RU57101U1 - DEVICE FOR DETERMINING THE SPEED OF THE WAVE PROPAGATION IN THE ARTERY - Google Patents

Abstract

The proposed solution relates to medicine, in particular to equipment for measuring the speed of blood flow through the arteries and determining the propagation velocity of the pulse wave in the arteries of the elastic and muscle type. The technical task of the proposed solution is to increase the accuracy of measurements and simplify the design of devices for similar purposes. The specified technical problem is achieved by the fact that the device contains several sensors connected to the signal converter, the sensors themselves are made electronic and connected to the generator through the converter with a visual image of the signal and its recording on all types of material. Using the proposed technical solution will improve the quality of measurements, reduce the time of measurements, and the device itself is made more compact and convenient in use compared to known devices of a similar purpose.

Description

The proposed solution relates to medicine, in particular to devices for measuring the speed of blood flow through the arteries and determining the propagation velocity of the pulse wave through the arteries of the elastic and muscle type.

A device for determining blood flow velocity is known, comprising a sensor, an signal generator is connected to its input, and an amplifier connected to a filter and a level indicator is connected to the output, and a control signal shaper connected to a generator, a mixer and a frequency meter connected to the filter are additionally introduced into it (see copyright certificate No. 1480811 according to class A 61 B 8/06 for 1989)

The disadvantage of the described device is its complex design and a significant error in measuring the propagation velocity of the impulse wave because the sensor is installed in one place and captures the values due to the angular displacements of the main and reflected signals. In this case, the reflected signal comes from the fluid, which is applied to the patient’s body in the place where the sensor is attached. In addition, it is required to carry out measurements several times at different frequencies of the generator, since all systems of the device perceive only one frequency range and inaccurate measurements are made.

Also known is a device for determining the propagation velocity of a pulse wave, containing several

mechanical membrane sensors, a signal amplifier and a signal conversion generator connected to a signal recording unit on paper. Sensors during measurement are installed in several places, for example, on the brachial, carotid and femoral arteries connected to the signal amplifier, the recording unit is made in the form of an electromagnetic indicator, the recorder is fixed to its output. (see Savitsky apparatus, 1956)

The disadvantage of this device is that the measurement accuracy is low because the sensors are attached to the body poorly, they tend to receive all sounds together, which ultimately affects the measurement accuracy.

The technical task of the proposed solution is to eliminate these shortcomings, improve the accuracy of measurement and simplify the design of devices for measuring the propagation velocity of the pulse wave through the arteries of elastic and muscle type.

The specified technical problem is achieved by the fact that in the proposed device for determining the speed of wave propagation through the artery, containing several mechanical sensors installed on the patient’s body, mainly on the brachial, carotid and femoral arteries, a signal generator connected to the sensors and a recording and visual image recording unit for pressure measurement in the artery, while the sensors are made electronic and connected to the signal generator through a converter, and the sensors are made of piezoelectric.

Figure 1 - schematically shows a General view of the proposed device.

As shown in the drawings, the proposed device contains several sensors 1 connected to the transducer 2, which is directly connected to the generator 3. The output from the generator 3 is divided into two circuits, one of which is connected to a digital indicator 4, and the other to a mechanical recorder 5. All nodes

in addition to sensors 1 are located in the housing 6, and the device itself can be moved to any place.

The work of the proposed device is as follows. When measuring, the entire device is brought to the patient and installed in a convenient location. Then all the sensors 1 are fixed on the patient’s body in the places of passage of the brachial, carotid and femoral arteries using one of the known methods, for example, using vacuum clamps. Then the power of the device is turned on and the device is working. From each of the sensors 1, the signals from the pulsation of the blood flow are transmitted to the transducer 2, which is adjusted to a certain level of sound and pulse vibrations. The received signals are processed, amplified or attenuated, and only after that the received signals are transmitted to the generator 3. In the generator 3, the signal is divided into two parts, one of which is displayed on the indicator 4 in the form of digital values for visual viewing, and the other enters the recorder 5 and it constantly records the received signals on a tape, cassette or disk directly for the entire measurement cycle. After the measurement is completed, the recorded information is removed from the device and processed on special equipment outside the proposed device. Then the device’s power is turned off, the sensors are removed from the patient’s body and the whole device is either transported to another place or installed on the body of another patient and the process is repeated.

Placing the sensors in various parts of the body and making them electrical allows you to tune them to a specific frequency and completely eliminate extraneous vibrations, and the difference in their location from the converter is more fully synchronized by the converter's electronic systems and provides enough information to the generator.

Using the proposed device will improve the quality of measurement, reduce the time for measurements and not

reflects on the well-being of the patient during the measurement process. The device itself is made compact, convenient for transportation and safe during use in comparison with known structures of a similar purpose.

Claims (2)

1. A device for determining the speed of wave propagation through an artery, containing several sensors installed on the patient’s body, mainly on the brachial, carotid and femoral arteries, a signal generator connected to the sensors and a recording unit and image of the pressure changes in the arteries, characterized in that the sensors made electronic and connected to the converter, and the electrical signal converter is connected to the input of the generator. 2. The device according to claim 1, characterized in that the sensors are piezoelectric.