RU2224225C2 - Meter measuring change of temperature of tissue in process of physical-therapy - Google Patents

Abstract

FIELD: medical equipment. SUBSTANCE: meter can find use in physical-therapy where temperature control of organs and tissues of organism of man coupled to change of temperature of tissues of body under physiotherapeutic action is important. Meter measuring change of temperature of tissue during physical-therapy treatment incorporates parameter sensor and indicator. Ii is supplemented with antenna of invasive or applicator type, radio thermometer, unit determining rate of temperature change and parametric adapter. Double-coordinate recorder is utilized in the capacity of indicator. EFFECT: increased accuracy of control over heat condition in zone of physical-therapy action. 1 dwg

Description

 The invention relates to medical equipment and can be used in physiotherapy, where as a result of exposure to changes in the temperature of body tissues, temperature control of organs and tissues of the human body is necessary.

 A device for remote monitoring of the condition of patients [Patent RU 2048790, IPC A 61 V 5/05], comprising a central control panel consisting of a computer with input and display information devices, respectively, an electromagnetic signal receiver, an electromagnetic signal transmitter and biological parameter recorders ( for example, biopotentials, temperature, pressure, etc.) located on patients.

 The disadvantage of this device is the inability to control the biological parameters of the internal tissues and organs of the patient’s body.

 A known apparatus for cooling and warming the brain [Copyright certificate 904695, IPC A 61 F 7/12], comprising a helmet for cooling the brain, a software device, an automatic control unit, a feedback sensor for adjusting the opening angle of the actuator, actuator, device refrigerant supply, a unit for regulating the heating of the refrigerant and providing a signaling of the refrigerant level, a comparison unit, a measuring unit, a recording system of the heating process, a digital indicator, computers, sensors ki of temperature, one of which is mounted in a helmet, an electronic thermometer for six branches, an electric heater designed to heat the brain. A distinctive feature of the device is the maintenance with high accuracy of the specified rate of cooling or heating of the brain during therapeutic or surgical intervention.

 The described apparatus makes it possible to control only the temperature of the brain and does not allow dynamic monitoring of other physical parameters.

Known non-contact medical thermometer TBM-1 [Kovrikova L.Ya., Tarutin I.G., Zhavrid E.A., Martinkov E.G., Kovrikov A.D. Non-contact medical radiation IR thermometers // Proceedings of the All-Union Conference "Methodological Issues of Determining the Temperature of Biological Objects by Radiophysical Methods. USSR Academy of Sciences, M., 1985, p. 76], intended for diagnostic purposes, which is structurally made in a" pistol-shaped "case and It is placed in the operator’s hand.The main technical characteristics of the device are as follows:
- the range of measured temperatures 28-45 ^o With a sensitivity of 0.1 ^o C;
- field of view 0.7x0.7 cm with the distance of the input lens of the opening of the thermometer to the object 30 cm;
- it is protected from the influence of external electromagnetic (EM) fields in the range from 1 to 3000 MHz with an intensity of up to 1500 V / m.

The disadvantage is the large instrumental error, reaching 0.2 ^o With the lack of registration of measurement results.

There is a known modification of a radiothermometer for determining the temperature reaction of human body tissues to ultrasound irradiation [Troitsky BC, Zubov MM, Rakhlin VL, Kovalenko TA, Kochetova NV, Razvozova EP The study using a radiothermometer of the temperature reaction of human tissues to ultrasonic irradiation // Proceedings of the All-Union Conference "Methodological issues of determining the temperature of biological objects by radiophysical methods. AN USSR, M., 1985, p.142]. The main parameters of the radiometer are as follows:
- an operating frequency of reception of 500 MHz, with a bandwidth of 50 MHz;
- the fluctuation threshold of sensitivity in temperature is not worse than 0.025 ^o C, with a constant integration time of 4 s;
- The applicator antenna sensor has dimensions of 4x4 cm;
- accuracy of measuring deep temperatures ± 0.1 ^o C.

Measurement of the temperature of tissues subjected to ultrasonic treatment with the UTP-1 serial device at a frequency of 880 kHz with a radiation density of about 0.5 W / cm ² showed a noticeable reaction both downward and upward. The impact of ultrasound on living human tissue much more often causes a decrease in its temperature, which is associated with a weakening of metabolism. The observed decrease in temperature (hypothermia) is explained by a decrease in heat production by tissue cells. Living tissue under the influence of an ultrasonic treatment procedure (ultrasound radiation density of not more than 0.5 W / cm ² ) is cooled to 0-0.6 ^o C, and this state of hypothermia persists for up to 20 min after completion of the procedure. For some pathologies, the corresponding features of the temperature reaction are recorded.

