed by certain, as indicated above, to tactile sensations and performed by repeated combined oscillatory manual effects on tissues, during which dynamics of changes are controlled, occurring separately in a state of elasticity of structural elements of tissue and viscosity of interstitial fluid. Correction procedure is completed when positive dynamics of elasticity of structural elements of tissue and viscosity of interstitial fluid are achieved.

EFFECT: method provides diagnosing and correcting reversible disorders of the human ligamentous-muscular apparatus.

1 cl, 1 ex

Description

The invention relates to medicine, namely to methods for diagnosing and correcting reversible disorders of the viscoelastic properties of body tissues using external influences, in particular, manual methods of interaction with tissues. The invention can find application in solving many medical problems associated with the diagnosis and restoration of reversible disorders in body tissues.

In the practice of diagnostic examinations carried out in order to analyze the state of various tissues of the body, methods are known based on manual influences and analysis of the displayed response. For example, percussion is widely used. According to the percussion method, the audible sounds in the tissues, which occur when tapping the examined parts of the body, are analyzed. Sounds are associated with the location of the examined tissues in the body and their condition, and are determined by the strength and direction of the vector of the force of impact transmitted to the tissues when tapped, and depend on the physical state of the surrounding tissues through which they propagate. The main properties of tissues that affect sound manifestations include the state of aggregation, density and homogeneity of tissues, the elastic state of structural elements of tissues, mechanical stress in them, the state of viscosity of the interstitial fluid, and others. In addition, the degree of tissue relaxation affects the amplitude-frequency characteristics of the sound response. The percussion method is used to examine different parts of the body, organs and tissues, and at the same time, corresponding specific sound responses can be manifested. By the nature of the sounds, diagnostic signs are revealed, in some cases allowing to identify areas with disorders in the tissues. However, the method does not allow analyzing the state of elasticity of the structural elements of tissues and the viscosity of the interstitial fluid.

The known method of ultrasonic scanning of tissues. However, it also does not allow distinguishing changes in the state of the tissue associated with the properties of elasticity of structural elements of tissues and the viscosity of the interstitial fluid, and identifying disorders associated with their changes, for example, with state changes associated with sol-gel transitions in the interstitial fluid.

There are known methods of carrying out therapeutic procedures in which manual massage techniques are used as external influences on body tissues. Massage is used in various cases of disorders in the tissues of the body, and in this regard, it is a universal method of therapy, including a variety of techniques. However, the disadvantage of massage is the lack of control of the visco-elastic state of tissues, which include the components responsible for the state of elasticity of the structural elements of tissues and the state of viscosity of the interstitial fluid, which affect metabolic processes.

The known method of vibrotherapy, carried out in the same way by creating external influences on the tissue. Vibrotherapy is used to prevent and treat a variety of health problems, which has made the method popular. Conventionally, there are two main aspects that determine the effect of vibromassage exposure:

- influence on tissues directly in contact with the source of vibration;

- reflex response of organs and tissues associated with the zone of vibration.

The local effect of vibration is expressed in improving blood flow and lymph outflow, accelerating metabolic processes. The nature of the reflex effect depends on the vibration frequency. Vibration massage with a frequency of 10-50 Hz causes relaxation of smooth muscle fibers in the walls of blood vessels and improves blood circulation, lowers blood pressure, and decreases heart rate. Vibration massage with a frequency of 50-200 Hz, on the contrary, has a tonic effect on the cardiovascular and nervous systems. Regardless of the frequency, vibration massage leads to a weakening, or complete cessation of pain.

The disadvantage of using vibrotherapeutic effects on body tissues is the lack of control during the procedure over the change in the visco-elastic state of the examined tissues. For this reason, the exposure parameters can be excessive or insufficient, and therefore lead to an uncontrolled change in metabolic processes in the cells and tissues of the body, and to a violation of the state of the body.

