RU2508552C2 - Method for prediction of developing malignant solid tumours in children and adolescents - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method for prediction of a risk of developing renal carcinosarcoma in children and adolescents involves determining major histocompatibility antigens and differing by the fact that serotyping is used to determine the major histocompatibility antigens of HLA class I and II by PCS-SSP, predicting risk groups of developing renal carcinosarcoma in the presence of HLA A26 antigens and DRBI 13 antigens.

EFFECT: simplicity and effectiveness of the method.

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Description

The invention relates to medicine, namely to oncology, to immunogenetic studies and can be used to predict the occurrence of malignant neoplasms in children with impaired immunological hemostasis.

The incidence of malignant tumors in children in Russia over the past 10 years has increased by 20% and reached 4.25. Currently, in Russia there are about 12,500 children under 15 years of age under medical supervision for malignant neoplasms of all localizations. Russia can be attributed to countries with a high incidence of pediatric oncological pathology. Solid malignant neoplasms, including CNS tumors, occupy the second place in the structure of the incidence of malignant tumors in children; according to various domestic and foreign authors, they account for 48.5 to 54% of the entire oncopathology.

The well-known "Method for predicting the course of cancer" (see patent No. 20188835 from 11.11.90. Biol. No. 16 from 08.30.94). The essence of the invention lies in the fact that in the lymphocytes and neutrophils of the blood, the histamine content is determined for 4-5 days, the ratio of the first indicator to the second is calculated and, with a value of more than 0.9, the complication of the course of the disease is predicted in the form of relapses and metastases. The disadvantage of this method is its non-specificity for thyroid cancer, since this indicator can increase with other localizations of the cancer, as well as viral diseases as an indicator of nonspecific stimulation of the T-cell immunity.

The well-known "Method for the differential diagnosis of malignant tumors of the thyroid gland in children and adolescents" (see patent No. 23 00106 from May 27, 2007. Biol. No. 15), selected by us as a prototype. The essence of the invention lies in the fact that in children and adolescents with nodules of the thyroid gland, antigens of the main histocompatibility complex are determined before treatment and when antigens are detected: A10, B7, B35, as well as an incomplete phenotype at the HLA - A and HLA - B loci, they are diagnosed with papillary thyroid cancer without the attachment of an autoimmune component and perform radical surgery, and in the absence of these antigens, the follicular version of the tumor is diagnosed and organ-sparing operations are performed.

The known method allows you to choose the most effective and adequate method of surgical treatment for various diagnostic indicators of thyroid cancer in children and adolescents, however, it cannot be used as a prognostic factor for the occurrence and development of malignant solid tumors in children and adolescents.

The aim of the invention is the identification of immunogenetic associations of antigens of the main histocompatibility complex with the presence of solid malignant tumors in children.

This goal is achieved by the fact that in children and adolescents with solid tumors, antigens of the main histocompatibility complex are determined by serological typing of class I and II HLA typing of PCS-SSP and predicting the risk groups for malignant tumors in children and adolescents with an increase in the frequency of HLA A26 antigens in children with nephroblastoma and germinogenic tumors, an increase in the frequency of HLA B13 with neuroblastoma, as well as the frequency of HLA DRB1 13 with nephroblastoma.

The invention "A method for predicting the development of malignant solid tumors in children and adolescents" is new, since it is unknown in medicine in the field of laboratory diagnostics, namely, in immunogenetic studies in oncopathology, to predict the development of solid malignant tumors in children and adolescents.

The occurrence of malignant neoplasms becomes possible with a violation of immunological homeostasis. The development of insufficiency of the functions of the immune system is controlled by the genes of the immune response, associated, in turn, with histocompatibility antigens. Therefore, there is a relationship between cancer and antigens of the HLA system.

Thus, the totality of the essential features presented by us is not known from the level of medicine in the field of immunogenetic studies in oncology for planning effective treatment methods.

In children with solid malignant tumors, HLA typing of class I and II HLA typing of PCS-SSP is performed.