 The disadvantage of this device is the inability to obtain data on the temperature of small sections of human tissues of internal localization.

 A known meter used in the system for monitoring and stabilizing the temperature of samples (ACS) in the study of the dependence of the properties of a substance on temperature, for widespread use, including medicine and biology. The accuracy of measuring temperature with a meter is not worse than 0.1 K.

 The device includes individually calibrated diode sensors, a switch, a source of measuring currents, an input-output register, a digital voltmeter, a digital-to-analog converter (DAC), an IBM PC class computer, a pulse-width modulator, a pulse generator, a dial indicator, calibrated in degrees Kelvin, a differentiator circuit used to measure the rate of change of temperature, i.e., the output voltage of this circuit is proportional to dT / dt. The rate of temperature change is shown by another pointer device in the range from -5 to +5 K / min.

 The disadvantage of the meter is that it is limited to measurements of the surface temperature of the body and only at the contact points of the sensors.

Also known is a three-channel noise-protected temperature meter, which is part of the Yacht-3 installation for local EM hyperthermia of malignant neoplasms [Electronic industry, 6, 1989, p. 58 and 59]. The temperature meter is designed for the complex treatment of malignant neoplasms of the skin, soft tissues of the neck and abdominal organs, larynx, esophagus, rectum, cervix, etc. The temperature meter is characterized by simplicity in management and maintenance, the presence of intermediate memory cells and the synchronous processing of signals from the temperature sensor . The temperature meter includes the following nodes and blocks:
- A microwave generator with an operating frequency of 915 MHz and an output power of 5 to 180 W;
- automatic control unit to maintain the required temperature in the irradiated human tissues;
- interference-free three-channel temperature meter with needle and catheter sensors;
- contact irradiators with built-in water cooling, which avoids overheating of the surface layers of tissue during irradiation.

The disadvantages of this device are:
- the ability to measure only contact temperatures;
- the need to use needle-type and catheter sensors, the installation of which brings the patient additional unpleasant and painful sensations.

 A device is known [Copyright certificate SU 1388026, IPC A 61 F 7/00], comprising a temperature change rate measuring module, consisting of a power source, a control unit, an intensity adjustment unit, a time setting unit and an exposure control unit, thermoelectric modules. Thermoelectric modules are fixed with an elastic base on the patient's body.

 Thermoelectric modules contain temperature sensors, which are a chain of series-connected differential thermocouples. The use of the module provided an increase in the effectiveness of the contrasting temperature effect by controlling the rate of temperature change with an increase in the cooling or heating rate.

 The disadvantage of this device is its inertia, due to the large size and massiveness of thermoelectric modules. In addition, only the temperature in the area of contact with the patient’s body is measured.

Known two-channel portable digital thermometer ATT-2000 with the ability to transfer data to a personal computer. The device works with any standard thermocouples and has good measurement accuracy. The device is equipped with a number of additional functions, including displaying the maximum and minimum values during the measurement, determining the temperature difference, the speed of temperature measurement in time (degrees Celsius per minute). Technical characteristics of the device:
- measuring range -50 ... 1230 ^o С, error (excluding thermocouple error) ± (0.75% + 1 ^o С), double high-contrast LCD display with a digit height of 13 mm, measurement of temperature difference and speed of temperature measurement ( ^o C / min), a single measurement time of 0.4 s, a power supply of 9 V from the battery, a current consumption of 4.8 mA, a mass of 240 g, and dimensions of 180x72x32 mm.

 The disadvantage of the thermometer is the low accuracy of measurements in the temperature range characteristic of medicine and biology, the speed limit of the value of one measurement of 0.4 s, which means that only slowly proceeding processes are available for control.

 In all these cases, either the value of the temperature itself or its change is measured. However, the temperature of the tissues of the irradiated area of the body is not an exhaustive and fully objective characteristic for a medical opinion in choosing a physiotherapy regimen.

