Passive Microwave Radiometry and microRNA Detection for Breast Cancer Diagnostics

Passive Microwave Radiometry and microRNA Detection for Breast Cancer Diagnostics

Breast cancer prevention is an important health issue for women worldwide. In this study, we compared the conventional breast cancer screening exams of mammography and ultrasound with the novel approaches of passive microwave radiometry (MWR) and microRNA (miRNA) analysis. While mammography screenin...

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Main Authors: Leonid Fisher, Olga Fisher, Dmitry Chebanov, Sergey Vesnin, Alexey Goltsov, Arran Turnbull, Mike Dixon, Indira Kudaibergenova, Batyr Osmonov, Sergey Karbainov, Larion Popov, Alexander Losev, Igor Goryanin
Format: Article
Language:English
Published: MDPI AG 2022-12-01
Series:Diagnostics
Subjects:
breast cancer
early diagnostics
passive microwave radiometry (MWR)
microRNA (miRNA)
Online Access:https://www.mdpi.com/2075-4418/13/1/118
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author Leonid Fisher
Olga Fisher
Dmitry Chebanov
Sergey Vesnin
Alexey Goltsov
Arran Turnbull
Mike Dixon
Indira Kudaibergenova
Batyr Osmonov
Sergey Karbainov
Larion Popov
Alexander Losev
Igor Goryanin
author_facet Leonid Fisher
Olga Fisher
Dmitry Chebanov
Sergey Vesnin
Alexey Goltsov
Arran Turnbull
Mike Dixon
Indira Kudaibergenova
Batyr Osmonov
Sergey Karbainov
Larion Popov
Alexander Losev
Igor Goryanin
author_sort Leonid Fisher
collection DOAJ
description Breast cancer prevention is an important health issue for women worldwide. In this study, we compared the conventional breast cancer screening exams of mammography and ultrasound with the novel approaches of passive microwave radiometry (MWR) and microRNA (miRNA) analysis. While mammography screening dynamics could be completed in 3–6 months, MWR provided a prediction in a matter of weeks or even days. Moreover, MWR has the potential of being complemented with miRNA diagnostics to further improve its predictive quality. These novel techniques can be used alone or in conjunction with more established techniques to improve early breast cancer diagnosis.
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spelling doaj.art-01245b4f85e442a8abb75c319eb741292023-11-16T15:09:05ZengMDPI AGDiagnostics2075-44182022-12-0113111810.3390/diagnostics13010118Passive Microwave Radiometry and microRNA Detection for Breast Cancer DiagnosticsLeonid Fisher0Olga Fisher1Dmitry Chebanov2Sergey Vesnin3Alexey Goltsov4Arran Turnbull5Mike Dixon6Indira Kudaibergenova7Batyr Osmonov8Sergey Karbainov9Larion Popov10Alexander Losev11Igor Goryanin12Russian Academy of Medico-Social Rehabilitation, Moscow 105037, RussiaRussian Academy of Medico-Social Rehabilitation, Moscow 105037, RussiaBioAlg Corp., Walnut, CA 91789, USAMedical Microwave Radiometry (MMWR) Ltd., Edinburgh EH10 5LZ, UKInstitute for Artificial Intelligence, Russian Technological University (MIREA), Moscow 119454, RussiaEdinburgh Cancer Research, University of Edinburgh, Edinburgh EH8 9YL, UKEdinburgh Cancer Research, University of Edinburgh, Edinburgh EH8 9YL, UKKyrgyz State Medical Academy (KSMA), Bishkek 720020, KyrgyzstanKyrgyz State Medical Academy (KSMA), Bishkek 720020, KyrgyzstanAragon Group Inc., Aeulestrasse 30, 9490 Vaduz, LiechtensteinMedical Microwave Radiometry (MMWR) Ltd., Edinburgh EH10 5LZ, UKFaculty of Mathematics and Information Technology, Volgograd State University, Volgograd 400062, RussiaBiological Systems Unit, Okinawa Institute Science and Technology Graduate University, Okinawa 904-0495, JapanBreast cancer prevention is an important health issue for women worldwide. In this study, we compared the conventional breast cancer screening exams of mammography and ultrasound with the novel approaches of passive microwave radiometry (MWR) and microRNA (miRNA) analysis. While mammography screening dynamics could be completed in 3–6 months, MWR provided a prediction in a matter of weeks or even days. Moreover, MWR has the potential of being complemented with miRNA diagnostics to further improve its predictive quality. These novel techniques can be used alone or in conjunction with more established techniques to improve early breast cancer diagnosis.https://www.mdpi.com/2075-4418/13/1/118breast cancerearly diagnosticspassive microwave radiometry (MWR)microRNA (miRNA)
spellingShingle Leonid Fisher
Olga Fisher
Dmitry Chebanov
Sergey Vesnin
Alexey Goltsov
Arran Turnbull
Mike Dixon
Indira Kudaibergenova
Batyr Osmonov
Sergey Karbainov
Larion Popov
Alexander Losev
Igor Goryanin
Passive Microwave Radiometry and microRNA Detection for Breast Cancer Diagnostics
Diagnostics
breast cancer
early diagnostics
passive microwave radiometry (MWR)
microRNA (miRNA)
title Passive Microwave Radiometry and microRNA Detection for Breast Cancer Diagnostics
title_full Passive Microwave Radiometry and microRNA Detection for Breast Cancer Diagnostics
title_fullStr Passive Microwave Radiometry and microRNA Detection for Breast Cancer Diagnostics
title_full_unstemmed Passive Microwave Radiometry and microRNA Detection for Breast Cancer Diagnostics
title_short Passive Microwave Radiometry and microRNA Detection for Breast Cancer Diagnostics
title_sort passive microwave radiometry and microrna detection for breast cancer diagnostics
topic breast cancer
early diagnostics
passive microwave radiometry (MWR)
microRNA (miRNA)
url https://www.mdpi.com/2075-4418/13/1/118
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