RU2008151958A - ANTENNA APPLICATOR AND DEVICE FOR DETERMINING TEMPERATURE CHANGES IN INTERNAL TISSUES OF A BIOLOGICAL OBJECT AND METHODS FOR DETERMINING TEMPERATURE CHANGES AND DETECTING CANCER RISK - Google Patents

Abstract

1. An applicator antenna for determining temperature changes in the internal tissues of a biological object by simultaneously non-invasively measuring the brightness temperature and skin temperature of a biological object, containing ! a segment of a waveguide partially or completely filled with a dielectric, having one closed end and the opposite open end in contact with a biological object, ! an electromagnetic wave excitation system located in the waveguide between the closed end of the waveguide and the dielectric, connected to the input part of the microwave radiothermometer, ! a skin temperature sensor located at the open end of the waveguide, configured to transmit information to a computing device. ! 2. Applicator antenna according to claim 1, characterized in that the skin temperature sensor is connected to the computing device by conductors located orthogonally to the applicator antenna electric field vector. ! 3. Antenna-applicator according to claim 1, characterized in that it contains a contact shielded temperature sensor located at the open end of the waveguide in contact with the biological object. ! 4. Applicator antenna according to claim 1, characterized in that it contains an infrared shielded skin temperature sensor located inside the waveguide section at a distance from the open end of the waveguide with a gap between the infrared temperature sensor and the biological object. ! 5. Antenna-applicator according to claim 1, characterized in that it additionally contains a low-pass separation filter at the output of the skin temperature sensor. ! 6. Antenna applicator according to claim 1, characterized in that it is additional

Claims (22)

1. The antenna applicator for determining temperature changes in the internal tissues of a biological object by simultaneously non-invasively measuring the brightness temperature and skin temperature of a biological object, containing a waveguide segment partially or completely filled with a dielectric having one closed end and an opposite open end in contact with a biological object, an electromagnetic wave excitation system located in the waveguide between the closed end of the waveguide and the dielectric, connected to the input part of the microwave radiometer, a skin temperature sensor located at the open end of the waveguide, configured to transmit information to a computing device. 2. The antenna applicator according to claim 1, characterized in that the skin temperature sensor is connected to the computing device by conductors located orthogonal to the electric field vector of the antenna applicator. 3. The antenna applicator according to claim 1, characterized in that it contains a contact shielded temperature sensor located at the open end of the waveguide in contact with the biological object. 4. The antenna applicator according to claim 1, characterized in that it contains an infrared shielded skin temperature sensor located inside the length of the waveguide at a distance from the open end of the waveguide with a gap between the infrared temperature sensor and the biological object. 5. The antenna applicator according to claim 1, characterized in that it further comprises a low pass filter at the output of the skin temperature sensor. 6. The antenna applicator according to claim 1, characterized in that it further comprises a metallized flange located at a distance from the open end of the waveguide. 7. The antenna applicator according to claim 1, characterized in that it further comprises a dielectric plate, partially or completely made of material, transmitting near-infrared waves located at the open end of the waveguide segment, between the dielectric plate and the dielectric filling the waveguide, there is a gap filled with air or other dielectric material with low thermal conductivity, low dielectric constant and transmitting infrared waves. 8. The antenna applicator according to claim 1, characterized in that it further comprises a heating system. 9. The antenna applicator according to claim 1, characterized in that it contains one or more series-connected segments of the waveguide having a different cross section. 10. The antenna applicator according to claim 1, characterized in that it contains one or more series-connected segments of a circular waveguide having different cross-sections. 11. The applicator antenna according to claim 1, characterized in that it contains one or more series-connected segments of the internal waveguide and located outside the internal waveguide of one or more segments of the external waveguide, the gap between the segments of the internal and external waveguides partially or completely filled with a dielectric . 12. The applicator antenna according to any one of claims 1 to 11, characterized in that a matching element is applied to the dielectric from the open end of the waveguide by metallization, which enables the use of an applicator antenna for fabrics with different dielectric constants. 13. The antenna applicator according to any one of claims 1 to 11, characterized in that it is additionally equipped with a temperature sensor that measures the temperature of the antenna applicator and transmits information to the computing device. 14. The antenna applicator according to any one of claims 1 to 11, characterized in that it further comprises a sensor for measuring the temperature of the skin temperature sensor located on the body of the skin temperature sensor, measuring the temperature of the sensor body and transmitting information to the computing device. 15. A device for determining temperature changes in the internal tissues of a biological object, including an applicator antenna comprising: a waveguide segment partially or completely filled with a dielectric having one closed end and an opposite open end in contact with a biological object, an electromagnetic wave excitation system located in the waveguide between the closed end of the waveguide and the dielectric, connected to the input part of the microwave radiometer, a skin temperature sensor located at the open end of the waveguide, configured to transmit information to a computing device; microwave radio thermometer, measuring the intensity of the signal coming from the output of the antenna, which is proportional to the brightness temperature of the tissues of the biological object; and a computing device configured to receive information from a skin temperature sensor and from a microwave radio thermometer and detect changes in the temperature of internal tissues. 16. The device according to p. 15, characterized in that it contains an antenna applicator, made according to any one of claims 2-14. 17. The device according to p. 15, characterized in that it further comprises a display means. 18. A method for determining temperature changes in internal tissues, including simultaneous measurement of brightness temperature and skin temperature at the first point of a biological object, determination of the temperature of internal tissues at the first point according to the following formula

where

- the temperature of the internal tissues at the first point,

- brightness temperature at the first point,

- skin temperature at the first point, K is a dimensionless coefficient characterizing the contribution of skin temperature to brightness temperature, simultaneous measurement of brightness temperature and skin temperature at the second point of a biological object, determination of the temperature of internal tissues at the second point according to the following formula

where

- the temperature of the internal tissues at the second point,

- brightness temperature at the second point,

- skin temperature at the second point, K is a dimensionless coefficient characterizing the contribution of skin temperature to brightness temperature, assessment of changes in the temperature of internal tissues according to the formula

