RU2249216C1 - Method for diagnosing mammary gland tumors - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method involves applying infrared spectrometric analysis of venous blood serum in bandwidth of 1200-1000 cm^-1, determining absorption strip peak heights selected with female patient weight taken into account. Dimensionless parameters are calculated on the basis of received data. The parameters are compared to reference disease images. Three-dimensional differential diagnostic images of mammary gland carcinoma and fibrous cystic mastopathy as convex or convexo-concave polyhedrons built in orthogonal coordinate system are used as the reference images.

EFFECT: high accuracy of differential non-invasive diagnosis of benign and malignant tumors.

Description

The present invention relates to the field of research of biological substrates by physico-chemical methods in medicine, namely in oncology, and can be used for the differential diagnosis of cancer and fibrocystic breast mastopathy.

The most common cancer pathology in women is breast cancer. Differential diagnosis of breast cancer most often has to be done with fibrocystic mastopathy. In the initial stages of the disease, breast tumors are asymptomatic and are detected by chance. Further diagnostics involves X-ray examination, mammography, thermography, radioisotope research, ultrasound echography, cytological and histological studies. However, each of the known methods has both positive and negative qualities. And the screening diagnosis of breast tumors in the early stages is generally absent. For carrying out adequate therapeutic measures, timely, objective and accurate differential diagnosis in patients with breast diseases is of great importance, therefore, the development of new diagnostic methods is relevant.

For the prototype of the present invention, a well-known method for the diagnosis of breast tumors is selected, including taking serum of venous blood, studying optical absorption bands and comparing with a standard [1]. A known method used to monitor cancer of various localization, including breast cancer, which uses the measurement of optical density of blood serum is as follows. As the biological material for the study, venous blood serum is taken and the CA125 cancer antigen is determined in the serum during the incubation reaction by the solid-phase non-competitive method based on direct “sandwich” technology. Patient standards, controls and patient samples are incubated with Ov197 biotinylated anti-CA125 monoclonal antibodies (obtained from mice) in streptavidin-coated microplate cells. During the incubation process, CA125, contained in patient standards, controls or patient samples, is adsorbed onto streptavidin-coated microplate cells with biotinylated anti-CA125 monoclonal antibodies. The strips are then washed and incubated with horseradish peroxidase labeled with anti-CA125 Ov185 monoclonal antibodies. After washing, a buffer substrate / chromogenic reagent (hydrogen peroxide and 3.3 ’, 5.5’-tetramethylbenzidine) is added to each well, resulting in an enzymatic reaction. During the reaction, a blue color develops in the presence of antigen. The color intensity is proportional to the amount of CA125 antigen in the sample. The color intensity is measured on a microplate reader with a 620 nm filter (or, optionally, at 405 nm after adding a stop solution). Standard curves are plotted for each analysis in coordinates: optical density versus concentration for each standard. The concentration of CA125 in the patient’s samples is calculated according to the calibration curve and for healthy people, the antigen concentration should be less than 35 U / ml.

However, the known method has the following disadvantages:

1. The method cannot be used for screening diagnosis of cancer patients, since the sensitivity of the initial diagnosis does not exceed 30%.

2. Positive analysis results, in addition to breast tumors, are also observed in tumors of the ovaries, gastrointestinal tract and inflammatory gynecological diseases, which indicates a low specificity.

3. In addition, it is necessary to carry out labor-intensive special research, performed only in large clinics.

4. Serum samples can be stored at a strictly defined temperature and are only suitable for analysis for two days.

5. The method does not allow differential diagnosis of breast tumors.

The task of the invention is to provide an objective, early, screening, non-invasive and atraumatic differential diagnosis of malignant and benign neoplasms of the mammary gland and to increase the accuracy of diagnosis.