 Closest to the claimed device is a module for measuring temperature in the form of a radiometric receiver, described in the invention SU 1678390 A1, IPC A 61 N 1/40 from 09/23/91, which relates to medical equipment and can be used in oncology in the treatment of malignant tumors human internal organs. The module contains two circular antenna arrays, one installed on the patient and the other on the phantom of the irradiated human organ, with dielectric parameters identical to the tissues of the diseased organ, connected to the inputs of two radiometric receivers connected to the inputs of the comparison circuit connected to the temperature indicator.

The disadvantages of this device are:
- the inability to increase the degree of localization of temperature measurement;
- lack of registration of temperature changes.

 The objective of the invention is to improve the accuracy of control over the thermal regime in the zone of physiotherapy.

 The essence of the invention lies in the following: an antenna, a radiothermometer, an indicator, a determinant of the rate of change of temperature and a parameter sensor connected in series through a parametric adapter are used in a measuring instrument for changing tissue temperature during physiotherapy; moreover, a two-coordinate recorder and a parameter sensor applied to the subject are used as an indicator the area connected by the adapter, in which the parameter range of the parameter is changed to the dynamic range of the corresponding time recorder recorders.

 In addition, a meter with the above characteristics is claimed, for which a frequency meter is used as a parameter sensor, or a power meter for ultrasonic vibrations, or a laser power meter depending on the type of exposure.

 The invention is illustrated using a block diagram, where: 1 - antenna; 2 - radiometer; 3 - determinant of the rate of change of temperature; 4 - two-coordinate recorder; 5 - parametric adapter; 6 - parameter sensor.

 The connection of the elements in the block diagram is as follows.

 The applicator antenna 1 is superimposed on the exposed part of the patient’s body with the working surface, the output of the antenna 1 is connected through the waveguide connector to the input of the radiometer 2, the output of the radiometer 2 is connected to the input of the temperature change detector 3, which is connected in series to the input of one of the coordinates of the recorder 4, the second input recorder 4, corresponding to a different coordinate, is connected to the output of the parametric adapter 5, the input of which is connected in series to the output of the parameter 6 sensor.

 The operation of the meter is as follows.

 The device is connected to a secondary power source or an autonomous galvanic source, which brings into operation all the blocks and nodes. An applicator antenna 1 is superimposed on a controlled area of the patient’s body, the radio signal from the antenna output is fed to a radiometer 2, in which the own radiation of tissues located in the near zone of the antenna is converted to signal levels proportional to the power of the own radiation. From the output of the radiometer 2, the signals are sent to the determinant of the rate of change of temperature 3, where the component of the rate of change of temperature is highlighted. The signal from the output of the temperature change rate determiner 3 is fed to one of the inputs of the two-coordinate recorder 4, the scan signal from the parametric adapter 5 is received at the other input of the recorder. The adapter binds the parameter of the used physiotherapeutic influence to the scan range of the recorder 4. The parameter 6 sensor is also superimposed on the exposed the patient’s body area and, depending on the acting factor (UHF, microwave, EHF, inductothermy, laser and radiation, etc.) produces Igna reflecting or light frequency, or power, or magnetic field strength or power of ultrasonic vibrations, etc. The signal from the sensor of parameter 6 is supplied to the adapter 5, in which the range of the parameter changes to the dynamic range of the corresponding sweep of the recorder 4.

 At this time, a chart is plotted as a function of the rate of temperature change on the magnitude of the physiotherapeutic factor. The rate of temperature change carries information useful for diagnosing the state of human body tissues and selecting parameters for physiotherapeutic effects. The extreme points on the diagram reflect, as a rule, the optimal values of the influencing factors, for example, maxima for microwave and EHF therapy and minima for ultrasound therapy.

 The medical, social and technical and economic effect consists in the fact that controlling the rate of temperature change in the field of physiotherapeutic effect on tissues allows the doctor not to miss the moment of the threat of excessive pathological effects on human tissues and organs and timely adjust the mode of operation and parameters of this effect.

Claims (1)

A tissue temperature measuring instrument during physiotherapy, characterized in that an antenna, a radiothermometer, an indicator, a temperature change rate determiner and a parameter sensor are connected in series through a parametric adapter, moreover, a two-coordinate recorder is used as an indicator, and a parameter sensor superimposed on the exposed a section connected to an adapter in which the range of the parameter change is linked to the dynamic range of the corresponding scan Isa.