The closest in technical essence to the claimed invention are methods of diagnosis and therapy based on manual influences produced by the methods of osteopathic treatment. They are used on different parts of the body and body tissues. Known methods [1, 2] produce manual effects, while diagnosing disorders in tissues, and conduct therapy, restoring (normalizing) the condition of metabolic processes in the tissues. An important feature of osteopathic methods of diagnosis and therapy is the use of the tactile and mechanoreceptor apparatus of the osteopath's doctor's hands, the analytical-synthetic abilities of his brain and practical experience. This combination allows, due to the highly sensitive receptor apparatus, to perceive and analyze the changes occurring in the process of manual influences and to identify disorders in the tissues, to take expert diagnostic conclusions and to determine the methods of therapy. Therapeutic osteopathic effects, as a rule, are used to improve fluid-metabolic processes in tissues, by improving blood and lymph circulation in tissues, and improving tissue mobility. However, when diagnosing and treating by known methods of osteopathic treatment, the changes in the viscoelastic state of the tissues are not controlled during the exposure, namely, the state of elasticity of the structural elements of the examined tissues and the state of viscosity of the interstitial fluid do not appear separately. This disadvantage is common with respect to the known osteopathic methods, as a result of which their use can lead to uncontrolled changes and disruption of metabolic processes in tissues, and deterioration of health.

The aim of the invention is to create a method for the diagnosis and correction of reversible disorders of the visco-elastic properties of body tissues, carried out by manual oscillatory interaction with the examined tissues, during which the state of elasticity of the structural elements of the tissue and the state of viscosity of the interstitial fluid are differentiated and evaluated separately.

The problem to be solved by the claimed technical solution is the creation of a procedure for manual oscillatory interaction with the examined tissues of the body, a feature of which is the creation of conditions under which the component of elasticity of the structural elements of the tissue and the component of viscosity are differentiated from the integral manifestation of the visco-elastic state of the tissues of the examined area of the body. interstitial fluid, according to the assessment of which the diagnosis and correction of reversible disorders is carried out.

The technical result that can be obtained by implementing the proposed method consists in obtaining data on the visco-elastic state of the examined tissues, and differentiated by two components, according to the elasticity of the structural elements of the tissue and the viscosity of the interstitial fluid, according to which diagnostics and control of changes during correction identified violations.

The solution to the problem and the technical result is achieved by the fact that in the method of diagnosing and correcting reversible disorders of the ligamentous-muscular apparatus of the body, carried out by combining the hands and body of the doctor's body with the examined tissues of the patient into a biomechanical system, the manual interaction with the tissues is carried out under the control of the tissue reaction to the effects , at the same time, conditions are created under which the biomechanical properties of elasticity of structural elements of tissue and viscosity of interstitial fluid are differentiated from the integral property of the visco-elastic state of the examined area of the body. For this, when interacting with tissues, a series of combined oscillating effects on tissues is used, with both hands gripping the examined areas of the body, and at the same time transmitting to the tissues two types of testing manual movements differing in qualitative and quantitative characteristics.

The state of elasticity of the structural elements of the tissue is tested by creating a condition that differentially exhibits the elastic component of the structural elements of the tissue. Qualitative signs of manual testing movements are characterized by simultaneous counter and reciprocating hand movements, leading to shear deformation and twisting of the structural elements of the tissue.

The viscosity state of the interstitial fluid is tested by creating a condition that differentiates the viscosity component of the interstitial fluid. Qualitative signs of manual testing movements are characterized by simultaneous unidirectional and reciprocating hand movements, creating jolting, shaking movements of the examined tissues, contributing to thixotropy of the interstitial fluid.

Both types of testing influences differ in the amplitude range of influences and in the speed of the movements produced. The manifestation of the property of elasticity of the structural elements of the tissue is carried out in the amplitude range of large-amplitude impacts, with the calculation of the transfer of deforming shifts to the tissues within the boundaries of the girth zone of the examined tissues, but not exceeding the level of amplitudes at which the tissues after exposure do not retain the state of reversible recovery to the state preceding deformation. The speed of transmission of movements is used low, with the calculation of the transfer of deforming shifts to the tissues, excluding the inertial manifestation of the opposing response of the structural elements of the tissue. Impacts with such characteristics create reversible shear and torsion deformations and allow sensations to perceive the opposition from the structural elements of the tissue, due to the property of their elasticity, assessed by the manifested biomechanical response to deforming effects. For the manifestation of the viscosity property of the interstitial fluid, a low-intensity amplitude range of effects is used, and the speed of transmission of movements is selected to be large, with the calculation of the transfer of jerky shaking effects to the tissues. Such influences on the examined tissues create a condition that contributes to a change in the viscosity of the interstitial fluid, assessed by the manifested biomechanical response in response to shaking.