The problem is solved by a method for the diagnosis of breast tumors, including taking serum of venous blood, examining optical absorption bands and comparing with a standard, for the differential diagnosis of breast cancer and fibrocystic mastopathy of the mammary gland, venous blood serum is dried, crushed, mixed with vaseline oil and carried out infrared (IR spectrometric) analysis in the region of 1200-1000 cm ^-1 , peak heights are determined at least six absorption bands with maxima of 1165, 1130, 1125, 1100, 1080, 1070, 1050 cm ^-1 , then calculate the values of at least three dimensionless parameters Rar1, Rar2, Rar3 for the first age group up to 49 years, and at least three dimensionless parameters Rar4, Rar5, Rar6 for the second age group from 50 years and older, where Par1 is the ratio of the height of the peak with a maximum at 1165 cm ^-1 to the height of the peak with a maximum at 1080 cm ^-1 , Rar2 - the ratio of the height of the peak with a maximum at 1125 cm ^-1 to the height of the peak with a maximum at 1100 cm ^-1 , Rar3 - the ratio of the height of the peak with a peak at 1080 cm ^-1 to a maximum peak height at 1070 cm ^-1, Par4 - the ratio of the peak height from poppy imumom at 1165 cm ^-1 to the peak height of the peak at 1130 cm ^-1, Par5 - ratio of peak height to peak at 1125 cm ^-1 to the peak height of the peak at 1100 cm ^-1, Rar6 - height ratio of the peak with a maximum at 1165 cm ^-1 to the peak height with a maximum at 1050 cm ^-1 , the obtained data are processed on a computer and three-dimensional differential diagnostic images of the diseases of “breast cancer” and “fibrocystic breast mastopathy” are constructed in the form of convex and convex-concave polyhedra, for the first age group in the orthogonal coordinate system (Par1, Par 2, Par3) a convex polyhedron with vertices (0.86,0.66,1.07) (0.91,0.72,0.92) (0.90,0.84,0.91) (0.63,1.66,1.00) (0.53,1.02,1.18) (0.65,0.87,1.14) (0.49,0.70,0.91) (0.36,0.69,0.76) (0.54,0.63,0.84) defines the reference image of “breast cancer”, a convex-concave polyhedron with vertices (0.38,0.78,1.02) (0.52,0.76,1.00) (0.14,0.74,1.40) (0.50,0.71,0.70) (2.03,0.84,0.87) (1.79,0.11,0.97) (1.05,0.21,1.38) (0.20,0.25,0.90) (0.97,0.24,0.92) ( 0.40,0.62,1.25) (1.07,0.80,0.96) defines the reference image of “fibrocystic mastopathy of the mammary gland”, while the reference images do not touch, for the second age group in the orthogonal coordinate system (Par4, Par5, Par6) is convex-concave many granite with vertices (1.05,0.79,0.57) (1.03,0.45,0.52) (1.36,0.38,0.5) (1.61,0.71,0.68) (1.90,0.94,0.80) (2.27,0.92,0.56) (2.90,0.90, 0.65) (3.46,0.53,1.02) (2.11,0.22,1.50) (1.88,0.21,1.06) (2.03,0.27,2.00) (1.09,1.00,1.97) (0.70,0.90,0.29) (1.00,0.80,0.38 ) (1.80,0.33,0.64) (2.29,0.42,0.52) defines the reference image of “breast cancer”, a convex polyhedron with vertices (1.09,0.85,0.51) (1.29,0.74,0.70) (1.58,0.86,0.72) ( 1.82,0.88,0.74) (2.08,0.83,0.32) (1.09,0.50,0.40) (1.18,0.58,0.49) (1.52,0.68,0.65) (1.54,0.74,0.61) (1.48,0.74,0.48) defines the reference the image of “breast fibrocystic mastopathy”, while the reference images do not touch, the patient’s data are compared with the reference images of diseases and the diagnosis of breast cancer is made to the patient in the first age group with values of its parameters (Par1, Par2, Par3) that define the point inside the reference image of breast cancer, the diagnosis of fibrocystic breast mastopathy is made to the patient with values of its parameters (Par1, Par2, Par3), determining the point inside the reference image of “fibrocystic breast mastopathy”, the diagnosis of breast cancer is made to the patient in the second age group with the values of her parameters (Par4, Par5, Par6), defining a point inside the reference image “breast cancer”, a diagnosis of “fibrocystic breast mastopathy” is set for the patient with values of its parameters (Rar4, Rar5, Rar6) defining a point inside the reference image of “breast cancer”, if the parameter values patients (Par1, Par2, Par3) or (Par4, Par5, Par6) determine a point that is not inside the reference image of “breast cancer” and not inside the reference image of “fibrocystic breast mastopathy”, the diagnosis should not be made maybe.

