RU2641158C2 - Method for efficiency estimation of neoadjuvant polychemotherapy of malignant breast tumour - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to radio diagnostics, namely, ultrasound diagnostics, and can be used to evaluate the efficiency of neoadjuvant polychemotherapy (NAPCT) of malignant breast tumour. Tumour ultrasonography is carried out using a multifrequency linear sensor by scanning a breast tumour in the energy Doppler regime. Scanning is performed from points applied to the skin along 2 mutually perpendicular lines along the tumour boundary with 5-mm increment. Scanning is performed from each point in 2 mutually perpendicular planes. The quantitative processing of each of the obtained scans is carried out: the ratio of the number of coloured pixels and the total number of pixels is calculated for each scan. Then, the average value of the ratio for each plane and the average value of the ratio for both planes are calculated. The study is performed before and after the first course of NAPCT. With a decrease in the ratio value after the course of treatment by 32% or more compared to the value before treatment, the effect of NAPCT is estimated as positive. With a decrease in the ratio value by less than 32% or an increase in the ratio value, the absence of the effect of NAPCT is noted.

EFFECT: method allows to accurately assess the effectiveness of neoadjuvant polychemotherapy by investigating the dynamics of malignant breast tumour blood supply.

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Description

The invention relates to medicine, namely to radiation diagnostics, in particular to ultrasound diagnostics, and can be used to evaluate the effectiveness of neoadjuvant polychemotherapy (NAPCT) of a malignant breast tumor.

A malignant breast tumor is a morphologically and pathogenetically polymorphic disease and is characterized by a spectrum of various biological features. Due to the widespread use of preoperative chemotherapy, an urgent task is to search for criteria to assess the sensitivity of a breast tumor to drug exposure. A known method of three-dimensional ultrasound angiography in the diagnosis of ovarian tumors (1).

The known method includes conducting an ultrasound examination of a malignant tumor in 2D mode, followed by 3D / 4D scanning, obtaining a three-dimensional image by sequential 2D scanning followed by real-time 3D reconstruction using special sensors, after receiving data in gray the study is conducted using color and energy Doppler, a quantitative assessment of blood supply is carried out using the VOCAL program (Virtual Organ Computer-Aided Analysis ), while the calculation is carried out in a tissue sample selected by visual assessment as the most blood-supplying area, using an automatically defined sphere per unit volume, and quantitative parameters are calculated automatically and presented in the form of a histogram: VI (vascularization index) - vascularization index equal to the ratio of quantity stained voxels to the total number of voxels of a given volume, which is measured in percent and reflects the number of vessels in the volume of tissue.

The disadvantages of this method are: low accuracy in the study of tumors over 4 cm, high costs for equipment, software for processing the received data and training of specialists.

In addition, this method is designed to diagnose ovarian tumors. It is known that the criteria for evaluating the effectiveness of polychemotherapy are not only the dynamics of the state of the tumor node, but also changes in the vascularization and hemodynamic parameters of the intratumoral vessels. In the absence of any dynamics of changes in blood flow parameters, a positive dynamics of polychemotherapy is observed, and in the case of an increase in the dynamics of changes in blood flow parameters, accompanied by an increase in the number of blood vessels, a negative dynamics is noted. A decrease or absence of vascularization is noted with a positive effect of treatment.

Closest to the claimed method in terms of essential features is a known method for assessing the dynamics of blood supply to a malignant tumor of the mammary gland during neoadjuvant chemotherapy, which the authors selected as a prototype (2).

A known method for assessing the dynamics of blood supply to a malignant tumor of the breast during neoadjuvant chemotherapy includes ultrasound examination of the tumor using a multi-frequency linear sensor, by scanning the tumor of the breast in energy Doppler mode, and a subsequent assessment of the dynamics of blood supply to the malignant tumor of the breast before treatment and in the process of neoadjuvant chemotherapy .

However, the known method is not accurate enough, because when ultrasound scanning a malignant breast tumor in the energy Doppler mode, the vascular bed is evaluated by a researcher. At the same time, it is extremely difficult to evaluate the blood supply to the tumor, since it is impossible to use the standard programs to calculate the number of colored pixels per unit volume, which quantitatively characterize the blood supply to the tumor. Thus, the assessment of the dynamics of the blood supply to the tumor in this way is very subjective and cannot accurately characterize the effect of the treatment of a malignant breast tumor in the NAPCT process.

The objective of the proposed method is to increase the accuracy of evaluating the effectiveness of neoadjuvant polychemotherapy (NAPCT) of a malignant breast tumor.

