RU2246898C2 - Method for diagnosing the cases of prostate diseases - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method involves studying biological material by applying infrared spectroscopy techniques. The obtained data are processed and diagnosis is set. Blood serum is used as the biological material. The study is carried out by preparing dried blood serum sample as suspension in Vaseline oil and doing the infrared spectroscopy analysis in the bandwidth of 120-1000 cm^-1 and determining absorption strip peak heights having maximum at 1170; 1165; 1160; 1150; 1140; 1060; 1050; 1040; 1025 and then calculating the following ratio values like peak height with maximum at 1160 cm^-1 to 1140 cm^-1; 1165 cm^-1 to 1150 cm^-1; 1040 cm^-1 to 1025 cm^-1. The obtained distribution of this group is projected to frontal plane for calculating two-dimensional coordinates and comparing to flat reference diagnostic images of prostate pathologies and to a normal reference diagnostic image represented as flat polygons which boundaries are given by the following values. The norm is represented by X(-1.15;-0.9;0.45;0.0;-0.65) and Y(0.99;4.2;0.9;0.46), respectively. Pathology by X(-1.15;-1.15;0.35;0.0;0.65) and Y(0.99;-0.03; 0.48;0.09;0.46). The norm and pathology are differentiated. Additional mathematical processing is carried out on infrared spectra of blood serum samples of patients belonging to pathology image according to parameter values. First of all, three-dimensional distribution is calculated as peak having maximum at 1160 cm^-1 to one having maximum at 1150 cm^-1; 1170; 1160 cm^-1; 1160 cm^-1 to 1025 cm^-1. It is projected then to frontal plane and compared to diagnosis images of prostate adenoma and images of prostate carcinoma. The second group relationships the following values are used: oncological cases - X(0.28;0.77;1.24;0.96), Y(0.75;0.46;-0.13;-0.02); adenoma - X(0.28;1.24;2.21;1.24;0.77), Y(0.75;1.24;-0.12;-0.13;0.46). Differential diagnosis of pathologies is set by interpreting point position within particular pathology image.

EFFECT: high accuracy of differential diagnosis.

Description

The present invention relates to medicine, namely to urology and can be used in the diagnosis of pathological conditions of the prostate gland.

Timely and objective diagnosis of pathological conditions of the prostate gland is of great importance for the implementation of adequate therapeutic measures.

The closest and selected authors as a prototype is a method for diagnosing diseases of the prostate gland by means of infrared spectrography of a biopsy specimen of the prostate gland described in RF patent No. 20188829 [1].

However, this method has disadvantages associated with obtaining a biopsy. This process is very traumatic for the patient, in addition, the procedure for obtaining a biopsy specimen requires the involvement of qualified personnel.

Pretreatment of biological material requires the use of scarce expensive reagents, and takes a lot of time.

The objective of the proposed invention is to develop a method for diagnosing pathology of the prostate gland, eliminating the above disadvantages and having high diagnostic accuracy.

The problem is solved by a method for diagnosing diseases of the prostate gland by the method of infrared spectroscopy of blood serum.

The proposed method is as follows: venous blood is collected from a patient, serum is separated and a sample is prepared for IR spectroscopy, for this it is dried and suspended with paraffin oil. Spectroscopic analysis of the obtained sample is performed in the region of 1200-1000 cm ^-1 . Then determine the heights of the peaks of the absorption bands with maximums at 1160 cm ^-1 to 1140 cm ^-1 ; 1165 cm ^-1 to 1150 cm ^-1 ; 1040 cm ^-1 to 1025 cm ^-1 ; the obtained three-dimensional distribution of this group is projected into the frontal plane to obtain two-dimensional coordinates and correlated with the boundaries of the flat reference diagnostic “images” of prostate pathologies and the “image” of the normal state. These “images” are represented in the form of flat polyhedra, the boundaries of which are the following values: norm - X (-1.15; -0.9; 0.45; 0.0; -0.65), respectively, Y (0.99 ; 4.2; 4.2; 0.9; 0.46); pathology - X (-1.15; -1.15; 0.35; 0.0; -0.65), respectively, Y (0.99; -0.03; 0.48; 0.09; 0, 46). Next, differentiate the norm and pathology depending on the location of the obtained point in the coordinate system. Then, for the IR spectra of the samples of blood serum of patients corresponding in parameters to the “image of pathology”, additional mathematical processing is performed. First, a three-dimensional distribution is calculated, namely, the ratio of the height of the peak with a maximum of 1060 cm ^-1 to the height of the peak with a maximum at 1050 cm ^-1 ; 1170 cm ^-1 to 1160 cm ^-1 ; 1160 cm ^-1 to 1025 cm ^-1 , and then project it onto the frontal plane and correlate with the reference diagnostic “images” of prostate adenoma and prostate cancer. The coordinates of the “images” for the ratios of the second group are: oncology - X (0.28; 0.77; 1.24; 0.96); respectively, Y (0.75; 0.46; -0.13; -0.02); adenoma - X (0.28; 1.24; 2.21; 1.24; 0.77); Y (0.75; 1.24; -0.12; -0.13; 0.46); differential diagnosis of pathology is carried out depending on the location of the point inside the "image" of a particular pathology.

The final diagnosis is established in the case of “belonging” of the values obtained for a particular patient to pathology in both cases.