The present invention meets the criteria of the invention of “novelty”, as conducted patent information research has not identified sources that discredit the novelty of the invention.

The present invention meets the criterion of “inventive step”, since the significant differences of the proposed method are not known from the existing level of technology. The only known method of preparing blood serum for research [2].

The present invention allows to obtain the following positive results:

1. Spectrometric standards of “breast cancer” and “fibrocystic breast mastopathy” have been created taking into account age-related characteristics.

2. For the first time, it became possible to conduct screening non-invasive diagnostics in the early stages of breast tumors and to conduct differential diagnostics of breast cancer and fibrocystic breast mastopathy with a diagnostic accuracy of 88%.

3. It is possible to obtain material for research in any medical institution, its preparation, storage and shipment without the use of special conditions and means.

As a result of the implementation of the invention, the doctor receives an objective differential diagnosis, which allows you to assign timely adequate treatment and monitor the patient's condition after its implementation.

The method is as follows. Venous blood serum is dried, crushed, mixed with liquid paraffin and infrared (IR-spectrometric) analysis is carried out in the range of 1200-1000 cm ^-1 , peak heights of at least six absorption bands with maxima of 1165, 1130, 1125, 1100, 1080, 1070 are determined , 1050 cm ^-1 , then the values of at least three dimensionless parameters Par1, Par2, Par3 for the first age group up to 49 years and at least three dimensionless parameters Par4, Par5, Par6 for the second age group from 50 years and older are calculated, where Par1 is the ratio of the peak height from the peak at 1165 cm ^-1 in cell peak with a maximum at 1080 cm ^-1, Par2 - ratio of height with a maximum peak at 1125 cm ^-1 to a maximum peak height at 1100 cm ^-1, Rar3 - height ratio of the peak with a maximum at 1080 cm ^-1 to a maximum peak height at 1070 cm ^-1 , Par4 - the ratio of peak height with maximum at 1165 cm ^-1 to the peak height with maximum at 1130 cm ^-1 , Par5 - the ratio of peak height with maximum at 1125 cm ^-1 to the peak height with maximum at 1100 cm ^{- 1} Rar6 - peak height ratio of peak at 1165 cm ^-1 to the peak height of the peak at 1050 cm ^-1 derived data is processed on a computer and build three-dimensional differential diagnostic images of diseases of “breast cancer” and “fibrocystic breast mastopathy” in the form of convex and convex-concave polyhedra, for the first age group in the orthogonal coordinate system (Par1, Par2, Par3) a convex polyhedron with vertices (0.86, 0.66.1.07) (0.91,0.72,0.92) (0.90,0.84,0.91) (0.63,1.66,1.00) (0.53,1.02,1.18) (0.65,0.87,1.14) (0.49,0.70,0.91) (0.36,0.69 , 0.76) (0.54,0.63,0.84) defines the reference image of “breast cancer”, a convex-concave polyhedron with vertices (0.38,0.78,1.02) (0.52,0.76,1.00) (0.14,0.74,1.40) (0.50,0.71 , 0.70) (2.03,0.84,0.87) (1.79,0.11,0.97) (1.05,0.21,1.38) (0.20,0.25,0.90) (0. 97,0.24,0.92) (0.40,0.62,1.25) (1.07,0.80,0.96) defines the reference image of “fibrocystic breast mastopathy”, while the reference images do not touch, for the second age group in the orthogonal coordinate system (Rar4, Rar5, Rar6) a convex-concave polyhedron with vertices (1.05,0.79,0.57) (1.03,0.45,0.52) (1.36,0.38,0.5) (1.61,0.71,0.68) (1.90,0.94,0.80) (2.27,0.92, 0.56) (2.90,0.90,0.65) (3.46,0.53,1.02) (2.11,0.22,1.50) (1.88,0.21,1.06) (2.03,0.27,2.00) (1.09,1.00,1.97) (0.70,0.90,0.29 ) (1.00,0.80,0.38) (1.80,0.33,0.64) (2.29,0.42,0.52) defines the reference image of “breast cancer”, a convex polyhedron with vertices (1.09,0.85,0.51) (1.29,0.74,0.70) ( 1.58,0.86,0.72) (1.82,0.88,0.74) (2.0 8,0.83,0.32) (1.09,0.50,0.40) (1.18,0.58,0.49) (1.52,0.68,0.65) (1.54,0.74,0.61) (1.48,0.74,0.48) defines the reference image of “fibrocystic breast mastopathy” glands ”, while the reference images do not touch, the patient’s data are compared with the reference images of diseases and the diagnosis of breast cancer is made to the patient in the first age group with the parameters (Par1, Par2, Par3) that define the point inside the reference image“ cancer the mammary gland ”, the diagnosis of“ fibrocystic mastopathy of the mammary gland ”is made to the patient with the values of her param ditch (Par1, Par2, Par3), determining the point inside the reference image of “fibrocystic mastopathy of the breast”, the diagnosis of breast cancer is made to the patient in the second age group with the values of her parameters (Par4, Par5, Par6) defining the point inside the reference image “breast cancer”, the diagnosis of “fibrocystic mastopathy of the breast” is set for the patient with values of its parameters (Par4, Par5, Par6) that define the point inside the reference image of the “fibrocystic mastopathy of the breast”, if the vapor values patients (Par1, Par2, Par3) or (Par4, Par5, Par6) determine a point that is not inside the reference image “breast cancer” and not inside the reference image “fibrocystic breast mastopathy”, then the diagnosis cannot be made can.