The problem is solved by the proposed method for evaluating the effectiveness of neoadjuvant polychemotherapy (NAPCT) of a malignant breast tumor, including ultrasound examination of the tumor using a multi-frequency linear sensor, by scanning the breast tumor in the energy Doppler mode (see Fig. 1), and the subsequent assessment of the dynamics of the blood supply to the malignant breast tumors in the process (NAPCT) (see Fig. 2), ACCORDING TO THE INVENTION, the tumor is scanned from points plotted on the skin along 2 mutually perpendicular lines along the border of the tumor with a step of 5 mm, and scanning is carried out from each point in 2 mutually perpendicular planes, after which quantitative processing of each of the obtained scans is carried out: the ratio of the number of colored pixels is calculated for each scan to the total number of pixels, then calculate the average ratio for each plane and the average ratio for both planes, and the study is carried out before and after the first course of NARPT, and with A decrease in the ratio after the treatment by 32% or more compared with the ratio before treatment assesses the effect of NAPCT as positive, and when the ratio decreases by less than 32% or an increase in the ratio, the effect of the NAPCT is not observed.

The technical result of the proposed method is to increase the accuracy of evaluating the effectiveness of neoadjuvant polychemotherapy (NAPCT) of a malignant breast tumor, with its simplicity and accessibility.

This technical result is achieved by the fact that the scan of the tumor is carried out from points applied to the skin along 2 mutually perpendicular lines along the border of the tumor with a step of 5 mm, and the scan is carried out from each point in 2 mutually perpendicular planes, after which quantitative processing of each of the obtained scans: for each scan, calculate the ratio of the number of colored pixels to the total number of pixels, then calculate the average ratio for each plane and the average value of wearing for both planes, the study being carried out before and after the first course of NAPCT, and when the ratio after treatment is reduced by 32% or more compared with the ratio before treatment, the effect of NAPCT is evaluated as positive, and when the ratio is less than by 32% or an increase in the ratio, the absence of the effect of the performed NAPCT is noted.

The proposed method is as follows.

To evaluate the effectiveness of neoadjuvant polychemotherapy (NAPCT) of a malignant breast tumor, an ultrasound examination of the tumor is carried out using a multi-frequency linear sensor, by scanning a selected area of the breast tumor in the energy Doppler mode, for this, the tumor is scanned from points applied to the skin using 2 mutually perpendicular lines along the border of the tumor in increments of 5 mm, and scanning is carried out from each point in 2 mutually perpendicular planes then quantitative processing of each of the obtained scans is carried out: for each scan, calculate the ratio of the number of colored pixels to the total number of pixels, then calculate the average ratio for each plane and the average ratio for both planes, and the study is carried out before and after the first course NAPCT, and with a decrease in the ratio after treatment by 32% or more compared with the ratio before treatment, the effect of NAPCT is assessed as positive, and with a decrease in the ratio by less than 32% or an increase in the ratio, the absence of the effect of the performed NAPCT is noted.

Examples of specific uses of the proposed method

Example 1

Patient V., 42 years old.

Diagnosis: left breast cancer T3N1M0 IIIA stage. Given the age, stage of the disease, and biological characteristics of the patient’s tumor, NAPT courses were prescribed.

The proposed method was used to evaluate the effectiveness of neoadjuvant chemotherapy (NAPCT) of a malignant breast tumor, size 22 × 17 mm

For this, an ultrasound study was carried out using a multi-frequency linear sensor, by scanning a breast tumor in the energy Doppler mode, the tumor was scanned from points applied to the skin along 2 mutually perpendicular lines along the tumor border with a step of 5 mm, and scanning was performed from each point in 2 mutually perpendicular planes, after which, in particular, using the Matlab program, quantitative processing of scans was carried out: for each scan both In order to scan, the ratio of the number of colored pixels to the total number of pixels was calculated, and based on the data obtained, the average ratio for each plane and then the average ratio for both planes were preliminarily calculated, the study being carried out before and after the first course of NARPT, the average ratio before polychemotherapy was 2.3, and after the first course of NAPCT - 1.56, while after the chemotherapy the tumor size was 21 × 13 mm.

Although the size of the tumor did not change significantly after the first course, the average ratio for both planes after the first course of NAPCT decreased by 32% compared with the average value before polychemotherapy, which allowed us to judge the positive effect of NAPCT.

After completing the full course of NAPCT, the patient was operated on in the amount of radical mastectomy.

When assessing the degree of therapeutic pathomorphism according to Lushnikov, 3 degree was determined, which characterizes the pronounced effect of the treatment.

