Artificial intelligence technologies in predicting genetic disorders and in personalized primary and secondary prevention of brain infarction in young people

Artificial intelligence technologies in predicting genetic disorders and in personalized primary and secondary prevention of brain infarction in young people

Background. Over the past decades, the programs for the prediction and prevention of prevailing cardiovascular diseases have been intensively developing. Up-to-date molecular genetic methods provide scientists with new prospects for the diagnosis, prediction of the outcome and optimal treatment of a...

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Main Authors: T. I. Dutova, I. N. Banin, N. A. Ermolenko
Format: Article
Language:Russian
Published: Open Systems Publication 2023-11-01
Series:Лечащий Врач
Subjects:
ischemic stroke
young age
genetic polymorphism
programme
equation
artificial intelligence
risk of genetic predisposition
gene
Online Access:https://journal.lvrach.ru/jour/article/view/1139
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author T. I. Dutova
I. N. Banin
N. A. Ermolenko
author_facet T. I. Dutova
I. N. Banin
N. A. Ermolenko
author_sort T. I. Dutova
collection DOAJ
description Background. Over the past decades, the programs for the prediction and prevention of prevailing cardiovascular diseases have been intensively developing. Up-to-date molecular genetic methods provide scientists with new prospects for the diagnosis, prediction of the outcome and optimal treatment of acute cerebral circulation disorders. Hereditary thrombophilia can be considered as a trigger of ischemic stroke, since in some patients, occlusion of the cerebral arteries due to intravascular thrombosis is revealed during the examination. Knowledge on genetic predisposition of the patient to ischemic stroke will allow us to develop the methods of individualized primary and secondary prevention of the pathology.Objective. The purpose of the study was to develop a prognostic model based on the design equation of the coefficients of the pathological alleles presence in the genes controlling predisposition to IS according to a set of biochemical indicators. Materials and methods. The genetic, clinical and laboratory results of the examination of 280 people have been analyzed. Group I consisted of patients with IS (n = 180) aged 22 to 45 years (mean age 33.4 Ѓ} 6.57, including 38 patients who experienced recurrent ischemic stroke). Group II included patients with IS (n = 50) aged 52 to 100 years (mean age 73.4 Ѓ} 8.24 years). The control group – group III, consisted of apparently healthy individuals (n = 50) aged 20 to 43 years (average age 31.5 Ѓ} 5.82 years). All patients underwent computed tomography of the brain, ultrasound examination of the brachiocephalic arteries, and echocardiography. Pharmacogenetic investigations as well as venous blood tests were once performed in all the subjects to reveal a genetic predisposition to thrombophilia. Multiple regression analysis (ANOVA) has been used to calculate the prediction coefficients for the presence of pathological alleles.Results. A mathematical model has been developed at the level of the following genes: angiotensin IIAGTR1 receptor (A1166C), G-protein beta 2 GNB2 (C825T) controlling blood pressure, interleukin-6 IL-6 gene (G-174C) controlling immune response, methionine synthase MTR (A2756G) genes, methylenetetrahydrofolate reductase MTHFR (A1298C), methylenetetrahydrofolate reductase MTHFR (C677T), controlling the level of homocysteine, inhibitor of plasminogen activator PAI-1 (5G/4G), controlling the hemostasis system, platelet receptor fibrinogen GP III a (HPA1-1 a/1 b), controlling aspirin resistance. Calculations of the equation are based on the relationship between the alleles of a particular gene and 22 independent variables. The model is designed to predict the possible presence of genetic thrombophilia.Conclusion. Thus, it is possible to make recommendations based on the results of standard biochemical studies that allow us to assume the presence of mutations in one of the genes and perform an adjusting genetic assessment. The initial examination of patients with BI can play a principal role in the early identification of the factors that prognostically influence the pathology development. The designed programme can be an effective tool in making clinical decisions for the hospitalized BI population.
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spelling doaj-art-78f4dba3e4ac4075bedc1f90b63309902025-08-20T03:57:51ZrusOpen Systems PublicationЛечащий Врач1560-51752687-11812023-11-01010889610.51793/OS.2023.26.10.0141132Artificial intelligence technologies in predicting genetic disorders and in personalized primary and secondary prevention of brain infarction in young peopleT. I. Dutova0I. N. Banin1N. A. Ermolenko2Budgetary institution of the Voronezh Region Voronezh City Clinical Hospital of Emergency Medical Care No. 1Budgetary institution of the Voronezh Region Voronezh City Clinical Hospital of Emergency Medical Care No. 1Federal State Autonomous Educational Institution of Higher Education Voronezh State Medical University named after N. N. Burdenko of the Ministry of Health of the Russian FederationBackground. Over the past decades, the programs for the prediction and prevention of prevailing