Mathematical processing of the obtained data in the proposed method is performed using a computer program created specifically for these studies.

This program allows you to uniquely identify the position of the point that reflects the patient’s blood parameters, and determine its belonging to a particular “image” of the disease, in addition, it does not require a lot of time.

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

The advantages of the proposed method are high diagnostic accuracy, low cost of examination, the use of standard equipment, which allows this examination to be carried out on the basis of biochemical laboratories in medical hospitals.

For the personnel conducting the research of the proposed method, no special training is required.

The proposed method was examined 125 patients on the basis of the regional hospital. Semashko and Pavlovsk CRH and 78 clinically healthy people of enterprises of the Nizhny Novgorod region.

The results were verified by a blind method, subsequently clinically confirmed.

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

Example 1

Patient A, 71 years old. He entered the hospital on 01/25/02 with complaints of rapid urination within six months. Observed with a diagnosis of prostate adenoma. In December 2001, prostate cancer was suspected. A biopsy dated January 30, 02 revealed a clear cell variant of prostate cancer. PSA 9.8, Lymphocytosis - 81. Ultrasound size 49 to 37 by 49 mm. Multiple hypoechoic areas. Produced IR spectroscopic analysis in accordance with the proposed method. Blood was taken, serum was separated. Then, a sample was prepared for IR spectroscopy. The serum was dried, a suspension was prepared in liquid paraffin, and IR analysis was performed in the range of 1200-1000 cm ^-1 . The values of the coordinates of the first group of relations X = -0.46; Y = 0.32. (2) X = 0.68; Y = 0.42. The diagnosis of cancer established in the hospital is confirmed by IR spectroscopy.

Example 2

Patient P, 75 years old. In 1989 he underwent an adenomectomy. In 1998, a biopsy was performed, a small acinar adenocarcinoma. Estrogen therapy from 1998-2002. PSA 5.9. Blood sampling was carried out on 02/14/03 and the serum was examined by the IR spectroscopy method described in the proposed invention, the coordinates of the points were obtained (1) X = -0.3; Y = 0.34; (2) X = 0.64; Y = 0.2. Diagnosed with oncological disease of the prostate gland. The diagnosis was confirmed by surgery.

Example 3

Patient K, 70 years old. He entered the hospital on 01.15.02 with complaints of frequent urination, pain in the bladder for a year and a half. Observed with a diagnosis of prostate adenoma during the same time. Prepared for surgical treatment of transurethral gland resection. Biopsy: Glandular-stromal hyperplasia.

An IR spectroscopic analysis was performed as described. The values of the coordinates of the first group of relations X = -0.16; Y = 0.62, (2) X = 1.04; Y = 0.80. The diagnosis of prostate adenoma established in a medical institution is confirmed by IR spectroscopy.

The above examples suggest that the proposed diagnostic method can be applied in the practice of medical institutions.

Literature

1. A method for diagnosing diseases of the prostate gland. RF patent №2018829, ed. Kukosh V.I., Gordetsov A.S. and etc.

Claims (1)

A method for diagnosing diseases of the prostate gland, including the study of biological material by infrared spectroscopy, processing of the obtained data, diagnosis of the disease, characterized in that blood serum is used as biological material, the study is carried out by preparing a sample of dried serum in the form of a suspension in liquid paraffin, followed by its execution IR spectroscopic analysis in the region of 1200-1000 cm ^-1 and determination of the heights of the peaks of the absorption bands with maxima of 1170; 1165; 1160; 1150; 1140; 1060; 1050; 1040; 1025, after which the values of the following ratios are calculated: peak heights with a maximum at 1160 cm ^-1 to 1140 cm ^-1 ; 1165 cm ^-1 to 1150 cm ^-1 ; 1040 cm ^-1 to 1025 cm ^-1 , the obtained three-dimensional distribution of this group is projected into the frontal plane to obtain two-dimensional coordinates and correlated with the boundaries of the flat reference diagnostic “images” of prostate pathologies and the “image” of the norm state, which is represented as flat polyhedra, whose boundaries are the following values: norm - X (-1.15; -0.9; 0.45; 0.0; -0.65), respectively, Y (0.99; 4.2; 0.9; 0 , 46); pathology - X (-1.15; -1.15; 0.35; 0.0; 0.65), respectively, Y (0.99; -0.03; 0.48; 0.09; 0.46 ), differentiate the norm and pathology; further, for the IR spectra of blood serum samples of patients corresponding to the “image” of the pathology, additional mathematical processing is performed, and first a three-dimensional distribution is calculated, namely, the ratio of peak height with a maximum of 1060 cm ^-1 to peak height with a maximum at 1050 cm ^-1 ; 1170 cm ^-1 ; 1160 cm ^-1 ; 1160 cm ^-1 and 1025 cm ^-1 , and then project it on the frontal plane and correlate with the reference diagnostic “images” of prostate adenoma and prostate cancer, the coordinates of the “images” for the ratios of the second group are: oncology - X (0, 28; 0.77; 1.24; 0.96), respectively, Y (0.75; 0.46; -0.13; -0.02); adenoma - X (0.28; 1.24; 2.21; 1.24; 0.77); Y (0.75; 1.24; -0.12; -0.13; 0.46); differential diagnosis of pathology is carried out depending on the location of the point inside the "image" of a particular pathology.