The described method was examined 386 patients with diseases of the mammary gland on the basis of the city oncological clinic of N. Novgorod and the road hospital of the Gorky Railway.

The method can be illustrated by the following examples from clinical practice.

Example 1. Patient Agafonova, 44 years old, was examined at the city cancer dispensary on 03.29.2000 for a tumor of the right breast. As a result of an infrared spectrometric study of venous blood serum, the following parameter values (0.55, 0.98, 0.88) were obtained, which determine the point inside the reference image “breast cancer” in the age group under 49 in the orthogonal coordinate system (Par1, Par2, Par3), which corresponds to the diagnosis - breast cancer. After a complex of diagnostic studies, surgical treatment and cytomorphological studies, the patient was diagnosed with cancer of the right breast (T1N0M0).

Example 2. Patient Abramova, 67 years old, was examined at the city cancer dispensary from 10.21.1999 regarding a tumor of the left breast. As a result of an infrared spectrometric study of venous blood serum, the following parameter values (1.65, 0.61, 0.92) were obtained, which determine the point inside the reference image “breast cancer” in the age group of 50 years and above in the orthogonal coordinate system (Par4, Par5, Par6) and older, which corresponds to the diagnosis of breast cancer. After a complex of diagnostic studies, surgical treatment and cytomorphological studies, the patient was diagnosed with cancer of the left breast (T2N0M0).

Example 3. Patient Neskina, 67 years old, was examined at the city cancer dispensary from 10/07/1999 about a tumor in the right breast. As a result of an infrared spectrometric study of venous blood serum, the following parameter values (1.28, 0.73, 0.67) were obtained, which determine the point inside the reference image of “breast fibrocystic mastopathy” in the orthogonal coordinate system (Par4, Par5, Par6) from 50 years and older, which corresponds to the diagnosis of fibrocystic breast mastopathy. After a complex of diagnostic studies, puncture and cytomorphological studies, the patient was diagnosed with fibroadenoma of the right breast.

LITERATURE

1. Medical and laboratory diagnostics (programs and algorithms). Handbook / Ed. Professors A.I. Karpishchenko, St. Petersburg: Intermedika, 1997, 304 pp.

2. RF patent No. 2124205 of 12/27/98 Method for the diagnosis of malignant neoplasms. / Ignatiev A.A., Gordetsov A.S., Nasonov S.V. and etc.