The novelty of the presented invention lies in the fact that in children and adolescents with solid malignant tumors antigens of the main histocompatibility complex are determined. With an increase in the frequency of HLA A26 antigens in children with nephroblastoma and germinogenous tumors, an increase in the frequency of HLA B 13 with neuroblastoma, as well as an increase in the frequency of HLA DRB1 13 antigens with neuroblastoma and nephroblastoma, these groups of children can be attributed to risk groups for these malignant tumors.

The invention "A method for predicting the development of malignant solid tumors in children and adolescents" is industrially applicable, as it can be used in healthcare, pediatric oncological medical institutions, dispensaries, and cancer research institutes. A method for predicting the development of malignant solid tumors in children and adolescents was carried out as follows: HLA antigens of class I and II were determined in 74 patients of ODO RNII, the control group consisted of 1215 donors (class I) and 128 donors (class II) ) The summary data are presented in table No. 1 and table No. 1 (continued) (HLA - phenotype of sick children with solid malignant tumors, FIG.1, FIG.2).

Serological typing was carried out in a standard lymphocytotoxic test proposed by the National Institute of Health in Bethesda (NIH method) to determine HLA - class I antigens, loci A and B. Serum from the All-Russian Bank of Histotyping Reagents of the St. Petersburg Research Institute of Hematology and Transfusion was used as histotyping standards blood.

Allelic variants of class II HLA (DRBI locus) were genotyped using the polymerase chain reaction method using a primer panel of NPF DIK-Technologiya (Moscow).

Analyzing the data of the table (HLA is the phenotype of sick children with solid malignant tumors, FIG.1, FIG.2) revealed: with neuroblastoma, an increase in the frequency of HLA A24 antigens is 35.71% (control - 16.46%), B8 - 21.42 % (control - 10.86%), 13 - 35.71% (control - 11.6%), 27 - 28.57% (control - 10.74%), 60 - 14.28% ( control - 6.34%), only the frequency of antigen B 13 was significantly increased (% 2 - 6.02, p <0.05). With nephroblastoma, there is an increase in the frequency of A26 antigens - 21.42% (control - 5.35%), B51 - 28.57% (control - 12.35%), B 18 - 28.57% (control - 13.5% ), B 35 - 35.71% (control - 14.9%), B 41 - 14.28% (control - 4.12), only the frequency of antigen A26 was significantly increased (χ2 - 6.85, p <0, 05). In patients with Ewing's Sarcoma, the frequency of A24 antigens was significantly increased - 41.66% (control - 16.46%), B51 - 33.33% (control - 12.35%), B61 - 8.33% (control - 2, 47%). In patients with osteogenic sarcoma, the frequency of the same antigens is increased: A24 - 36.36% (control - 16.46%), B51 - 36.36% (control - 12.35%), B61 - 9.0% (control - 2.47%). An increase in the frequency of B13, B56, B35 (27.27%, 9.0%, 27.27%) as compared with the control (11.6%, 1.97%, 14.9%) was also noted; the frequency of B7 antigens was reduced - 9.0% (control - 19.67%), however, these differences are not significant. The number of homozygotes according to the HLA - A locus in the group with osteogenic sarcoma was 5 cases, the number of homozygotes in patients with Ewing sarcoma was 7. With germinogenic tumors, the frequency of A24 antigens was increased by 26.09% (control - 16.46%), A26 - 17 , 39% (control - 5.35%), A11 - 26.09% (control - 12.59%), B51 - 21.74% (control - 12.35%), B18 - 21.74% (control - 12.35%), B39 - 4.34% (control - 1.73%), B50 - 4.34% (control - 1.24%), B55 - 4.34% (control - 0.82% ) Significant differences compared with the control group were noted in the frequency of occurrence of A26 antigen (χ2 - 3.98, p <0.05). When typing class II HLA genes in a group with neuroblastoma, an increase in HLA frequency was detected DRB1 04 - 35.71% (control - 18.75%), DRB1 09 - 14.28% (control - 6.25%), DRB1 12 - 14.28% (control - 7.81%), DRB1 14 - 7.14% (control - 3.9%). With nephroblastoma, an increase in the frequency of DRB1 04 is observed - 35.71% (control - 18.75%) and a significantly increased frequency of DRB1 13 - 57.14% (χ2 - 4.45, p <0.05). With Ewing's sarcoma, an increase in the frequency of specificities is noted: DRB1 14 - 16.67% (in the control - 3.9%), the frequency of DRB1 15 is also increased. In patients with osteogenic sarcoma an increase in the frequency of specificities is noted: DRB1 03 - 45.45% ( control - 22.65%) and DRB1 09 - 27.27%. In patients with germinogenic tumors, the frequency of DRB1 08 increased to 20.0% (control 7.8%), DRB1 13 to 40.0% (control 29.68%), DRB1 15 to 30.0% (control 21 , 88%).