Evaluation of the indicated properties of elasticity and viscosity, manifested in a procedure with manual exposure, is based on data obtained from the analysis of tactile sensations perceived by a doctor through the receptor apparatus of his own hands. By sensations, changes are revealed, accompanied by a separating manifestation of the analyzed properties, separately according to the property of elasticity of the structural elements of the tissue and the property of viscosity of the interstitial fluid. To assess them, an analysis of the individual norm of the state of elasticity of the structural elements of the tissue and the viscosity of the interstitial fluid, determined by the doctor expertly and experimentally, using the well-known recommendations for osteopathic examinations, is additionally used [3]. Based on the totality of the data obtained during the examination, a diagnostic conclusion is made about the revealed violations in the examined tissues, separately according to the state of elasticity of the structural elements of the tissues and the state of viscosity of the interstitial fluid, or a diagnostic conclusion is made about the compliance with the individual norm and the absence of violations.

Correction of the revealed violations of the viscoelastic properties of body tissues is carried out by repeating a series of combined oscillating effects on tissues with identified disorders. At the same time, the changes occurring during the impacts are analyzed, also separately according to the state of elasticity of the structural elements of the tissue and the change in the state of viscosity of the interstitial fluid. Correction of the revealed violations of the viscoelastic properties of tissues is completed when a positive dynamics of changes in the state of elasticity of structural elements of the tissue and the state of viscosity of the interstitial fluid achieved during the testing impacts is achieved. Either complete in the absence of positive dynamics, or the identification of negative side effects.

Comparative analysis of the proposed method with the prototype [2] shows that the proposed method has common features with the prototype:

- carried out using manual methods of influencing the body areas with the examined tissues;

- carried out with the aim of obtaining data, both during diagnostic examinations and during the correction of identified violations;

- the doctor makes manual influences by combining his hands and body with the patient's tissues being examined into a biomechanical system;

- upon exposure, the physician controls the tissue response to exposure.

The inventive method differs from the prototype in new features:

- when interacting with the examined tissues, conditions are created that allow, in the integral visco-elastic state of the examined area of the body, to differentiate the biomechanical properties of the elasticity of the structural elements of the tissue and the viscosity of the interstitial fluid;

- interaction with tissues is carried out by creating a series of combined effects simultaneously with two hands, with a girth of the examined areas of the body, and at the same time transferring to the tissues two types and parameters of testing manual movements differing in qualitative and quantitative characteristics;

- the state of elasticity of the structural elements of the tissue is tested by creating a condition that differentially exhibits the elastic component of the structural elements of the tissue; qualitative signs of manual testing movements are characterized by both counter and reciprocating hand movements, leading to shear deformation and twisting of the structural elements of the tissue;

- the state of the viscosity of the interstitial fluid is tested by creating a condition that differentiates the viscosity component of the interstitial fluid; Qualitative signs of manual testing movements are characterized by simultaneously unidirectional and reciprocating hand movements, creating jolting shaking movements of the examined tissues, contributing to thixotropy of the interstitial fluid;

- both types of testing influences differ in the amplitude range of influences and in the speed of the movements produced;

- the manifestation of the elasticity property of the structural elements of the tissue is carried out in the amplitude range of large-amplitude impacts, with the calculation of the transfer of deforming shifts to the tissues within the boundaries of the girth zone of the examined tissues, but not exceeding the level of amplitudes at which the tissues after exposure do not maintain a state of reversible recovery to the state preceding deformation; the speed of transmission of movements is used small, with the calculation of the transfer of deforming shifts to the tissues, excluding the manifestation of inertia of the counteracting response of the structural elements of the tissue; impacts with such characteristics lead to reversible deformations of shear and torsion and the manifestation of resistance from the structural elements of the tissue, due to the property of their elasticity, assessed by the manifested biomechanical reaction to deforming effects;

- for the manifestation of the viscosity property of the interstitial fluid, a low-intensity amplitude range of effects is used, and the speed of movement is used large, with the calculation of the transfer of jerky shaking effects to the tissues, contributing to a change in the viscosity of the interstitial fluid, assessed by the manifested biomechanical reaction in response to shaking;

- the assessment of the state of elasticity of the structural elements of the tissue and the state of viscosity of the interstitial fluid is carried out in the course of actions according to the tactile sensations perceived by the doctor through the receptor apparatus of his own hands, reflecting changes accompanied by a separating manifestation of changes in the elasticity of structural elements of the tissue and changes in the viscosity of the interstitial fluid;