Claims (1)

A method for differential diagnosis of breast tumors, including the study of optical absorption bands of venous blood serum and comparison with a reference, characterized in that the venous blood serum is dried, crushed, mixed with liquid paraffin and an IR spectrometric analysis is performed in the range of 1200-1000 cm ^-1 , in this case, for the first age group up to 49 years, peak heights of absorption bands with maxima of 1165, 1125, 1100, 1080, 1070 cm ^-1 are determined, then the values of the three dimensionless parameters Par1, Par2, Par3 are calculated, where Par1 is the ratio of peak heights with a maximum of 1165 cm ^-1 to the peak height with a maximum at 1080 cm ^-1 , Par2 - the ratio of peak heights with a maximum at 1125 cm ^-1 to the peak height with a maximum at 1100 cm ^-1 , Par3 - the ratio of peak height with a maximum at 1080 cm ^-1 to the height of the peak with a maximum at 1070 cm ^-1 ; for the second age group of 50 years and older, determine the peak heights of absorption bands with maxima of 1165, 1125, 1130, 1100, 1050 cm ^-1 , calculate the values of the three dimensionless parameters Par4, Par5, Par6, where Par4 is the ratio of peak heights with a maximum of 1165 cm ^-1 to the height of the peak with a maximum at 1130 cm ^-1 , Par5 - the ratio of the height of the peak with a maximum at 1125 cm ^-1 to the height of the peak with a maximum at 1100 cm ^-1 , Par6 - the ratio of the height of the peak with a maximum at 1165 cm ^-1 to peak height with a maximum at 1050 cm ^-1 ; the patient’s data are compared with reference images of diseases; three-dimensional differential diagnostic images of diseases of “breast cancer” and “fibrocystic breast mastopathy” in the form of convex and convex-concave polyhedra are used as standards, while for the first age group in the orthogonal coordinate system (Par1, Par2, Par3) a convex polyhedron with vertices (0.86,0.66,1.07) (0.91,0.72,0.92) (0.90,0.84,0.91) (0.63,1.66,1.00) (0.53,1.02,1.18) (0.65 , 0.87,1.14) (0.49,0.70,0.91) (0.36,0.69,0.76) (0.54,0.63,0.84) defines the reference image of “breast cancer ”, A convex-concave polyhedron with vertices (0.38,0.78,1.02) (0.52,0.76,1.00) (0.14,0.74,1.40) (0.50,0.71,0.70) (2.03,0.84,0.87) (1.79,0.11,0.97) (1.05,0.21,1.38) (0.20,0.25,0.90) (0.97,0.24,0.92) (0.40,0.62,1.25) (1.07,0.80,0.96) defines the reference image of “fibrocystic breast mastopathy”, while the reference the images do not touch, for the second age group in the orthogonal coordinate system (Par4, Par5, Par6) a convex-concave polyhedron with vertices (1.05,0.79,0.57) (1.03,0.45,0.52) (1.36,0.38,0.50) (1.61,0.71 , 0.68) (1.90,0.94,0.80) (2.27,0.92,0.56) (2.90,0.90,0.65) (3.46,0.53,1.02) (2.11,0.22,1.50) (1.88,0.21,1.06) (2.03,0.27, 2.00) (1.09,1.00,1.97) (0.70,0.90,0.29) (1.00,0.80,0.38) (1.80,0.33,0.64) (2.29,0.42,0.52) determined there is a reference image of “breast cancer”, a convex polyhedron with vertices (1.09,0.85,0.51) (1.29,0.74,0.70) (1.58,0.86,0.72) (1.82,0.88,0.74) (2.08,0.83,0.32) (1.09 , 0.50,0.40) (1.18,0.58,0.49) (1.52,0.68,0.65) (1.54,0.74,0.61) (1.48,0.74,0.48) defines the reference image of “fibrocystic breast mastopathy”, while the reference images do not touch; the parameters (Par1, Par2, Par3) for the patient of the first group and the parameters (Par4, Par5, Par6) for the patient of the second group determine the point at which the breast cancer is diagnosed within the reference image of breast cancer, when it is inside the reference image “Breast fibrocystic mastopathy” is diagnosed with breast fibrocystic mastopathy.