Between 2010 and 2011, we examined 74 patients (12 patients with Ewing's sarcoma, 11 patients with osteogenic sarcoma, 14 patients with neuroblastoma, 14 patients with nephroblastoma, 23 patients with germinogenic tumors). The average age of patients was: with Ewing's sarcoma - 11.8 years, osteogenic sarcoma - 17.1 years, neuroblastoma - 4.7 years, nephroblastoma - 4.8 years, germ cell tumors - 14.2 years. The disease started on average at the age of: with Ewing's sarcoma - 11.6 years, osteogenic sarcoma - 16.4 years, neuroblastoma - 4.4 years, nephroblastoma - 4.2 years, germ cell tumors - 10.6 years. Of these, with Ewing's sarcoma - 9 boys, 3 girls, with osteogenic sarcoma - 7 boys, 4 girls, neuroblastoma - 8 boys, 6 girls, nephroblastoma - 9 boys, 5 girls, germ cell tumors - 10 boys, 13 girls.

HLA is the phenotype of sick children with solid malignant tumors. FIG. 1. and FIG. 2.

As can be seen from the data of FIG. 1 and FIG. 2, in the application materials, we presented Table No. 1 and Table No. 1 (continued) phenotypes (HLA I and II classes) of children and adolescents with solid malignant tumors. Depending on the presence of the A26 antigen in the patient’s phenotype in children with nephroblastoma and germinogenic tumors, B 13 in case of neuroblastoma, HLA DRB1 13 in case of neuroblastoma and nephroblastoma and taking into account a significant increase in their frequency compared to the population control group, these children can be classified as risk groups data of malignant tumors.

The possibility of carrying out the invention "Method for predicting the development of malignant solid tumors in children and adolescents" is confirmed by the following case histories.

1. Patient I., born in 2007, medical history No. 18505 / s, was admitted to the Department of Pediatric Oncology on 5.10.09 with a diagnosis of Neuroblastoma of the sacral region with germination of the pelvic floor muscles, infiltration of the pelvic tissue, St IV. High risk group, class 2. 09/10/09 an operation was performed - removal of a pelvic tumor. GA is revised in RNII # 1 1454-1 1468 from 09/29/09 - ganglioneuroblastoma. Revision G.A. No. 68253-9 / 09 of 6.10.09 - neuroblastoma G 3, next to the tumor is the nerve ganglion. The study of the main histocompatibility complex was performed: HLA phenotype (I and II class): A24, A-; B13, B51, DRB1 01, 01. The presence of B13 antigens indicates a child's predisposition to neuroblastoma.

2. Patient I., born in 2002, case history No. 3444 / s, was admitted to the Department of Pediatric Oncology 02.25.09 with a diagnosis of nephroblastoma on the left, St I.II, class. group 2. 09/12/08 an operation was performed - nephrectomy on the left. G.A. No. 8109-14 (revision of RNII) - nephroblastoma, adenomatous (glandular) variant. The study of the main histocompatibility complex was performed: HLA - phenotype (I and II class): A3, A26; B51, B35, DRB1 13, 17, which indicates a child's predisposition to neuroblastoma.

Technical and economic efficiency “A method for predicting the development of malignant solid tumors in children and adolescents” consists in the fact that when an antigens of the main antigens are associated with histocompatibility complexes with the development of malignant processes in childhood, a screening program for early detection of pathology in the general medical network and in patronage system.

Claims (1)

A method for predicting the risk of developing nephroblastoma in children and adolescents, including the determination of antigens of the main histocompatibility complex, characterized in that they are determined by serological typing of antigens of the main histocompatibility complex of class I and II HLA by PCS-SSP, risk groups for the development of nephroblastoma in the presence of HLA A26 and antigens DRBI 13.

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