- in assessing the properties of the elasticity of the structural elements of the tissue and the viscosity of the interstitial fluid, data are additionally used on the individual norm of the patient's tissue condition, obtained by the doctor expertly and empirically, according to the well-known recommendations for osteopathic examinations;

- a diagnostic conclusion about the compliance with the individual norm, or the violations identified in the tissues is made according to the totality of data, separately according to the state of elasticity of the structural elements of the tissue and the state of viscosity of the interstitial fluid;

- correction of the revealed violations of the viscoelastic state of tissues is carried out by creating repeated series of combined oscillating effects on tissues with identified violations; at the same time, the changes occurring during the impacts are analyzed, also separately according to the state of elasticity of the structural elements of the tissue and the change in the state of viscosity of the interstitial fluid;

- the correction of the revealed violations of the viscoelastic state of tissues is completed when positive dynamics are achieved in changing the elasticity of the structural elements of the tissue and the viscosity of the interstitial fluid, achieved during testing, or in the absence of positive dynamics, or the manifestation of negative dynamics.

From the above list of features of the proposed method and the way to achieve the set task, it is clearly seen that the claimed technical solution is represented by a new set of features, as a combination of known and new features that provide a new technical result, unknown on the date of application. A new technical result, which can be obtained by implementing the invention, is to expand the possibilities of interaction with the examined tissues by manual techniques that allow obtaining data for a diagnostic conclusion and correction of reversible disorders of the ligamentous-muscular apparatus of the body.

The practical use of the proposed method for the diagnosis and correction of reversible disorders of the ligamentous-muscular apparatus of the body is illustrated by an example.

A 37-year-old man with subjective complaints of pain during movements involving the ligamentous-muscular junction in the shoulder-blade region of the right arm, and of limiting the range of hand movements. Pain sensations, according to the patient's data, arose and are associated with an overdose of load during sports training, carried out a week before seeking medical osteopathic care. Diagnostic examination and correction of the revealed violation were carried out by the claimed method. For this, during manual interaction with the tissues of the shoulder-scapular region of the patient's right arm, conditions were purposefully created that differentiated the manifestation of the state of elasticity of the structural elements of the tissue and the viscosity of the interstitial fluid. In interaction with the tissues, a series of five combined oscillating influences was used, with the doctor grasping the shoulder-shoulder region of the patient's right arm with both hands. At the same time, two types of testing manual movements differing in qualitative and quantitative characteristics were transmitted to the tissues. One type of movement was performed simultaneously with both hands in oppositely and reciprocating directions, which resulted in the action of reversible shear and torsion deformities on the structural elements of the tissues of the shoulder-blade region. The state of elasticity of the structural elements of the tissue was assessed by the manifested biomechanical reaction to the deforming effects of the examined shoulder-blade region of the hand. Another type of movement was also performed simultaneously with both hands in reciprocating directions, but unidirectionally, and was accompanied by the effect of shaking jerky movements on the tissues, promoting thixotropy of the interstitial fluid. Both types of testing influences differed in the amplitude range of the effects and in the speed of the movements performed. The manifestation of the elasticity property of the structural elements of the tissue was carried out in the amplitude range of large-amplitude impacts, with the calculation of the transfer of deforming shifts to the tissues within the boundaries of the shoulder-shoulder area, but not exceeding the level of amplitudes at which the tissues after the impact would not maintain a state of reversible recovery to the state preceding deformation; the speed of transfer of movements was low, with the calculation of the transfer of deforming shifts to the tissues, excluding the manifestation of the inertia of the counteracting response of the structural elements of the tissues of the shoulder-blade region. Impacts with such characteristics lead to reversible deformations of shear and torsion and the manifestation of counteraction from the structural elements of the tissues of the shoulder-blade region, due to the property of their elasticity, assessed by the manifested biomechanical response to deforming effects. For the manifestation of the viscosity property of the interstitial fluid, a low-intensity amplitude range of effects was used, and the speed of movement was used high, with the calculation of the transfer of jerky shaking effects to the tissues. Such effects on the examined tissues create a condition that contributes to a change in the viscosity of the interstitial fluid, assessed by the manifested biomechanical response in response to shaking of the shoulder-scapular region. The assessment of the viscosity of the interstitial fluid of the tissues of the shoulder-scapular region was carried out according to the manifestation of its changes in response to shaking. The specified properties of elasticity and viscosity during exposure were assessed using data obtained by analyzing tactile sensations perceived by a physician through the receptor apparatus of his own hands. By sensations, changes were revealed, accompanied by a differentiated manifestation of the analyzed properties separately of elasticity and viscosity. To assess them, we additionally analyzed the individual norm of the state of elasticity of the structural elements of the tissue and the viscosity of the patient's interstitial fluid, determined by expert-experience, according to the well-known recommendations for osteopathic examinations. Based on the totality of the data obtained during the examination, a diagnostic conclusion was made on the identification of disorders in the ligamentous-muscular junction of the shoulder-blade region of the right hand, separately according to the state of elasticity of the structural elements of the examined tissues and according to the viscosity of the interstitial fluid. Based on the diagnostic conclusion, the revealed violations of the viscoelastic properties of the tissues of the shoulder-scapular region were corrected, including four repeated series of combined oscillatory effects on the tissues. At the same time, the changes taking place were analyzed separately according to the state of elasticity of the structural elements of tissues and according to the state of viscosity of the interstitial fluid, and taking into account expert and experimental data, including the age characteristics of the patient. The procedure for correcting the revealed violations of the viscoelastic properties of tissues was completed with the manifestation of positive dynamics of changes in the elasticity of the structural elements of the tissue and the viscosity of the interstitial fluid. According to the patient, as a result of the diagnostic examination and correction of the identified disorder, pain in the ligamentous-muscular junction of the shoulder-scapular region of the right hand significantly decreased, and the range of painless range of motion performed in all joints of the right hand expanded. In the recommendation of the attending osteopath, a follow-up visit was scheduled in six days, or at any time earlier than this period, if there were complaints of a painful condition. The diagnostic examination at the next visit showed the restoration of the viscoelastic state in the area of the musculo-articular humeral-shoulder joint of the right arm.