cardiovascular diseases have been intensively developing. Up-to-date molecular genetic methods provide scientists with new prospects for the diagnosis, prediction of the outcome and optimal treatment of acute cerebral circulation disorders. Hereditary thrombophilia can be considered as a trigger of ischemic stroke, since in some patients, occlusion of the cerebral arteries due to intravascular thrombosis is revealed during the examination. Knowledge on genetic predisposition of the patient to ischemic stroke will allow us to develop the methods of individualized primary and secondary prevention of the pathology.Objective. The purpose of the study was to develop a prognostic model based on the design equation of the coefficients of the pathological alleles presence in the genes controlling predisposition to IS according to a set of biochemical indicators. Materials and methods. The genetic, clinical and laboratory results of the examination of 280 people have been analyzed. Group I consisted of patients with IS (n = 180) aged 22 to 45 years (mean age 33.4 Ѓ} 6.57, including 38 patients who experienced recurrent ischemic stroke). Group II included patients with IS (n = 50) aged 52 to 100 years (mean age 73.4 Ѓ} 8.24 years). The control group – group III, consisted of apparently healthy individuals (n = 50) aged 20 to 43 years (average age 31.5 Ѓ} 5.82 years). All patients underwent computed tomography of the brain, ultrasound examination of the brachiocephalic arteries, and echocardiography. Pharmacogenetic investigations as well as venous blood tests were once performed in all the subjects to reveal a genetic predisposition to thrombophilia. Multiple regression analysis (ANOVA) has been used to calculate the prediction coefficients for the presence of pathological alleles.Results. A mathematical model has been developed at the level of the following genes: angiotensin IIAGTR1 receptor (A1166C), G-protein beta 2 GNB2 (C825T) controlling blood pressure, interleukin-6 IL-6 gene (G-174C) controlling immune response, methionine synthase MTR (A2756G) genes, methylenetetrahydrofolate reductase MTHFR (A1298C), methylenetetrahydrofolate reductase MTHFR (C677T), controlling the level of homocysteine, inhibitor of plasminogen activator PAI-1 (5G/4G), controlling the hemostasis system, platelet receptor fibrinogen GP III a (HPA1-1 a/1 b), controlling aspirin resistance. Calculations of the equation are based on the relationship between the alleles of a particular gene and 22 independent variables. The model is designed to predict the possible presence of genetic thrombophilia.Conclusion. Thus, it is possible to make recommendations based on the results of standard biochemical studies that allow us to assume the presence of mutations in one of the genes and perform an adjusting genetic assessment. The initial examination of patients with BI can play a principal role in the early identification of the factors that prognostically influence the pathology development. The designed programme can be an effective tool in making clinical decisions for the hospitalized BI population.https://journal.lvrach.ru/jour/article/view/1139ischemic strokeyoung agegenetic polymorphismprogrammeequationartificial intelligencerisk of genetic predispositiongene
spellingShingle T. I. Dutova
I. N. Banin
N. A. Ermolenko
Artificial intelligence technologies in predicting genetic disorders and in personalized primary and secondary prevention of brain infarction in young people
Лечащий Врач
ischemic stroke
young age
genetic polymorphism
programme
equation
artificial intelligence
risk of genetic predisposition
gene
title Artificial intelligence technologies in predicting genetic disorders and in personalized primary and secondary prevention of brain infarction in young people
title_full Artificial intelligence technologies in predicting genetic disorders and in personalized primary and secondary prevention of brain infarction in young people
title_fullStr Artificial intelligence technologies in predicting genetic disorders and in personalized primary and secondary prevention of brain infarction in young people
title_full_unstemmed Artificial intelligence technologies in predicting genetic disorders and in personalized primary and secondary prevention of brain infarction in young people
title_short Artificial intelligence technologies in predicting genetic disorders and in personalized primary and secondary prevention of brain infarction in young people
title_sort artificial intelligence technologies in predicting genetic disorders and in personalized primary and secondary prevention of brain infarction in young people
topic ischemic stroke
young age
genetic polymorphism
programme
equation
artificial intelligence
risk of genetic predisposition
gene
url https://journal.lvrach.ru/jour/article/view/1139
work_keys_str_mv AT tidutova artificialintelligencetechnologiesinpredictinggeneticdisordersandinpersonalizedprimaryandsecondarypreventionofbraininfarctioninyoungpeople
AT inbanin artificialintelligencetechnologiesinpredictinggeneticdisordersandinpersonalizedprimaryandsecondarypreventionofbraininfarctioninyoungpeople
AT naermolenko artificialintelligencetechnologiesinpredictinggeneticdisordersandinpersonalizedprimaryandsecondarypreventionofbraininfarctioninyoungpeople

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