TECHNOLOGIES FOR DEVELOPING DECISION SUPPORT SYSTEMS FOR THE DIAGNOSIS OF BLOOD DISORDERS USING CONVOLUTIONAL NEURAL NETWORKS

In this study, we analyzed technologies for obtaining, processing, segmentation, and transmitting of microphotographs for subsequent recognition. We selected the most promising machine learning algorithms optimal for the processing of medical images, investigated the technologies of analyzing medica...

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Main Authors: U. V. Maslikova, A. A. Supilnikov
Format: Article
Language:Russian
Published: Private institution educational organization of higher education "Medical University "ReaViz" 2021-02-01
Series:Вестник медицинского института «Реавиз»: Реабилитация, врач и здоровье
Subjects:
cad
Online Access:https://vestnik.reaviz.ru/jour/article/view/76
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spelling doaj-505543c04a264d96be5a7b48bb9661772021-08-17T07:56:40ZrusPrivate institution educational organization of higher education "Medical University "ReaViz"Вестник медицинского института «Реавиз»: Реабилитация, врач и здоровье2226-762X2782-15792021-02-010513815010.20340/vmi-rvz.2020.5.1689TECHNOLOGIES FOR DEVELOPING DECISION SUPPORT SYSTEMS FOR THE DIAGNOSIS OF BLOOD DISORDERS USING CONVOLUTIONAL NEURAL NETWORKSU. V. Maslikova0A. A. Supilnikov1National Medical Research Center for HematologyPrivate Institution of Higher Education ‘Medical University ‘Reaviz’In this study, we analyzed technologies for obtaining, processing, segmentation, and transmitting of microphotographs for subsequent recognition. We selected the most promising machine learning algorithms optimal for the processing of medical images, investigated the technologies of analyzing medical texts, studied the aspects of using the Watson neural network for analyzing the semantics of medical images, as well as the aspect of using the unified medical language UMLS for the needs of syndromic diagnostics for the evaluation of medical texts from medical histories in natural language. We also developed an interface for receiving,  processing, segmenting, and transmitting microphotographs to artificial neural networks and an interface for  the primary accepting and processing of microphotographs based on the OMERO medical image processing  platform. To send data online, a demo script for jupiter was prepared. An interface for transmitting medical texts  to the medical text semantics recognition system was also developed. The IBM Watson Annotator for Clinical  Data was used to perform preliminary analysis of medical texts. We created a database of medical images of  the bone marrow for neural network training. We made 3,500 color microphotographs (600×400 pixels) of  bone marrow smears at a resolution of ×600 (light microscopy; hematoxylin and eosin staining). We performed  marking of 11 types of bone marrow cells. We created a database of medical texts (167 patients, 40,000 words) to prepare a neural network. The database was stripped of all personal identifiers.https://vestnik.reaviz.ru/jour/article/view/76bone marrow microscopycaddecision support systemssemantics analysis, machine vision
collection DOAJ
language Russian
format Article
sources DOAJ
author U. V. Maslikova
A. A. Supilnikov
spellingShingle U. V. Maslikova
A. A. Supilnikov
TECHNOLOGIES FOR DEVELOPING DECISION SUPPORT SYSTEMS FOR THE DIAGNOSIS OF BLOOD DISORDERS USING CONVOLUTIONAL NEURAL NETWORKS
Вестник медицинского института «Реавиз»: Реабилитация, врач и здоровье
bone marrow microscopy
cad
decision support systems
semantics analysis, machine vision
author_facet U. V. Maslikova
A. A. Supilnikov
author_sort U. V. Maslikova
title TECHNOLOGIES FOR DEVELOPING DECISION SUPPORT SYSTEMS FOR THE DIAGNOSIS OF BLOOD DISORDERS USING CONVOLUTIONAL NEURAL NETWORKS
title_short TECHNOLOGIES FOR DEVELOPING DECISION SUPPORT SYSTEMS FOR THE DIAGNOSIS OF BLOOD DISORDERS USING CONVOLUTIONAL NEURAL NETWORKS
title_full TECHNOLOGIES FOR DEVELOPING DECISION SUPPORT SYSTEMS FOR THE DIAGNOSIS OF BLOOD DISORDERS USING CONVOLUTIONAL NEURAL NETWORKS
title_fullStr TECHNOLOGIES FOR DEVELOPING DECISION SUPPORT SYSTEMS FOR THE DIAGNOSIS OF BLOOD DISORDERS USING CONVOLUTIONAL NEURAL NETWORKS
title_full_unstemmed TECHNOLOGIES FOR DEVELOPING DECISION SUPPORT SYSTEMS FOR THE DIAGNOSIS OF BLOOD DISORDERS USING CONVOLUTIONAL NEURAL NETWORKS
title_sort technologies for developing decision support systems for the diagnosis of blood disorders using convolutional neural networks
publisher Private institution educational organization of higher education "Medical University "ReaViz"
series Вестник медицинского института «Реавиз»: Реабилитация, врач и здоровье
issn 2226-762X
2782-1579
publishDate 2021-02-01
description In this study, we analyzed technologies for obtaining, processing, segmentation, and transmitting of microphotographs for subsequent recognition. We selected the most promising machine learning algorithms optimal for the processing of medical images, investigated the technologies of analyzing medical texts, studied the aspects of using the Watson neural network for analyzing the semantics of medical images, as well as the aspect of using the unified medical language UMLS for the needs of syndromic diagnostics for the evaluation of medical texts from medical histories in natural language. We also developed an interface for receiving,  processing, segmenting, and transmitting microphotographs to artificial neural networks and an interface for  the primary accepting and processing of microphotographs based on the OMERO medical image processing  platform. To send data online, a demo script for jupiter was prepared. An interface for transmitting medical texts  to the medical text semantics recognition system was also developed. The IBM Watson Annotator for Clinical  Data was used to perform preliminary analysis of medical texts. We created a database of medical images of  the bone marrow for neural network training. We made 3,500 color microphotographs (600×400 pixels) of  bone marrow smears at a resolution of ×600 (light microscopy; hematoxylin and eosin staining). We performed  marking of 11 types of bone marrow cells. We created a database of medical texts (167 patients, 40,000 words) to prepare a neural network. The database was stripped of all personal identifiers.
topic bone marrow microscopy
cad
decision support systems
semantics analysis, machine vision
url https://vestnik.reaviz.ru/jour/article/view/76
work_keys_str_mv AT uvmaslikova technologiesfordevelopingdecisionsupportsystemsforthediagnosisofblooddisordersusingconvolutionalneuralnetworks
AT aasupilnikov technologiesfordevelopingdecisionsupportsystemsforthediagnosisofblooddisordersusingconvolutionalneuralnetworks
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