RU2003127766A - METHOD AND DEVICE FOR CLINICAL DIAGNOSTICS OF A BIO-OBJECT - Google Patents

Claims (11)

1. A method for the clinical diagnosis of a warm-blooded bioobject, including preparing a body of a bioobject for diagnostics, then measuring the body surface temperature at a number of fixed points in a certain way with a probe containing a temperature sensor, storing the measured temperature values with a microcontroller, transferring the received data from the microcontroller to a computer, processing the received data computer in accordance with a pre-selected algorithm, displaying the results of dia nosting in the form of a picture showing the internal state of the organs of the body of the biological object and the absence or presence of pathological foci in the body of the biological object, determining the coordinates of the detected pathological foci and assessing the nature of the detected pathological foci, characterized in that the data processing algorithm is obtained in advance depending on the characteristics of the skin of the biological object and installed in a computer, and, accordingly, also depending on the characteristics of the skin of the biological object, the algorithm of thermal re a measurement press, which is fixed in the microcontroller, after which a cycle of temperature measurements is carried out, necessary for the diagnosis, and the obtained data are processed by a computer in accordance with the mentioned algorithm. 2. The method according to claim 1, characterized in that when measuring at any point on the skin of the bioobject, the temperature sensor is brought into contact with the skin of the bioobject with a fixed pressing force. 3. The method according to claims 1 and 2, characterized in that immediately after the temperature sensor contacts the skin of the biological object by measuring the sensor’s parameters, a signal is received about the beginning of the measurement, after which, in accordance with the method previously established for this type of biological object, it is changed during this separate cycle measuring the thermal mode of the sensor by controlled heating from a heater combined with it. 4. The method according to claims 1 to 3, characterized in that for the selected type of biological object, the nature of the thermal regime of the sensor is pre-determined and the shape of the curve of the sensor signal changes with the diagnosis time corresponding to this mode is evaluated. 5. The method according to claims 1 to 4, characterized in that the thermal constant of the sensor is controlled during temperature measurement at each point of the skin of the biological object. 6. The method according to claims 1 to 4, characterized in that the information is collected from the temperature sensor in dynamic mode at small time intervals compared to the initial thermal constant of the temperature sensor, and the values of each individual measurement are statistically processed in order to reduce the resulting error the shape of the curve of the sensor signal with the diagnosis time. 7. The method according to claims 1-5, characterized in that the data array obtained by measuring the temperature at each point of the skin of the biological object is determined by the permissible error of temperature measurement in relation to its asymptotic value in accordance with the shape of the curve of the sensor signal over time. 8. The method according to claims 1 to 7, characterized in that the nature of the detected pathological foci is assessed by comparison with known foci according to known thermosemiotic signs. 9. A device for the clinical diagnosis of a warm-blooded bioobject, including a probe, consisting of a temperature sensor combined with a heating element, a system for contacting the probe with the patient’s skin, a system for processing signals received from the probe and their memorization, as well as a system for providing signals about the mode of operation of the device and a demonstration on the display panel of the number of the next measurement, characterized in that the probe is made in the form of a block located in the cylinder so that the temperature sensor goes 3 mm beyond omyanutogo cylinder block on the other hand a spring that provides the movement inside the cylinder block with a predetermined force. 10. The device according to claims 8 and 9, characterized in that the unit consists of a flat temperature sensor and a flat heater, between which there is a heat insulator. 11. The device according to claims 8-10, characterized in that the heat insulator is made in the form of a gas layer, the small thickness of which provides radiation and eliminates convection heat transfer from the heater to the sensor.