RU2260374C1 - Method and device for detecting and localizing human or animal pathological process - Google Patents

Abstract

FIELD: medicine; medical engineering.

SUBSTANCE: method involves measuring physical characteristic of body surface. Micro-vibration power is measured in rest state on the body area under study during 0.5-5 min. Device has micro-vibration transducer and spectrum analyzer connected to visual recording device. The micro-vibration transducer is designed as electronic phonendoscope having pass band of 1-300 Hz. The visual recording device records variations of total micro-vibration spectral power in time. Mean micro-vibration power is determined. Its deviation from a reference value being equal to or greater than 40%, pathological process is considered to be available in the zone.

EFFECT: high accuracy in determining vestibular dysfunction cases.

2 cl, 3 dwg

Description

The invention relates to medicine and may find application in the diagnosis of human and animal health.

Closest to the proposed is a clinical diagnostic method [1], based on a palpation study of the physical condition of the body. In this case, a comparison of many physiological characteristics is used for diagnosis. However, this method requires practical experience and good command of orthopedic and neurological examination of patients and is based on subjective assessments, which often leads to difficulties in interpreting the results of the examination and diagnostic errors.

A tremometer [2] was taken as a prototype of the device, containing angular velocity sensors and a recorder, which made it possible to measure microvibrations of the limbs (tremor) and calculate the power of the tremor. In the claimed device, instead of an angular velocity sensor, an electronic phonendoscope is used. A spectroanalyzer and a device for visual recording of signal power data obtained from a spectrum analyzer are used as a recorder.

The technical result of the present invention is to more accurately and quickly identify the localization of the pathological process in humans and animals by taking into account changes in the power of microvibrations in the study area.

The technical result is achieved by the fact that in the method for detecting the localization of the pathological process in humans and animals, based on measuring the physical characteristics of the body surface, the power of microvibration is measured for 0.5-5 min in the studied area of the body at rest, its average value is determined and deviation from the norm by 40% or more is judged on the presence of a pathological process in this zone.

The technical result is also achieved by the fact that in the device for measuring microvibration of the surface of the body of a person or animal containing a microvibration sensor and a spectrum analyzer connected to it, the microvibration sensor is made in the form of an electronic phonendoscope with a passband of 1-300 Hz, and the spectrum analyzer further comprises a device for visual registration of changes total power of the spectrum of microvibrations in time.

Engaged in the professional study of microvibration for many years, including recording it on the surface of the body of living organisms, we found that its power has a characteristic distribution in different parts of the body and depends on the state of the body: sleep, wakefulness, peace, stress. The ratio of the power of microvibrations between different parts of the body normally has a lesser dependence on the state of the body. In this regard, to objectify the obtained data, we performed measurements at rest. We found that in the presence of any pathological process in the human or animal organism, the power of microvibration in the zone of its localization increases significantly, while the increase in the power of microvibration correlates with the severity of pathological changes.

This phenomenon is the basis of the proposed method for identifying the localization of the pathological process. To implement this method, a device was created for measuring microvibrations on the surface of parts of the human or animal body.

To obtain the value of the total power of microvibrations, the value of the total power of the electric signal is multiplied by a normalization coefficient, which depends on the characteristics of the microvibration sensor and is obtained empirically as the ratio of the value of the total power of the electric signal obtained when measuring the reference microvibration source to its normalized value of the microvibration power. Then calculate the average power of microvibration and the deviation of its values from the norm judge the presence of a pathological process.

The method using the device described below is implemented as follows. An electronic phonendoscope is fixed on the examined area of the body surface, and within 0.5-5 minutes, the changes in the microvibration power are recorded over time, the average microvibration power for the studied period is calculated and by comparing its value with the physiological norm or with the value of the microvibration power in other areas of the body , where there is obviously no pathology, usually in the area of the hand (in the area of the elbow, where Korotkov’s tones are heard), a pathological process is judged.

The method and device were tested in 15 patients (volunteers) with various pathological processes (in the lungs, spine, with prostate adenoma) and in 30 healthy individuals.

For a better understanding of the method, we attach the results of measuring microvibration in volunteers, on which:

Figure 1 shows the curves of the power of microvibration over the lungs and in the arm. The lower curve (3) reflects the results of measurements made on the arm. Middle (curve 2) - in the region of the left side of the chest, upper (curve 1) - in the area of the right side of the chest. As you can see, in the area of the left side of the chest during respiration, the power of microvibration increases, and at rest it is comparable with the power of microvibration in the arm. The power of microvibration in the region of the right lung (2.25 units) at rest increased by more than 1.5 times (more than 50%) relative to the left (1.5 units), which indicated the presence of pathology. In the area of the right lung, there is no reaction to the breathing process, which also indicates the presence of pathology. According to a subsequent x-ray examination, the patient revealed a pathological focus in the right lung, which turned out to be tuberculosis.

Figure 2 shows graphs of changes in the power of microvibrations in the bladder in patients with complaints of frequent urination (three upper graphs) and in healthy people (lower graph). From the above graph it follows that the Patient Vygon has an average value of microvibration power of 7.4 conventional units, Balotin - 10 cu, and Margelov - 14 cu, which accordingly exceeds the average norm of a healthy person (3-5 cu .) 1.4, 2.0 and 2.8 times, respectively. Ultrasound examination revealed benign prostatic hyperplasia in all three patients.

Figure 3 presents a block diagram of a device for measuring microvibration of the surface of a human or animal body and for processing the obtained measured values. The device contains a sensor 1 in the form of an electronic phonendoscope with a passband of 1-300 Hz, a spectrum analyzer 2 and a visual recording device 3. Sensor 1 senses microvibration on the surface of a selected part of the body, converts it into an electrical signal, which is transmitted to a spectrum analyzer 2. The total value signal power or power in a selected frequency band from the above range is transmitted to the device for its visual registration in time and calculation of the average value. The obtained calculation results can be displayed on a computer monitor (computer) equipped with a program for processing data and / or printed in the form of graphs or tabulated data. Based on these data, a conclusion is made about the presence or absence of pathology.

Thus, the proposed diagnostic method and device for its implementation expands the scope of the method of screening assessment of health status, allows with high accuracy and quantitative assessment to identify the area of localization of pathology and the severity of the pathological process. The device was developed at Vitafon LLC (St. Petersburg), passed technical tests, tested by healthy individuals and volunteers, and is ready for release.

Sources of information:

1. I.M. Myatyashin, A.A. Olshanetsky, A.M. Gluzman. Symptoms and syndromes in surgery. 1975.

2. RF patent No. 2102922.

Claims (2)

1. A method for identifying the localization of the pathological process in humans and animals, based on the measurement of the physical characteristics of the body surface, characterized in that for 0.5-5 minutes the microvibration power is measured using the device according to claim 2, in the resting state of the body at rest, determine its average value and by deviating it from the norm by 40% or more they judge the presence of a pathological process in this zone. 2. A device for measuring microvibration of the surface of a human or animal body, comprising a microvibration sensor and a spectrum analyzer connected to it, connected with a visual recording device, characterized in that the microvibration sensor is made in the form of an electronic phonendoscope with a passband of 1-300 Hz, and a visual recording device configured to record changes in the total power of the microvibration spectrum over time.

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