. 19. A method for determining temperature changes in internal tissues over time, including simultaneous measurement of brightness temperature and skin temperature at a given point of a biological object at the first moment of time, determination of the temperature of internal tissues at the first time according to the following formula

where

- the temperature of the internal tissues at the first time,

- brightness temperature at the first moment of time,

- skin temperature at the first moment of time, K is a dimensionless coefficient characterizing the contribution of skin temperature to brightness temperature, simultaneous measurement of brightness temperature and skin temperature at the same point of a biological object in the subsequent second moment of time, determination of the temperature of internal tissues at the second moment of time according to the following formula

where

- the temperature of the internal tissues at the second time,

- brightness temperature at the second moment of time,

- skin temperature at the second moment of time, K is a dimensionless coefficient characterizing the contribution of skin temperature to brightness temperature, an estimate of the temperature change of internal tissues over time using the following formula

. 20. A method for identifying a high risk of cancer in a biological subject, comprising simultaneous measurement of the brightness temperature of the biological object and the skin temperature of the biological object in at least one reference point, simultaneous measurement of the brightness temperature of a biological object and the skin temperature of a biological object at specified points, determination of the temperature of internal tissues at reference and given points according to the following formula

where

- the temperature of the internal tissues at the reference or given point,

- brightness temperature at the reference or set point,

- skin temperature at a reference or predetermined point, K is a dimensionless coefficient characterizing the contribution of skin temperature to brightness temperature, determination of the level of thermal activity of tissues D, characterizing thermal changes in the tissues of a biological object, according to the expression:

where D is the level of thermal activity of tissues, C 1 - weight coefficient,

- an increase in the temperature of internal tissues at predetermined measurement points compared to the temperature of internal tissues at a reference point, determined by the following formula

where

- the temperature of the internal tissues at the i-th given point,

- the temperature of the internal tissues at the reference point,

- skin temperature at the i-th set point,

- skin temperature at the reference point, CC2 - weight coefficient, determination of the parameter W, which characterizes the risk of cancer based on the level of thermal activity of tissues D and the relationship between the temperature of internal tissues and skin temperature, according to the expression

where W is a parameter characterizing the risk of cancer, D is the level of thermal activity of tissues, LL is a parameter characterizing the difference between the temperature of internal tissues and the skin temperature of a biological object, equal to

and LD is a parameter characterizing the variance of the difference between the temperature of internal tissues and the skin temperature of a biological object, equal to

where U and UB are the experimental coefficients, and determining a cancer risk by comparing a cancer risk parameter W with a threshold cancer risk level. 21. The method according to claim 20, characterized in that for the paired organs of a biological object, when determining the level of thermal activity of tissues D, the value DT _{i of the} temperature difference at the measurement points of the right and left paired organ is additionally taken into account, determined by the following formula:

where

- the temperature of the internal tissues at the i-th predetermined point of the right paired organ,

- the temperature of the internal tissues at the i-th predetermined point of the left paired organ,

- skin temperature at the i-th predetermined point of the right paired organ,

- skin temperature at the i-th predetermined point of the left paired organ, CC3 - weight coefficient, and the level of thermal activity of tissues D is defined as

where C1, C2 - weighting factors. 22. A method for detecting a high risk of breast cancer in a biological object, including simultaneous measurement of the brightness temperature of the biological object and the skin temperature of the biological object in at least one reference point, simultaneous measurement of the brightness temperature of the breast of a biological object and the skin temperature of the breast of a biological object at specified points, determination of the temperature of internal tissues in the reference and given points of the mammary gland according to the following formula:

where

- the temperature of the internal tissues at the reference or predetermined point of the mammary gland,

- brightness temperature at the reference or predetermined point of the mammary gland,

- skin temperature at a reference or predetermined point of the mammary gland, K is a dimensionless coefficient characterizing the contribution of skin temperature to brightness temperature, determination of the level of thermal activity of tissues D, characterizing thermal changes in breast tissue, according to the expression

where D is the level of thermal activity of breast tissue, C 1, C 2 - weighting factors,

- an increase in the temperature of internal tissues at predetermined points of the mammary gland compared with the temperature at the reference point, determined by the following formula

where

- the temperature of the internal tissues at the i-th given point of the mammary gland,

- the temperature of the internal tissues at the reference point of the mammary gland,

- skin temperature at the i-th given point of the mammary gland,

- skin temperature at the reference point of the mammary gland, CC2 - weight coefficient,

- the value of the temperature difference between the right and left mammary glands at given points, determined by the following formula

where

- the temperature of the internal tissues at the i-th predetermined point of the right breast,

- the temperature of the internal tissues in the i-th predetermined point of the left breast, CC3 - weight coefficient,

- skin temperature at the i-th predetermined point of the right breast,

- skin temperature at the i-th predetermined point of the left breast, determination of the parameter W, characterizing the risk of cancer based on the level of thermal activity of tissues D and the relationship between the temperature of the internal tissues and the temperature of the skin of the breast, according to the expression

where W is a parameter characterizing the risk of cancer, D is the level of thermal activity of breast tissue, LL is a parameter characterizing the difference between the temperature of internal tissues and the temperature of the skin of the breast, equal to

and LD is a parameter characterizing the variance of the difference between the temperature of the internal tissues and the temperature of the skin of the breast, equal to

where U and UD are the experimental coefficients, and determining a cancer risk by comparing a cancer risk parameter W with a threshold cancer risk level.