Thus, the claimed technical solution "Method for the diagnosis and correction of reversible disorders of the ligamentous-muscular apparatus of the body" ensures the achievement of the set goals and obtaining a new technical result.

Sources of information taken into account

1. Artemov V.G. Patent RU 2296550, published: 10.04.2007 Bull. No. 10.

2. Novoseltsev S.V. Introduction to Osteopathy. Soft tissue and joint techniques. A practical guide for doctors. - SPb .: Foliant, 2009.

3. Osteopathic diagnosis of somatic dysfunctions. Clinical guidelines, 2014.

Claims (6)

A method for diagnosing and correcting reversible disorders of the ligamentous-muscular apparatus of the body, including manual effects on tissues by grasping the examined area with both hands of a doctor, control of manual effects on tissues and control of tissue response to the effect, characterized in that the diagnosis of reversible disorders of the ligamentous-muscular apparatus of the body is carried out by combined oscillating testing of two types of manual influences: at the same time, the state of elasticity of the structural elements of the tissue is assessed by simultaneously affecting the opposite and reciprocating directions of hand movement, while the effects are carried out with a large amplitude, in the calculation of the transfer of deforming shifts to the tissues, not exceeding the range of amplitudes in which, after exposure, the tissues are not reversibly restored to the state prior to exposure, while using a low speed of transmission of movements, assess the state of viscosity of the interstitial fluid by acting simultaneously with unidirectional and reciprocating directions of movement of the hands, transmitting jolt shaking movements to the examined tissues, while the effects are carried out in a low-intensity amplitude range, and the rate of transfer of jerk shaking effects to the tissues is created high, the state of elasticity of the structural elements of the tissue is assessed by the manifested biomechanical reaction of the examined tissues to deforming effects, the state of the viscosity of the interstitial fluid is assessed by the biomechanical reaction of the examined tissues in response to shaking effects, the determination of the indicated properties of elasticity and viscosity is made according to the data obtained in tactile sensations perceived by the doctor through the receptor apparatus of one's own hands, by which violations are detected, the procedure for correcting the revealed disorders of the ligamentous-muscular apparatus of the body is carried out according to certain tactile sensations, as indicated above, and is carried out by repeated combined oscillating manual influences on the tissues, during which the dynamics of changes that occur separately in the state of elasticity of the structural elements of the tissue and the viscosity of the interstitial fluid are controlled, the correction procedure is completed when a positive dynamics of changes in the elasticity of the structural elements of the tissue and the viscosity of the interstitial fluid is achieved.