The data obtained by the proposed method, allowing to judge the positive effect of NAPCT, coincided with data on the degree of therapeutic pathomorphism after surgical treatment.

Example 2

Patient P., 45 years old

Diagnosis: cancer of the left breast T3N2M0 IIIA Art. An immunohistochemical study determined luminal B type with Her2neu-positive status.

Given the age, stage of the disease and biological characteristics of the tumor, NAPCT courses are prescribed.

Evaluation of the effectiveness of neoadjuvant chemotherapy for a malignant breast tumor both before and after the first course of NAPCT was carried out by the proposed method, as in example 1. The average ratio before polychemotherapy was 0.65, with a tumor size of 25 × 15 mm, after In the first chemotherapy course, the average ratio was 0.63, and the tumor size was 23 × 16 mm.

After the first course, the tumor size did not significantly change, and the average ratio for both planes after 1 course of NAPCT decreased compared with the average value before chemotherapy by 3%, which made it possible to judge the absence of the effect of the patient with NAPCT.

After completing the full course of NAPCT, the patient was operated on in the amount of radical mastectomy.

When assessing the degree of therapeutic pathomorphism according to Lushnikov, 1 degree was determined that characterizes the weak effect of treatment. The data obtained by the proposed method, and allowing us to judge the lack of effect of NAPCT, coincided with the data on the degree of therapeutic pathomorphism after surgical treatment.

Example 3

Patient V., 67 years old

Diagnosis: cancer of the left breast T2N0M0 IIA Art.

An immunohistochemical study determined luminal A type.

Given the age, stage of the disease and biological tumors, the patient was prescribed neoadjuvant polychemotherapy.

Evaluation of the effectiveness of neoadjuvant chemotherapy for a malignant breast tumor both before and after the first course of NAPCT was carried out by the proposed method, as in example 1. The average ratio before polychemotherapy was 0.27, with a tumor size of 23 × 21 mm, after In the first chemotherapy course, the average ratio was 0.28, and the tumor size was 17 × 15 mm.

After the first course, the tumor size decreased, and the average ratio for both planes after the 1st course of NAPCT increased compared with the average value before polychemotherapy by 4%, which made it possible to judge the absence of the effect of the patient with NAPCT.

After completion of the course therapy, the patient was operated on in the amount of radical mastectomy.

When assessing the degree of therapeutic pathomorphism according to Lushnikov, 0 degree was determined, which characterizes the absence of the effect of treatment.

Thus, the data obtained by the proposed method, and allowing to judge the lack of effect of NAPT, coincided with data on the degree of therapeutic pathomorphism after surgical treatment.

The ultrasound data obtained by the proposed method, characterizing the lack of effect of preoperative therapy, coincided with data on the degree of therapeutic pathomorphism after surgical treatment.

As can be seen from the obtained results, the proposed method allows to accurately evaluate the effectiveness of neoadjuvant polychemotherapy (NAPCT) of a malignant breast tumor, with its simplicity and accessibility.

Information sources

1. Solomatina A.A., Bratchikova O.V., Tyumentseva M.Yu., Safronova D.A. Three-dimensional ultrasound angiography in the diagnosis of ovarian tumors. Reproduction problems. M., 2008, p. 44.

2. Sinyukova G.T., Korzhenkova G.P., Danzanova, T.Yu. Ultrasound examination of the mammary gland in oncology. Leadership. M., STROM, 2007, p. 134.

Claims (1)

A method for evaluating the effectiveness of neoadjuvant polychemotherapy (NAPCT) of a malignant breast tumor, including ultrasound examination of the tumor using a multi-frequency linear sensor, by scanning the breast tumor in the energy Doppler mode, and the subsequent assessment of the dynamics of blood supply to the malignant breast tumor in the process (NAPCT), characterized in that the scanning of the tumor is carried out from points applied to the skin along 2 mutually perpendicular lines along the border of the tumor 5 mm increments, moreover, scanning is carried out from each point in 2 mutually perpendicular planes, after which quantitative processing of each of the obtained scans is carried out: for each scan, calculate the ratio of the number of colored pixels to the total number of pixels, then calculate the average ratio for each plane and the average ratio for both planes, and the study is carried out before and after the first course of NAPCT, and with a decrease in the ratio after the course of treatment by 32% or more with avneniyu with the value of the ratio to evaluate the effect of treatment NAPHT carrying both a positive and with decreasing ratio of 32% meneechem or increasing the ratio noted no effect of NAPHT conducted.

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